Browse the 100 jobs of the future
100 year counsellors will help people to have a productive and fulfilling life, particularly as they age.
100 year counsellor
In the future our lives will be further extended by health and medical advances, so that we can expect our third age, after childhood and mid-lives which are focused on work and family, to be potentially the best time of our lives.
A 100 year counsellor will work with people over all of their lives, but particularly into the third age, so as to support them to have a productive and fulfilling life at any age.
They will work with individuals and groups, such as local community growth co-ordinators, to advise on how to effectively align psychological, social and economic aspects of each age, to maximise people's human potential. They will also have a role as advocates for age transition management.
The 100 year counsellor will need to have human skills such as empathy and a caring disposition, but also good knowledge of health technologies such as anticipatory prosthetics, and the ability to communicate with professionals such as age-transition psychologists, nostalgists, and whole-of-life educators.
Additive manufacturing engineers will be responsible for making everything from satellite dishes to refrigerators.
Additive manufacturing engineer
Additive manufacturing engineers will be responsible for making everything from satellite dishes to refrigerators.
Additive manufacturing will have been around for 20 years. It involves the building up of a material product, layer by layer, using material in fine powder form. It is the opposite to traditional methods, where material is removed to carve a shape. It is closely allied to 3D printing, which is one method of additive manufacturing.
Additive manufacturing engineers will be increasingly in demand to design purpose built products, in particular prototypes, and high tolerance miniaturised machine parts.
The additive manufacturing engineer will work with designers, technicians and material scientists.
Additive manufacturing engineers will have strong engineering skills, problem solving, and creative design skills. They also need strong communication skills and collaborative dispositions to work in multidisciplinary teams.
Aestheticians will help people enhance their physical appearances using the latest in biochemistry and fashion technology.
Aestheticians work with people to enhance their physical appearances.
With technological advances and developments in biochemistry, aestheticians will design advanced beauty solutions involving the face, hair and body. They will offer personalised skin and haircare services designed specifically for the individual's beauty and health needs, based on digital analysis.
Many aestheticians will work closely with the aging population. They will design environmentally responsive makeup, hairstyles, eye lenses and fashionable face or body prosthetics for individualised looks, and consult about clothing choices that enhance a person's overall appearance.
They may work with 3D printed fashion designers and virtual avatar generators as part of integrated image management services.
As surveillance in public places is now an everyday part of life, aestheticians may help people to build physical appearances that maintain their privacy through the use of image-scrambling finishes and projections.
Aestheticians are highly creative, and have well-developed communication skills to work effectively with clients and collaborators. They will be able to use digital tools to analyse people's beauty and health needs and apply digital solutions. They will be hands-on practitioners, and need to keep abreast of the latest developments in aesthetic digital and physical solutions.
Aged health carers will ensure the quality of life of elderly people.
Aged health carer of the future
Aged health carers provide health support and caring services to elderly people.
In the future, with continuing advancements in medicine, elderly people who need ongoing care will be much older than those in residential facilities and nursing homes today.
Robots do much of the manual work (such as lifting and transport), provide support with daily living tasks, monitor patients, and manage records. Medication is managed by automated delivery systems.
Aged health carers are primarily responsible for ensuring the quality of life of elderly people, by spending time with them, interacting with them, and facilitating meaningful activities that they enjoy.
Aged health carers need high levels of emotional intelligence. They must be good listeners, having true empathy for older people and their families. They need to have some knowledge of medical and healthcare issues, and some digital literacies to interact with healthcare systems and robots. They will have knowledge of human psychology to help elderly patients feel valued and supported.
Aged persons climate solutions consultants will work with government, councils, and elderly people to design strategies to guard against the effects of extreme weather on elderly populations.
Aged persons climate solutions consultant
As the planet warms we already have longer and hotter spells of weather, and more severe storms, that are dangerous for elderly citizens in particular.
Adverse effects from these weather events are concentrated in elderly populations.
An aged persons climate solutions consultant will work with government, councils, and with elderly people directly to design strategies to guard against these effects of extreme weather.
Solutions will involve warning systems and automated monitoring, community retreats, and systems of health care workers advising and supporting individuals.
The aged persons climate solutions consultant will be knowledgeable about the health implications of weather events, and skilled in devising creative strategies particular to the needs of different people and communities. They will have good communication skills working with government and with the elderly, and empathy and understanding of the needs of older people. They will have technology skills enabling them to conceive of and advise about monitoring and control systems.
Agroecological farmers will grow crops and biofuel, while restoring agricultural balance.
The agroecological farmer grows crops and biofuel, while restoring agricultural balance.
They cultivate agricultural ecosystems, the different elements of which work together to create an effective, efficient and sustainable means of feeding and fuelling the planet.
Many agroecological farmers will be based in urban areas, where they run vertical farms, but others will still be located in rural areas.
The agroecological farmer cultivates trees, shrubs, and weeds among crops, using intercropping techniques to create microclimates that are beneficial, and to repel pest insects. They will provide targeted irrigation to the root systems of plants, preventing run-off that might cause erosion and loss of soil nutrients.
Agroecological farmers will use a wide range of technologies in their work, including robots for fieldwork, gene editing for hardy crops, and big data-informed practice. Sensors are embedded into the soil and air, measuring exactly how much of the right green fertiliser is needed, what the temperature is, and how much watering is required.
Agroecological farmers have knowledge of how plants, soil, insects, animals, nutrients, water and weather interact with one another to create the living systems. They know about how to grow food and biofuel in sustainable ways. They enjoy working with plants, and have practical skills in fieldwork and robot repair. They have good data analysis skills, and can use algorithmic software to learn what the best sustainable and productive framing options might be.
AI educators will help people make the most of artificial intelligence, including learning how to use digital tools and data, and how to work with digital and robotic assistants.
AI educators will teach people about making the most of artificial intelligence.
This might include learning how to work with their household robots and digital assistants, through to learning how to use algorithmic tools to analyse big data or make decisions.
Unlike an algorithmic interpreter, who is there to explain exactly how artificial intelligence arrived at a particular answer, the AI educator will teach people how machines learn and adapt.
They will work with people to help them work out when and how to use their robot/assistant, feed it the right data, and interact with it in ways that will get them the answers they want.
AI educators will have excellent interpersonal skills, and have knowledge of teaching strategies that work with different kinds of clients. They will be digitally literate, and have good practical knowledge of robot/digital assistant interaction. A basic knowledge of machine learning will also be required.
AI intellectual property negotiators will negotiate for the ownership of new technologies, products, software, or other creative outputs.
AI intellectual property negotiator
AI intellectual property negotiators will know the value of creativity.
They will negotiate on behalf of their clients for the ownership or use of new technologies, products, software, or other creative outputs.
In the innovation age, demand for intellectual property titles, such as patents, trademarks, industrial designs and copyright, will be enormous and very complex.
As well as negotiating on behalf of people who are developing artificial intelligence software and algorithms, the AI intellectual property negotiator will negotiate on behalf of artificially intelligent entities that have created new things. They will also represent people when artificial intelligence has used their ideas without permission.
AI intellectual property negotiators will have advanced skills and knowledge in intellectual property law within their jurisdictions. They will have excellent analytical skills, along with interpersonal negotiation and persuasion capabilities. They will have strong attention to detail, and keep up to date with the latest in artificial intelligence developments.
Algorithm interpreters will help people understand how algorithms work and why artificial intelligence has come up with the decisions that it has.
The basis of data analysis and decision-making is the algorithm that breaks data into patterns, which are then used for predictive intervention, such as predicting the personal preferences of individuals and what they are likely to purchase.
However, many people or companies working with algorithm-based decision-making software, or machines, will have a limited understanding of where these interpretations come from or the basis on which these decisions are made.
An algorithm interpreter will help people understand how algorithms work and why artificial intelligence has come up with decisions it has.
Interpretation topics might include algorithms for insurance evaluations, loan applications, employment decisions, court judgements, and dating app rejections. They will translate white box decision outcomes (when system workings are known) into plain English for people of all ages and cultural backgrounds. Some will help make sense of black box decision outcomes (when the internal workings of the system are not known). They may also interpret and report individual or company needs to software designers to maximise the effectiveness of the AI product.
The algorithm interpreter will need strong knowledge of coding processes and of statistical analysis. They will also need insight into human needs, and communication skills necessary for unpacking clients perspectives, and helping them with decisions based on the machine learning algorithmic output.
Analogue experience guides will help people unplug from digital life and reconnect with the natural world, without digital implants or augmented reality.
Analogue experience guide
Analogue experience guides support people to unplug from digital life and reconnect with the natural world, without digital implants or augmented reality.
Analogue experience guides help people to appreciate a simpler and slower life by experiencing natural environments such as forests or mountainous areas without digital infrastructure or surveillance.
Along with psychologists and other healthcare workers, they may work with people to help them recover from digital, implant, or aesthetic modification addictions.
They may employ approaches such as: horticultural therapy (cultivation of plants); yoga; mindfulness techniques; traditional food preparation and cooking methods without bioprinting or other processing; and analogue art-making.
Analogue experience guides have strong interpersonal skills, and specific skills in their preferred therapeutic techniques. They have a deep appreciation of nature, horticultural skills, and prefer to live simply without too much digital input.
Automated transit system troubleshooters will address potential problems that occur in a transit system almost entirely comprised of autonomous self driving vehicles.
Automated transit system troubleshooter
These days, most of the vehicles on the roads drive themselves. The passengers in those cars get on with work, leisure activities, or even sleep while the car takes them where they need to go. These autonomous cars have many sensors on them, and they are networked together. They communicate with one another about their position, speed, the traffic conditions, hazards, and other environmental conditions. Traffic lights don't exist anymore, as an automated transit management system ensures that everything runs smoothly and efficiently. The transit management system also makes sure that accidents don't happen and everyone stays safe.
However, occasionally things go wrong and the automated systems can't correct. Robots can easily deal with a single autonomous car breakdown. Within two minutes they clear the car off the road and bring a replacement vehicle for the passengers. But they have more trouble dealing with the occasional human-driven old car, who may break the road rules and behave erratically. Sometimes hackers will break into a traffic management system and cause chaos. Very occasionally, an extreme weather event that wasn't anticipated by the climate modifiers can bring everything to a standstill.
When things go wrong with the transit management system, the automated transit system troubleshooter steps in.
They use monitoring systems and sensors to tell them what has gone wrong, and make rapid decisions about the best way to fix the problem. They may use digital algorithms to help them predict the consequences of different courses of action, and robotic or human workers to clear obstacles to traffic flow and get cars moving again.
They may also draw upon the expertise of an ethical hacker or cybersecurity personnel to repair the systems damage caused by malicious attacks.
Automated transit system troubleshooters will be decisive and quick thinking. They will be able to make sense of multiple sources of data in order to inform decisions. They will be effective risk managers, and competent using digital technologies. They will be clear communicators. They have strong disciplinary knowledge of traffic engineering and transport systems.
Automation anomaly analysts will help others to understand, improve, and refine solutions generated by AI.
Automation anomaly analyst
Sometimes, artificial intelligence will come up with a solution or recommendation that seems counter-intuitive, wrong, unethical, or just plain weird. In those circumstances, people will contact an automation anomaly analyst for help and advice.
Automation anomaly analysts specialise in tweaking algorithms to make them better suit people's needs, and un-winding back the data inputs that have led to the strange result.
Automation anomaly analysts commence by understanding the client's experience of the anomaly, and then act quickly to restore normal function.
In some instances, the anomalous result may turn out to be a new and useful solution, in which case the automation anomaly analyst may not make any changes at all. In other instances, they may need to reboot systems entirely and start from scratch.
Automation anomaly analysts will be fast-thinking and fast-acting. They will have intimate knowledge of AI algorithms, and have up-to-the-minute knowledge of the latest trends in this area. They will be expert coders, and also good data processors.
Automation anomaly analysts will often be freelance or work in small to medium enterprises - these automation anomaly analysts will need to be enterprising and entrepreneurial, with the aim of being the person that is top of mind to contact when a strange result happens.
Some big corporations and government agencies may have their own automation anomaly analyst team.
Autonomous vehicle profile designers will custom design vehicles to suit the individual needs and tastes of the vehicle owner.
Autonomous vehicle profile designer
In the future, driving will be optional as autonomous vehicles become more affordable and varied, leading to extended choice in forms of mobility.
As a result, the car as a transit experience will be redesigned. The basic car unit will be made up of a chassis with an electric drive-train and autonomous driving electronics.
An autonomous vehicle profile designer designs the cabin that will fit on top of the basic car unit. Each cabin will need to transform into multiple possible configurations, including bedroom, dining room, conference room, playroom, and gym (amongst others).
The autonomous vehicle profile designer will also skin the inside and outside of cars that is, uses augmented reality overlays to make the cars' look and feel reflect the personality and visual preferences of their owners. A car's skin will become an extension of its owner's personal avatar.
Autonomous vehicle profile designer will have a background in interior and industrial design, and possess excellent creative and visual artistic skills. They will have knowledge of the properties of new materials that are being produced, such as transparent aluminium. They will be experienced in computer-aided design and the use of augmented reality engines.
Behaviour prediction analysts will predict human and system behaviour based on data and algorithms.
Behaviour prediction analyst
Our online presence is constantly increasing, signalling our tastes and preferences for clothing, music and entertainment, hobbies etc.
Similarly, patterns of behaviour of communities are able to be tracked through the increasing amount of data that is collected, stored and analysed. Algorithms are being invented to make sense of patterns in this data.
A behaviour prediction analyst is a data scientist trained in the development of algorithms that can take big data sets to creatively project future patterns of behaviour across a variety of uses. These might include the personalised marketing of products, crime prediction, insurance company decisions, town planning, or government decision making.
A behaviour prediction analyst will need skills in data mining and analysis, implying a logical problem-solving disposition. They will need critical and creative thinking skills, to identify unexpected patterns, but also strong human skills to be able to think through the way people behave so as to make sense of their patterns of activity and what these say about their individual and communal needs.
Biofilm plumbers will install and maintain coatings of biofilm onto the walls of sewerage and wastewater pipes and liquid composting bins.
Biofilm plumbers install and maintain coatings of biofilm onto the walls of sewerage and wastewater pipes and liquid composting bins.
These biofilms are made of millions of friendly bacteria that then break down complex organic matter (waste) of various types.
The bacteria are embedded into a sticky layer of extracellular polymeric substance, which binds to the wall of the pipe.
Just as it's beneficial to have the right balance of bacteria in your gut, so, too, it's important to have the right bacteria breaking down your waste.
Using digital bacterial analysis tools, biofilm plumbers diagnose problems with biofilm and rebalance bacteria if the waste breakdown isn't working properly.
Biofilm plumbers will be good at working with their hands. They will be good at problem-solving, and have an understanding of bacterial biology. They will be able to read and interpret schematics and plans. They may work as freelancers, or in teams of human habitat workers. As with plumbers in previous eras, they will sometimes need to work in dirty or smelly conditions.
Bio-jackers will be genetic engineers, undertaking precision genome editing of plants and animals, including humans.
Bio-jackers are genetic engineers who undertake precision genome editing of plants and animals, including humans.
Depending on their specialist area of expertise, plant bio-jackers may manipulate the growth patterns and appearance of plants, along with the nutrition profiles of fruit and vegetables.
Human bio-jackers alter the genetic make- up of people, in order to fix gene patterns that cause disorders and illnesses, and in some instances to change their appearance and/or physical abilities. This is a tightly regulated area, and the work of bio-jackers must be thoroughly checked and certified for their potential impact to genetic diversity and the health of the host.
bio-jackers undertake complex genetic analyses to identify potential genetic modifications that can fix potential problems or meet other needs, and then undertake genome editing using plasmids to transfect the target cells.
bio-jackers will need in-depth knowledge of genetics, the processes of genetic engineering and genome editing, and what the results of these procedures are likely to be. Bio-jackers will work in teams and will need to be able to collaborate with others, such as genetic coaches and healthcare workers. They will also need training in advanced bioethics and genetic diversity practice.
Biometric security solutions engineers will create individualised biometric signatures to use when accessing digital and physical access points, replacing online passwords and physical keys.
Biometric security solutions engineer
The days of losing your keys, forgetting your multiple passwords and having your identity stolen are in the past.
A biometric security solutions engineer creates individualised biometric signatures to use across all physical and digital secure access points, such as online banking and home, office or car access.
Biometrics measure physical and behavioural attributes such as fingerprints, iris and retina images, face and hand scans, voice recognition, and habitual patterns of behaviour.
Identity theft will no longer be possible as access systems will require multiple, randomly designated biometric measurements to confirm identification.
The biometric security solutions engineer determines which sensors are appropriate for the security solution, then applies software solutions to analyse and match the authentication factors. Biometrics security integrates with the overall security systems of a building or virtual system.
Biometric security solutions engineers will be comfortable working with both software and hardware, and will understand the use of biometrics to develop unique identification solutions. They will be practical and enjoy gadgetry and electronics. They will also understand systems and be able to communicate well with colleagues in other security fields to ensure that biometrics take up their place in a suite of security measures.
Biomimicry innovators will seek sustainable solutions to human challenges by emulating nature's engineering processes.
The biomimicry innovator seeks sustainable solutions to human challenges by emulating nature's engineering processes. For instance, researchers are modelling energy-saving climate control systems on gas exchange mechanisms in termite mounds, or efficient and painless needles based on mosquito mouthparts.
The biomimicry innovator will be committed to sustainable innovation that is grounded in biological research, where they seek to understand the engineering complexities of plants, animal and microbe specialties. Transport strategies and materials properties are two further areas where diverse insect adaptations provide blueprints for innovations.
The role extends past research as they work to apply this knowledge to create products and processes that tackle global issues such as waste management, energy efficiency and agricultural solutions that mimic how ecosystems survive.
Biomimicry innovators will have advanced skills in biological science and will be driven by a curiosity of the natural world. They will have practical understandings from many engineering fields as they transform and problem solve. They will harness their research data to bring creative ideas to interdisciplinary teams. Good communication skills will enable them to communicate their research-inspired ideas with other collaborators as they work towards innovative solutions.
Bioprinting engineers will create viable tissue for human implants, using hardware and software associated with next generation 3D printers.
3D printing will have an increasing range of applications in the future, including printing organic materials.
One possibility is synthetic meat, to respond to concerns about the climate and ethical ramifications of meat production.
Another is 3D printing of tissue such as cartilage, bone or muscle, or potentially internal organs, for tailored human implants.
Research on such implants is moving at a fast pace.
A bioprinting engineer will create viable tissue for human implants, using hardware and software associated with next generation 3D printers.
A bioprinting engineer will have strong engineering skills and STEM knowledge and will work in teams with biologists, medical specialists and software designers. They will have design skills and well-developed communication and interpersonal skills for effective teamwork.
Blockchain talent analysts will work with employers to figure out what kind of person they want for a role and find the right person for the job using talent analytics algorithms.
Blockchain talent analyst
In the future, job recruitment will be managed by blockchain talent analysts who work with blockchain that is, verified and distributed measures of talent and hireability, including cognitive ability - to support recruitment. Data from online and networked behaviour, evidence of previous work and sensor-based data will provide a wealth of information about habits, preferences, skills and interests of potential employees. Blockchain can bring all these together to compile a comprehensive digital dossier about a person's hiring potential.
Similarly, information asymmetries will be reduced and time-consuming tasks such as navigating the internet for jobs, filling in forms and transferring CVs to online templates will become a thing of the past. Instead, with your digital CV verified and cemented into blockchain, it will be available for those hiring, thus enabling employers to find the best employee match more easily. The personal brand manager and content creator will be involved in managing an individual's data set.
The blockchain talent analyst will work with employers to figure out what kind of person they want for a role (doing analysis of the employee's capability and attributes profile using AI tools), and will then use talent analytics algorithms and search bots to find the right person for a job. Interviews will no longer be required as the evidence to make accurate decisions will be collated through the blockchain talent analyst.
The blockchain talent analyst will have high level skills in analysing and interpreting algorithms, and interpersonal skills in communicating with clients and understanding the basis of their needs. They will have advanced understanding of ethical implications of data mining and personal privacy standards.
Chief digital augmentation officers will select the AI technology and other technological solutions (such as robotics and augmentations) for organisations.
Chief digital augmentation officer
The chief digital augmentation officer, a high level strategic role in most corporations, is responsible for choosing the right AI technology and other technological solutions (such as robots) for tasks within the organisation.
They also design work processes where humans and machines can work together to complement each other. They provide employees with the right augmentation options and negotiate training and time to transition to them to full capacity.
In addition, as more humans seek implants and body/brain modifications that increase their capabilities as cyborgs, the chief digital augmentation officer will oversee the different management, working conditions and workplace rights that they will need.
The chief digital augmentation officer will have strong management and strategic skills and can inspire people. They will also understand anatomical and mechanical systems, ensuring that physical capabilities are enhanced responsibly and for maximum productivity.
Chief ethics officers will ensure that companies follow ethical and socially responsible policies and practices.
Chief ethics officer
Chief ethics officers work in large companies and government organisations.
Their role is to ensure that corporate social responsibility is considered in all of the company's activities, and that the company is genuinely ethical in its practices.
The chief ethics officer oversees the company's adherence to zero waste policies, and its energy consumption and production targets. They make sure that the company is being socially inclusive, and its products and services are good for consumers.
It is widely recognised how expensive unethical behaviour can be (such as how much money is lost through not recycling or upcycling waste materials). Companies are committed to being as ethical as they can.
Chief ethics officer will also lead departments of staff and artificial intelligence units that are devoted to virtual ethics - such as making sure that unwanted social biases aren't creeping into algorithms, and that people's data is kept private.
Chief ethics officers keep up to date on the latest in robot and AI ethics. They have strong knowledge of the law, and professional/cultural codes of ethics related to their industry. They possess skills in critical thinking and problem-solving, and also management of information. Chief ethics officers lead teams, so they require people management and corporate leadership skills. They are good negotiators and mediators.
Child assistant bot programmers will design humanoid robots to provide children with education, supervision, and play.
Child assistant bot programmer
Living in a digital age has certain benefits.
One such benefit is that children's games and toys can be programmed for specific purposes.
A child assistant bot programmer designs humanoid robots (kiddobots) that will support children to play safely. These bots can be personalised and programmed to align with family preferences, values and rules. They read nursery rhymes, personalise stories, teach basic numeracy and language skills, develop general knowledge, support the learning of spatial skills, and use coding games to develop digital literacies.
The bots are also used as tools to supervise and manage children's free time, ensuring that they are physically safe and that they are safe in their online explorations too.
Children now only attend childhood education centres with their kiddobot (upgraded to match the centres overall system) to keep them safe, guide their interactions, and provide a platform for their education.
The child assistant bot programmer will have knowledge of AI programming and humanoid robot mechanics. They will also understand early childhood and child development as well as learning theories and practices. The programmers may work in teams with robot designers and program developers to ensure the flexibility in programs to include personalised family personalities and needs as well as to integrate with early childhood centre's systems.
Community farm finance brokers will connect farmers with individuals seeking to invest in their own food production.
Community farm finance broker
Many farms have moved to crowd funded production. As a key part of the wider "sharing economy", this broker of financial support will link farmers with individuals/families prepared to invest in their own food production.
The farmer will continue to manage their farm and produce food, while the financiers will receive either produce or money for their investment.
Typically, the local agroecological vegetable farm, cricket farm or aquaponic fish farm will be mostly owned by local residents and community organisations. The net effect of this is that everyone will be involved and interested in their food production processes, and food security will be strengthened.
The community farm finance broker will be good with numbers but also good at marketing ethical opportunities and motivating people to make community minded choices. They will have a good understanding about agroecological farming practices and about the difficult choices that sometimes need to be made. They will be high-level communicators and convincing in promoting a point of view and in persuasive discussion.
Community support workers will ensure the well-being of people engaging in communal living.
Community support worker
Most people now live in small, close-knit communities within huge, sprawling metropolises.
Each community has at least one or two community support workers, who work with the local community co-ordinator to bring people together and ensure their well-being.
Community support workers work closely with people who need extra social support, such as the recently bereaved, people who are unwell, and people who have just moved into the community. The client gives them permission to monitor the sensors in their home and in their bodies, so that they can provide personalised support when it's needed most.
Community support workers connect people with others in the community, and also connect them with targeted psychological support, healthcare, and social integration services.
Community support workers will be highly empathic people with strong social skills. They will be excellent listeners. They will have educational backgrounds in psychology and/or social work, and depending on their areas of specialisation, may also have postgraduate qualifications in working with older people, migrants, disabled people, or children. Community support workers will be well networked, and have in-depth knowledge of the support services available to their clients.
Cricket farmers will monitor, maintain and breed crickets for healthy, high-protein food production.
People will turn towards more efficient protein sources.
Cricket farming will be an urban agriculture practice that produces large quantities of high-quality protein, micronutrients, calcium, zinc and heme iron (considered superior to plant-based iron).
Crickets consume plant products and produce very little waste making them an efficient energy source.
Vertical systems that require very little space where crickets thrive in optimal conditions will be designed. Robots and intelligent systems will monitor each cricket module, maintaining optimum growing conditions, monitoring inputs and growth rates.
Crickets will be turned into high protein flour for bread products and protein bars or deep fried to produce crispy snacks.
A cricket farmer will use a variety of technologies and have a high level of digital literacy. They will use robots to monitor the crickets, and be able to maintain the machines and programs. They will manage the cricket selective breeding program where they design a range of cricket varieties to match different market needs. They will design and test cricket products to fill an increasing variety of product niches. Cricket farmers will be good collaborators and skilled communicators as they will be a key player in the food production industry.
Cross-cultural capability facilitators will work with people in cross-cultural contexts to facilitate negotiations and projects.
Cross-cultural capability facilitators
In the future, the importance and value of human diversity will be recognised, particularly the understanding that cultural groups have different and equally valid beliefs, needs, preferences, and ways of communicating.
Cross-cultural capability facilitators will be experts who have deep responsiveness towards, and respect for, people from diverse cultures and backgrounds. They will work directly with people in cross-cultural contexts to facilitate negotiations or projects. Many will also work with software programmers, robot designers and augmented/virtual reality experience creators so as to match the experiences they are creating with user needs and expectations, given their cultural backgrounds.
Cross-cultural capability facilitators will have strong knowledge of, and commitment to, principles of diversity and inclusion, international mobility, conflict resolution, and cultural sensitivity. They will likely to have spent significant time within a range of cultures learning their mores and dispositions. They may speak several languages, although real-time digital translation will reduce this requirement somewhat. They will be good listeners, be empathic and diplomatic. Depending on their work specialisation, they may also need to be competent programmers, robot builders, or augmented/virtual reality designers, or at least be comfortable working with people in these roles to build culturally sensitive digital experiences.
Cyborg psychologists will work with people who have synthetic organs, robotic limbs, and body implants, to help them come to terms with living as cyborgs.
A cyborg psychologist will work with people who have synthetic organs, robotic limbs, and body implants, to help them come to terms living as cyborgs.
They will also help clients who are suffering from digital addictions and compulsions, or those who have been having trouble distinguishing between the physical and the virtual world.
Technological advances mean that nearly all people will have some level of technological enhancement. Virtual and augmented reality will be part of everyday life for millions. But some people may struggle with various aspects of their digitally enabled life so cyborg psychologists will be there to help them.
Given the challenges that their clients will be facing, they may use AR and VR-based interventions, or they may prefer to use traditional techniques that involve talking directly with clients, and supporting them in challenging situations.
Cyborg psychologists will need to relate to and empathise with a wide range of people. They will need to have excellent listening and oral communication skills, and the ability to cope with emotionally demanding situations. Cyborg psychologists will have in-depth knowledge of the impact of digital technologies on human psychological health and well-being, and of therapeutic techniques to address these.
Data commodities brokers will sell collected data on behalf of people, communities and corporations, feeding the data into machine learning algorithms.
Data commodities broker
Data is very valuable. In the future it is used to inform every sphere of human activity, including marketing, development of products and services, healthcare, and government services.
Data commodities brokers sell collected data on behalf of people, communities and corporations, that will then be fed into machine learning algorithms for different purposes.
In historical times, people gave away their data for free. The data that was captured through their online behaviour (e.g., web sites that they visited, interactions with other people) was taken and used for sales and marketing of products back to those people.
These days, data is sold to different agencies. People can decide which types of agency their data will be sold to, what it will be used for, and for how much money they are prepared to sell it. For instance, a community area contains environmental sensors that pick up information about its residents, the environment, energy use, and patterns of consumption. The community employs a data commodities broker to negotiate the sale of this data. Data commodities brokers will have a background in sales or commerce, with specific interests in financial and data management. They will have strong maths, logic and problem-solving skills, and have data-based research capabilities to understand the market demand for a particular type of data. They will work with algorithmic software to undertake projections. They will have solid negotiating skills, and an understanding of data law.
Data farmers will create and manage semi-autonomous algorithms that will identify and trace connections between otherwise unrelated sets of data.
Reminiscent of the gold farmers of early online games and the bitcoin miners of the early 21st century, these bulk data analysts called data farmers create and wrangle semi-autonomous algorithms that identify and trace connections between otherwise unrelated sets of data.
Part accountant, part detective, part service worker, data farmers "milk" their algorithms regularly to extract meaningful extrapolations from stochastic data comparisons. They then pass what they've learned on to businesses, community co-ordinators, and government agencies to predict trends that can be used for new products and services, regulation of commerce, and community/environmental strategies.
Data farmers will have good programming and algorithmic design skills. They will be creative and have cognitive flexibility to combine or group data in different ways, and to identify the connections between them. They will be good problem-solvers and have excellent analytical skills. Many data farmers working in industry will need to be quite entrepreneurial, as they will often be freelance, or employed by small to medium enterprises. They will need to pitch to businesses and sell the meaningful connections and predictions that they've identified.
Data privacy strategists will be responsible for designing solutions to protect people's data.
Data privacy strategist
A data privacy strategist will be responsible for designing solutions to protect people's data.
In the future, data privacy will be harder than ever to safeguard, because everyone will always be plugged into networks through the digital implants in their bodies that ensure their health and enhance their lifestyles.
Hacking will be a major problem, personal data can be taken hostage for ransom, and identity theft can have serious repercussions.
Data privacy strategists set up systems and software to reduce the risk of hacking. If a system is hacked, they may work to repair it, recover data, and minimise the impact on people's lives.
Data privacy strategists have strong analytical skills, and will be detail-oriented. They have high levels of digital literacy, and knowledge of the latest trends in cybersecurity. They have coding skills, and understand systems architecture, firewalls, networking and operating systems.
Data storage solutions designers will draw on a variety of innovative and fast changing data storage systems to create purpose built solutions for clients.
Data storage solutions designer
As digital systems become more complex and pervasive, huge demands are made on data storage.
Such technologies as Augmented (AR) and Virtual Reality (VR), Artificial Intelligence (AI), and sensor technologies, have huge data storage demands, not only in terms of capacity but in robustness and durability.
Data storage solutions designers will draw on a variety of innovative and fast changing data storage systems to create purpose built solutions for clients. For instance, one solution involves DNA storage. DNA is smaller than even a microchip, and can reach a density of 215 Petabytes of storage per gram. Just four grams of DNA can contain a year's worth of information produced by all of humanity combined. DNA is durable, and lasts for over 100 years. Other possible solutions include nanoparticles, in soft matter to make a liquid storage device, or holographic versatile discs.
The data storage solutions designer will have high level digital engineering skills, able to select and creatively suggest the modification and application of existing technologies to specific storage problems. They will need to understand the nature and requirements of a variety of data forms and storage requirements. They will often work in transdisciplinary teams to develop viable solutions, implying strong collaborative and communication skills.
Data waste recyclers will receive data recommended for deletion from companies, communities and individuals, and review it to see if it can be recycled for other purposes.
Data waste recycler
As part of routine data management processes, or an intervention led by a virtual clutter organiser, data may be recommended for deletion. In a world where data is extremely valuable and is used to inform everything from the marketing of products and services to healthcare and determining how much food to produce, erasure is a serious matter.
Data waste recyclers receive data that are recommended for deletion from companies, communities and individuals. They assess the data for usefulness. Depending on what they find, they may recommend selling the data using a data broker, archiving it, discarding it, or returning it to service, with or without cleaning and further refinement.
Data waste recyclers are an important part of the data health of the world in which we now live.
Data waste recyclers will have exceptional attention to detail. They will be good at analysing and interrogating data sets for usefulness and dangerous features (such as bugs, corruption or anomalies). They will know what data can be used for, and what types of data are most in demand by different types of users. They will be familiar with the latest in data management and archiving techniques.
Data-based medical diagnosticians will specialise in making sense of data in order to make medical diagnoses in complex cases or where the patient has mysterious symptoms.
Data-based medical diagnostician
The data-based medical diagnostician will specialise in making sense of data in order to make medical diagnoses in complex cases or where the patient has mysterious symptoms.
The diagnostician will draw together large amounts of data from many different sources, including the patient's health tracking implants, environmental monitoring devices, tests that have been run by doctors, genetic profiles, and the life history data for the patient.
They will also have access to billions of documents and diagnostic databases containing information about diseases.
They will be assisted by AI algorithms, which can scan and analyse data quickly, and identify anomalies, but the diagnostician will be responsible for piecing together the relevant information and identifying what is wrong with the patient and how to treat it.
Once a diagnosis is made, the diagnostician will relay it to other members of the medical team, with recommendations about the right therapeutic approaches to take.
The data-based medical diagnostician will be highly creative and also have advanced data analysis skills They will have significant medical knowledge and excellent pattern recognition capabilities. They will be able to think and act quickly, and will use AI tools to find solutions. They may not need patient caregiving or treatment skills, as this can be undertaken by others once the diagnosis is made.
Decision support workers will help people make data-informed decisions to ensure that their life runs smoothly.
Decision support worker
The average person makes 33,500 decisions every day. About 230 of these are just about food! In the future, people will all have virtual assistants that use recommender systems (based on machine learning algorithms) to help them make decisions. If the person has been working with a personal brand and content manager, a health shaper, a psychologist or a personal nutrition specialist, they may well make changes to the recommender system's algorithms to help the person make better decisions. However, sometimes automated decision support systems go wrong, or aren't able to help with decisions because there isn't enough of the right data available. Sometimes, people need to make very big decisions with significant potential repercussions, and prefer to work with a human to make sure the choice they are making is the appropriate one. Decision support workers will listen to the needs of their clients, pull together additional helpful data that the client may not have access to, and make sense of it all to help with decision- making (with the help of algorithmic tools). They will counsel and support people to make decisions, and also to put risk management strategies in place.
Decision support workers will like working with people, and have strong interpersonal skills. They will have knowledge of how recommender systems work, and how AI systems use data to make decision recommendations. They will also be able to tweak and fix automated recommender systems. Decision support workers will be aware of the data sets that are publicly available to help with decisions, and which data sets can be bought by people to help them make decisions of different types. They will know about risk associated with decisions, and risk management approaches. Decision support workers will have excellent data analysis skills.
De-extinction geneticists will restore extinct animal and plant species, in order to rebalance ecosystems, improve agriculture, and create designer pets.
During the early Anthropocene (the geological period during which human activity started to be the dominant influence on climate and the environment, before ecology restoration began), many species of animals and plants became extinct.
About 40% of bird species, 30% of amphibians, and 55% of insect species disappeared during this time.
Thankfully, governments realised the importance of healthy environments, and ecology restoration became a priority activity globally.
Most de-extinction and conservation geneticists work with ecology restoration workers to rebalance ecosystems. Some work in agriculture. However, some de-extinction and conservation geneticists work in novelty areas, bringing dinosaurs, aurochs, Tasmanian tigers and woolly mammoths back to life for wealthy people who want to own them as pets. This is a controversial area of de-extinction genetics, as reintroduction of extinct animals and plants can lead to harm to modern species, and cause imbalance in ecosystems.
De-extinction and conservation geneticists will have strong analytical, critical thinking, and problem solving skills. They will be good at maths and research, and have advanced qualifications in life sciences, genetics and the species they specialise in.
Digital apiarists will build, maintain, and collect data on bee hives, supporting agriculture and plant life in general.
While technological options for plant pollination have been developed, keeping live bees is still the best way to ensure that food crops and other plants are healthy and keep reproducing.
Historically, bees nearly died out because of climate change, reduced diversity of plants, pesticides, parasites, and diseases.
Now bees are thriving, in part because of digital apiarists.
Digital apiarists work on smart farms in urban regions, and also in wilderness areas. They are experts in hive and bee health, pollination processes, hive design, and appropriate selection of bee colonies for the plant profile in different areas.
Digital apiarists do visit hives in person, but they also use digital sensors on bees, inside hives, on plants, and in the air and soil to monitor what is happening to hives. They rely on AI and big data algorithms to help them make sense of the data that is generated. Through the use of remote delivery systems, they can make adjustments to the temperature and humidity, the availability of water, and deliver medicine to the bees if needed.
Digital apiarists often work with smart farmers and ecology restoration workers.
Digital apiarists will love nature and working with plants and animals. They will have strong knowledge of insect biology, pollination processes, and plant diversity. They will have good analytical skills, and be able to use digital tools for monitoring, analysis, and interventions. They will need to work with others. Depending on hive locations, some travel may be required for this role.
Digital implant designers will create body hacks that will be implanted into people's bodies and brains to ensure their health and enhance their lifestyles.
Digital implant designer
A digital implant designer creates "body hacks" that will be implanted into people's bodies and brains to ensure their health and enhance their lifestyles. Implants may include:
1. integrated health and fitness trackers that monitor everything from fitness activity to blood nutrient levels to gut flora
2. devices that help to manage health conditions by regulating or replacing body systems
3. global positioning systems
4. devices to augment the senses (e.g., extending the range of vision, improving hearing, eye cameras)
5. devices to manage real-time digital interaction with people and bots (artificial intelligence) and provide real- time information feeds from the internet
Digital implant designers need to be creative and have knowledge of design processes. They will have technical skills relating to implant technologies and digital systems integration, along with knowledge of human biology and medical advances. Communication skills will be needed to work with clients, healthcare professionals, scientific researchers, systems engineers, and medical scientists.
Digital memorialists and archivists will work with a deceased person's surviving family members and loved ones to determine which parts of their digital identity should live on publicly, which should be retained by the family, and which should be archived.
Digital memorialists and archivists
People leave behind many yobibytes of data when they die. Collecting, managing, curating and archiving this data is an important job.
Digital memorialists and archivists work with surviving family members and loved ones to determine which parts of a person's digital identity should live on publicly, which should be retained by the family, and which should be archived.
They may work with someone approaching the end of their lives to record their data preservation wishes, so as to enact those wishes afterwards. A large part of a digital memorialists and archivists job will be to craft a respectful portrait of someone that can live on after they have died, while also retrieving data that might be useful for other purposes. They will work with digital archiving artificial intelligence tools to process, sort and store digital data.
Digital memorialists and archivists have excellent listening and communication skills. They will be sensitive and empathic people, and able to generate compassionate impressions of others through creativity. They will be excellent digital researchers and analysts, and will have digital literacies to work with artificial intelligence and data presentation tools.
DigiTech troubleshooters will work with households and businesses to solve problems with digital technologies that aren't easily fixable using at-home troubleshooting algorithms.
If your home network won't read the data from your bio-implants, your augmented reality game is glitching, or your household robot is stuck in a loop cleaning the same part of the kitchen, then you can contact your local DigiTech troubleshooter for help.
DigiTech troubleshooters work with households and businesses to solve problems with digital technologies that aren't easily fixable using at-home troubleshooting algorithms. These used to be known as IT helpdesk roles, but now most of the simple problems with technology can be solved using bots and AI.
The digiTech troubleshooter is there for more advanced issues, to diagnose what is happening and make sure that you are reconnected as soon as possible.
DigiTech troubleshooters will have good listening skills so that they can interact with clients and diagnose problems with technology. They will be familiar with the commonly used household or business digital technologies for networking, systems integration, implants, augmented reality, and robots. They will have good software use and basic programming skills, and will also be able to perform hardware fixes. They will need to be patient and methodical, and be good problem-solvers.
This will be a high growth role, with strong and increasing demand for DigiTech troubleshooters in local communities as well as business.
Displaced persons re-integrators will support people who have been displaced from their previous communities to find or create new communities and settle into their new lives.
Displaced persons re-integrator
At one point in the early 21st century there were tens of millions of displaced people in the world, due to war and persecution, and the effects of climate change causing sea level rise.
Increasingly, displacement occurs as people move to seek new jobs in a world of work that is changing as a result of the rise of artificial intelligence and other advanced technologies.
Supporting people who have moved from their previous communities, helping them to find or create new communities, and settling them in to their new lives, will be an important job role.
Displaced persons re-integrators will work for government, aid organisations, and local communities, as part of the suite of social services offered to all people.
If a family finds that they need to move away from where they are living, a displaced persons re-integrator will help them find and move to a new community, facilitate their entry into new jobs and schools, and help with retraining. They will work with local community co-ordinators and social support workers to help the family find new friends, and connect with local people from the same cultural backgrounds.
Displaced persons re-integrators have qualifications in international development, social work, or community studies. They are socially and culturally aware, and are comfortable with listening to, and providing support to people who are distressed. They have good networking skills, and will regularly liaise with global, national and local government agencies, schools, businesses, community and cultural organisations to help them re-integrate their clients.
Drone airspace regulators will develop road rules for the sky, ensuring drones can be operated safely and efficiently.
Drone airspace regulator
Drone airspace regulators will develop road rules for the sky.
At any given time in urban spaces, there are thousands of drones flying about overhead. Some drones are used for surveillance and keeping an eye on the environment, others courier items from place to place, and a third type films images and video for use in marketing and advertising. Swarm artists use yet another type of drone to create spectacular art displays, and there are also recreational drones, which allow people to experience flight while they are piloting from the ground.
Without airspace control regulations, including specified airlanes, drones would bump into one another, fly into unsafe spaces, and collide with buildings constantly. All drones must have collision-avoidance technology enhancements, and must fly in the prescribed areas. For instance, pizza delivery drones must not fly in the spaces reserved for emergency services drones, and they must stay several metres clear of buildings at all times.
A drone airspace regulator will provide advice, guidance, and direction on airspace issues relating to drones inside and outside controlled airspace. They will develop and implement strategies and policies for the safe and efficient operation of drone airspace in accordance with global, national, and community legislation.
Drone airspace regulator will have comprehensive knowledge of the regulatory role, strategic plan and responsibilities of the drone airspace regulation agency. They will have technical knowledge of air control issues, and strong written and oral interpersonal skills. They will be able to work with digital tools that monitor drone behaviour and technology updates, and make recommendations about changes to policy.
Drone experience designers will work with drone fleet controllers to optimise people's interactions with drones.
Drone experience designer
Drones will perform increasingly varied roles, such as delivery, emergency care, surveillance, mapping, entertainment, and videography to name just a few.
The drone experience designer will work with drone fleet controllers and with their customers to optimise people's interactions with drones. Drones will have the capacity to provide accurate and immediate service to customers.
The drone experience designer will help the use of drones and user interaction to be engaging and efficient. In some ways, the drone experience designer will be like a drone customer service coach.
The drone experience designer will understand drone technology and the software systems involved in designing flight paths and delivery logistics. Like all public relations personnel, they will have high-level communication skills needed to ensure client's needs are understood and met, while their expectations are managed. They will have a good understanding of safety and privacy concerns, strong people skills, including empathy, and be capable of designing innovative solutions to improve drone interaction with the public.
Early childhood teachers will support young children to learn and discover their potential.
Early childhood teacher
With a growing population, demand is high for early childhood education.
The early childhood teacher and the local community coordinator work together to offer locally relevant curriculum.
Early childhood teachers will do much of what they did in the early 21st century, but with an emphasis on engaging children in meaningful interactions and learning about localised ideas and issues. Important values will be encouraged: community and social engagement; environmental sustainability; intercultural competence; healthy behaviour, and digital technology literacies.
In the same way as now, the role of the early childhood teacher will be to support young children to learn and discover their potential.
Robots will do much of the basic care and ensure child safety (using sensors to physically and psychologically monitor the children). The data from the sensors will be read by the early childhood teachers and used in curriculum design decision making with a focus on the individual child.
Early childhood teachers will be empathetic with high level communication skills. They will be digitally literate and use data to make curriculum decisions. They have disciplinary skills in education, and knowledge of child development. They will collaborate well, especially at the local level.
Energy and data systems installers will create intelligent home and office environments that are customised to optimise their energy use while continually learning and adapting to user behaviour.
Energy and data systems installer
An energy and data systems installer will evolve from an electrician. The technical skills and knowledge base of the electrician will remain fundamental to this new role but the focus of the work will be integrating smart technology systems to streamline and optimise energy use.
Energy and data systems snstallers will create intelligent home and office environments that are customised to optimise their energy use while continually learning and adapting to user behaviour. They will be able to install data capture devices and support clients to monitor and manage their energy consumption efficiently.
There may also be opportunities to specialise in local renewable energy solutions, such as wind, solar and bio energy, working with clients to design systems that deliver self- sufficient energy usage while brokering renewable energy surplus within the broader energy network.
Energy and data systems installers will have a niche skill set that is very practical, enjoy working with their hands, and work to technical specifications and safety regulations. They will be problem solvers with highly developed communication skills to understand the unique energy needs of their clients and use new technologies to design safe and efficient systems to optimise energy performance.
Entomicrobiotech cleaners will use bacteria and insects to clean up pollution and waste.
Entomicrobiotech cleaners will use bacteria and insects to clean up pollution and waste.
At one stage in history, there were 9 billion tonnes of plastics in the world, most of which ended up in the ocean or in landfill. Depending on the type of plastic, it can take 1,000 years for a plastic bag to break down, while plastic bottles take 450 years or more. More than 10,000 oil spills of crude or refined petroleum products occurred, killing countless birds and sea animals.
During the clean-up, scientists discovered that certain types of bacteria and insects love to consume petrochemicals. For instance, wax worms (Galleria mellonella) find polythene delicious, and can break down a plastic bag in a few hours. Bacteria called oiloceanspirallales consume crude and refined oil in the ocean.
In the future, entomicrobiotech cleaners will farm these bacteria and insects, and deploy them in environmental clean up efforts.
There will be long-term programs to clean up very old plastic and oil from many decades ago, it will take a long time to eat 9 billion tonnes of plastic! There will always be demand for entomicrobiotech cleaners and their cleaning crews.
Entomicrobiotech cleaners will have strong knowledge of the biology of insects and bacteria, and how to keep them healthy. They will use environmental sensors and analytical algorithms to let them know the waste profile of the area they will be working in, so that they can deploy the right bacteria and insects to clean up, and in the right order. Travel will be required for this job role. Entomicrobiotech cleaners will have strong stomachs. They aren't worried by bugs or gooey substances (agar or liquid nutrient used for bacteria growth).
Ethical hackers will identify weaknesses in cybersecurity systems to find and fix potential security risks and fight off attackers.
Also known as "white hats", ethical hackers identify weaknesses in cybersecurity systems.
In a world where everyone is constantly digitally connected, and data is collected about everything, hacking will become a major problem. Personal data may be taken hostage for ransom, and identity theft will have serious repercussions.
Ethical hackers will get into the minds of cyber-criminals and look for security vulnerabilities. They will use the same tools as criminal hackers to probe systems for weaknesses, including social engineering, water-holing (monitoring social media of employees), algorithmic analysis, botnet armies, and automated attacks.
Ethical hackers will work for big companies, government agencies, and cybersecurity firms. They will find and fix potential problems, patch security risks, and fight off attackers.
Ethical hackers will be puzzle-solvers. They will have highly developed analytical skills, and enjoy finding and solving problems. They will be data-driven and detail-oriented. Ethical hackers will often work in teams, and so will need high levels of interpersonal capability. They will also be excellent programmers and have a strong knowledge of cybersecurity issues and trends.
Farm safety advisors will reduce farm accidents and injuries.
Farm safety advisor
Until fairly recently, farm accidents accounted for about one in five work-related fatalities.
In the future, a combination of human interventions and digital technologies will ensure that workplace accidents on farms are very rare.
Farm safety advisors will visit farms in a district or community to inspect and advise farmers on risk identification, management and planning.
Farm safety advisors will be informed of potential risks through software that uses a combination of big data and accident histories, and sensor technology that informs of existing or emerging hazards in the environment.
Farm safety advisors will ensure that autonomous vehicles and ag robots have the latest safety software installed, and that bodies of water such as dams are fenced off electronically from access by small children. They will develop safety plans for farmers and provide advice on the latest in safety practices and technologies.
Farm safety advisors will be familiar with farming practices and processes. They will have an eye for detail, and keen judgement. Awareness of farm hazards and their likelihood is important, as is the ability to use digital tools to assess risks. Farm safety advisors will have excellent knowledge of the latest in safety products and technologies, and will be able to communicate these options to farmers.
Flood control engineers will work with multiple flood management systems in a world where global sea levels have risen and extreme weather is commonplace.
Flood control engineer
Climate change has resulted in a substantial global rise in mean sea level. Localised extreme storm events often produce excessive rain and cause flooding, so all water management strategies need to cope with large variations in water volume. Smart cities have been redesigned, transport options have been re-negotiated and even rainwater management for individual homes have been reconsidered. Living shorelines made of mangroves, marshes, wetlands, oyster beds, and coral reefs have been re-established to protect the coastlines. Technologies that use AI sensors and environmental monitoring manage movable flood barriers when needed. These may channel water or dissipate wave energy, mitigating the effects of the flood.
Green infrastructure, such as rain gardens and green roofs, are used to channel rainwater into natural designs that absorb rainwater and stormwater. Smart cities increase their ability to handle large volumes of water but developing community-based rain gardens, bioretention gardens, and bioswales (sloped landscape features that channel water into vegetation-filled ditches).
In such a future, the flood control engineer will liaise with the regional and local community growth co-ordinators to ensure localised knowledge about these systems, so that they will be managed well when needed.
The flood control engineer will be in high demand as their skills in hydrology and water flow management use cutting edge technologies matched with integrated ecological understandings. They will be communication networking experts as well as leaders in their field to ensure that the communities can manage the systems in times of flood.
Food knowledge communicators will help people to change their relationship with food, making it healthier and more ethical.
Food knowledge communicator
You feel like a snack and are about to purchase some locally produced organic crispy crickets!
Food knowledge communicators help us to change our relationship with food to make it healthier and more ethical.
A food knowledge communicator designs communication campaigns to enable us to source real-time information about food products.
Augmented Reality (AR) is used to present the details about the production of each food item, and its nutritional values, which can be used as part of a personalised nutrition plan developed by a health shaper or a nutri-gutome specialist. The AR information enables greater connectivity to our food, and supports healthy eating behaviour.
The food knowledge communicator will understand people, and will be able to market new opportunities so that the health and ecological benefits are highlighted and they are convincing. They will be invested in issues of food and agroecology and health, as well as global trade and food ethics. They will be dynamic individuals with passion for their work.
Forensic data analysts will dig into data produced in and around a crime scene, and follow data trails to understand what happened in a crime.
Forensic data analyst
Forensic data analysts can work in the police service, in private enterprise security firms, and as freelance consultants.
Forensic data analysts dig into data produced in and around a crime scene, and follow data trails left by people, to understand what happened in a crime. Assisted by machine learning-based algorithmic tools, they sift through data to uncover evidence of illegal activities and cybercrime, including credit and cyber-currency fraud and hacking.
Some forensic data analysts are involved in e-discovery, which involves gathering data and evidence electronically (including data collected from behavioural sensors and online communications) to prosecute or exonerate people who have been accused of crimes.
One specialist type of forensic data analyst uses microbiome data (bacteria and other microorganisms that live on and around people's bodies) collected at the crime scene to identify and track individuals based on the unique and molecular signatures of their microbiota.
Forensic data analysts are highly analytical, systematic thinkers who have a deep understanding of the various data trails left by people that can be useful in crime fighting. Trained in police work, they also know how to use artificial intelligence tools to mine data for evidence that could be useful. They often work in teams of cybercrime police, legal professionals, and AI forensics programmers, so they need good teamwork skills.
Freelance virtual organisers will help to manage a person's virtual clutter and data.
Freelance virtual clutter organiser
In the early 21st century, people living in advanced nations often owned so many physical belongings that cluttered their environment and led to stress.
In the future age of waste reclamation and upcycling, people will no longer live with clutter in the physical world. However, they will have a lot of virtual clutter. This is because of all the data that they create, access, use and store. Not only will people have numerous online user accounts, they also generate data from their body and household sensors. Everyone consumes a lot of media, including augmented and virtual reality and multisensory experiences.
This is where a freelance virtual clutter organiser will help. Every household will have a data management system, but sometimes things can get overwhelming and it can help to have a person intervene to remove excess data and organise the rest. Virtual clutter organisers use data management software and artificial intelligence to make their jobs easier, but much of their role can't be done automatically. They will start by asking the client about what isn't working in the household data management system, where there is too much data, or where data could be organised better. They will then perform diagnostic tests, and implement data management solutions, which may include updating software, adding new servers or data storage, rearranging how data is organised and retrieved, and educating clients about data management strategies.
Freelance virtual clutter organisers will be highly organised. They will be good at problem solving, and use software to identify problems and come up with solutions. They have good interpersonal skills to work with clients. As freelancers, they will be entrepreneurial and they will be good at marketing their services to new clients.
Fusionists will use design approaches to bring together professionals from art, engineering, research, science, and other disciplines to create innovative ideas, experiences, and solutions to complex problems.
Fusionists will use design approaches to bring together professionals from art, engineering, research, science, and other disciplines to create innovative ideas, experiences, and solutions to complex problems.
Fusionists will be employed across many industries, where they will act as bridges between people with specialist disciplinary knowledge. For instance, a fusionist could be part of a team responsible for designing a new kind of attractive smart fabric for clothing that changes its properties depending on the weather conditions. Other team members may include a materials engineer, a fashion designer, an artist, and a digital sensor designer.
A fusionist will blend knowledge and skills of different team members to create an overall approach to the design of the fabric, and translate and coordinate the specific tasks required to complete the design.
Fusionists will be excellent communicators, with exceptional listening, written and oral communication skills. They will be able to understand technical concepts from different disciplinary areas and be up-to-date with the latest technology and research developments in their areas of interest. Fusionists will be experts in design and solution development. They will also have well-developed organisational and project management skills.
Gamification designers will enhance user engagement of such things as nutrition, education, and exercise, by developing games.
Gamification is the process of adding game logic and processes to enhance user engagement to achieve better outcomes.
Gamification can be used in a range of domains from education to healthcare to improve learning outcomes or enrich lives.
With connected digital devices underpinning social and economic networks, this technological ecosystem will increase the depth and breadth of gamification opportunities. Gaming will become a pervasive part of our lives with organisations using gamification to incentivise behaviours and increase engagement. For example, public health organisations could offer reward points towards a holiday for buying healthy groceries online or increasing physical activity.
As the use of gamification grows, games will connect with each other and blend with the real world forming a mesh of interdependent activities that blur lines of separation. Interconnected and integrated gaming experiences will fundamentally change human behaviour.
Gamification designers will design games for a rich variety of domains.
They will have a mix of skills and domain expertise. They will have a high level of technology literacy and expertise in psychology and user experience.
They may specialise in a particular domain such as primary education, public health or aged care.
Genetics coaches will help people understand their genetic profiles and the impact of genes on their health and wellness.
Genetics coaches will work either individually or in coordination with genetic engineers and health care teams to provide information and support to people about their genetic profiles.
Technological innovations and continued developments in genomics will open up a whole new field in genetic healthcare, which will also extend into genetic hyper- performance and hyper-aesthetics.
Genetic coaches will explain to clients what their genetic analysis results mean, and the implications for their lifelong health and wellness. They will help clients make decisions about whether or not to correct genetic problems through precision genome editing. They will also provide advice about genome tweaking for aesthetic or athletic performance, although there will be tight ethical and genetic diversity regulations monitoring in this area of their work.
Genetics coaches will need strong interpersonal skills, and the ability to translate complex analyses into information that people can understand. They will need knowledge of genetics and the processes of genetic engineering and genome editing, and the ability to interpret results of these procedures. Genetics coaches who work in teams will need to be able to collaborate with engineers and healthcare workers. They will also need training in advanced human bioethics.
Haptic technology designers will create realistic touch control, touch sensing, and motion tracking to virtual and augmented reality.
Haptic technology designer
Haptic technology applies kinaesthetic or tactile feedback to bring realistic touch control, touch sensing, and precise motion tracking to virtual and augmented reality experiences.
The haptic technology designer uses algorithms to manipulate ultrasound waves.
These waves are condensed into invisible buttons or hotspots that we cannot see, but can feel. The waves can then be arranged in a way that makes multiple invisible buttons distinguishable to the touch. Haptic feedback can be added to holographic projections so that a loved one can deliver a virtual hug while enjoying a virtual conversation. Similarly, clothes in an online store can be trialled and tried on to ensure fit and feel are as desired.
Designers apply haptic technology to holographic, virtual and augmented reality experiences in a variety of fields such as: entertainment, communication, business, medicine, and education.
Haptic technology designers will explore opportunities to apply haptic technologies in innovative ways. They will have electronic engineering skills. They will have high-level skills in creativity and communication as they design applications with haptic technology.
Health shapers will work with clients to build health solutions customised to their lives and needs.
Health shapers work with clients to build health solutions customised to their lives and needs.
To do this, they use technology that genetically profiles their clients, incorporating previous health data, making use of environmental monitoring, and integrating constant behavioural tracking.
The health shaper prevents many illnesses through crafting comprehensive individualised health solutions, with the aim of reducing illness in the community, especially given an ageing population.
Assisted by machine learning and big data mining tools, the health shaper identifies and develops bespoke wellness solutions for their clients. Nutrition, exercise, and therapeutic interventions are planned based on data analysis and interpretation. Predictive physiotherapy is also used as a strategy used to bring alignment in their client's skeletal- muscular systems.
A health shaper sees the human body as a complex integrated system. They listen to their client's needs and communicate clearly so as to ensure the health care solutions they provide are understood and can be followed precisely. They have high level technology skills that allow them to gather and collate diverse data sets focused on all aspects of their client's health and interpret results to provide advice and develop optimal health and wellness solutions.
Human habitat designers will develop and design land and built environments to create effective living and working arrangements in large settlements.
Human habitat designer
Human habitat designers develop and design land use and the built environment, including air, water, and the infrastructure of urban areas, such as transportation, communications, and distribution networks.
The number of people living in cities keeps increasing. As a result, human habitat designers have been designing smart cities with taller buildings, elevated transportation, vertical farming, and vertiports (aircraft and space shuttle ports with vertical runways).
They use regenerative theory, circular economy practices, and net positive design principles to build effective mass living and working arrangements. While millions of people live in these enormous vertical settlements, human habitat designers also focus on building local communities that enhance health and wellbeing. All buildings are constructed with environmental sustainability and ecosystem balance in mind, and are maintained in this way as well.
Human habitat designers rely on thousands of environmental sensors distributed through cities, the data from which are analysed using advanced algorithms to inform the design and maintenance processes.
Human habitat designers evolved from the urban planning profession. They have knowledge of planning theory, and may have an educational background in architecture, economics, environmental management or science, geography or sociology. They will be interested in social, economic, environmental, and cultural issues, and their intersection. They have good written and oral communication skills, attention to detail, and analytical and problem-solving skills. Their visuo-spatial skills are excellent, as are their digital literacies and ability to make sense of big data using algorithmic techniques.
Innovation managers will seek out new methods and technologies to support innovative thinking environments in organisations.
An innovation manager will work as an independent consultant or within an organisation to create an environment that fosters innovation.
They will develop strategies and processes that bring together a mix of experts, lead brainstorming sessions, encourage collaboration and sharing of ideas to design and develop innovative solutions.
The innovation manager will seek out new methodologies and technologies to maintain a fertile environment for innovative thinking to flourish and be realised. They will think "big picture", considering the cycle of innovation from inception to marketplace, and play a role in readying the market for new products and services. Innovation managers will be highly creative and future orientated, seeing the world through the lens of curiosity as they detect new developments and early trends. They will have significant knowledge of organisational development, drawing on analytical skills to create enabling structures and processes. They also have the leadership qualities and influencing skills to support people through organizational change.
Integrated ecology restoration workers will undo environmental damage and restore the natural environment to a healthy state.
Integrated ecology restoration worker
Integrated ecology restoration workers, also known as "rewilders", are employed by the government to undo environmental damage and restore the natural environment to a healthy state.
Over a fairly short period of time during the late industrial age, significant damage was done to the environment through industrialisation including by pesticides, plastics pollution, and single crop farming.
Integrated ecology restoration workers restore healthy habitats for flora and fauna, repair wilderness areas, and rebalance ecosystems through direct interventions. Where a species has become extinct, they may work with de-extinction geneticists to revive it through cloning or genome editing, with the overall aim of restoring genetic diversity.
Integrated ecology restoration workers have advanced skills in ecological science. They have practical and theoretical knowledge of interactions between organisms and their environments, including climate, geology, and other animals and plants.
Integrated ecology restoration workers will be very practical people who enjoy working with plants and animals. They need research skills to find out how natural environments used to be before they were damaged.
Integrated energy systems strategists will design urban energy systems that are efficient, sustainable and safe.
Integrated energy systems strategist
Employed at city or regional level, the integrated energy systems strategist works with the regional and local community growth co-ordinators, energy and data systems installers, human habitat designers and sustainable energy solution engineers to design urban energy systems that are efficient, sustainable and safe.
They bring deep knowledge of people's energy needs in the local area together with the environmental affordances of the local area to design a high-level plan for energy systems across the regions. Working with the sustainable energy solution engineers the resources of an area will be considered in energy generation (such as the wind, sun, wave, water access). They may order retrofit programs for existing energy systems to upgrade to renewables to bring all localised systems up to required standard.
The integrated energy systems strategist will have a high-level role in determining how energy systems are integrated and managed. They will be leaders with skills in managing people and complex ideas and systems. They will be policy enforcers and politically savvy.
Integrated home technology brokers will work with households to design home support solutions that include household robots, data management and privacy, body implants for family members, and home controls.
Integrated home technology brokers
Integrated home technology brokers will work with households to design home support solutions that include household robots, data management and privacy, body implants for family members, and home controls.
People will own smart houses, which provide comforts and adjustments depending on the needs of individual family members.
Body implants will monitor physical needs.
Robots of different kinds will provide home maintenance and domestic support.
Integrated home technology brokers observe the family at home, and talk with them to identify their home technology needs. They then design the right kinds of home technology packages to meet those needs, and help support families to understand, adjust to, and interact with, their new home solutions.
Integrated home technology brokers will have up-to-the-minute knowledge of the latest home technologies, including body implants, smart home devices, domestic robots, and data management and privacy solutions.
They have skills in digital systems integration, and user interface/user experience design. They need strong interpersonal and analytical skills, to observe households and identify their technology support needs.
Lifelong education advisors will help people develop their careers and stay up to date with training and technology advances.
Lifelong education advisor
Increasingly, people will have multiple careers over their lifetime.
Even if they stay within one career path, with the constant introduction of new technological solutions and changing social realities, the need for constant updating of skills and retraining will become a feature of a life's work.
With this, education and training pathways will become more complex, with a diversity in providers, especially those focused on short term targeted credentialing.
Lifelong education advisor will help clients with the best stackable and transferable micro-credentials that have industry currency, while providing individuals and groups advice on emerging career paths, and how to stay abreast of advances in technology.
A lifelong education advisor will also help with the curation of informal learning opportunities.
A lifelong education advisor will have the skills to keep abreast of social and technological movements and movements in industry credentialing, and will need strong human skills to be able to ascertain their client's skills, interests and dispositions, and the ability to communicate possibilities effectively. They will need a combination of technology and human skills to be able to match people with the possible applications of the latest software advances, and industrial/commercial innovations.
Local community co-ordinators will organise activities to help communities and residents come together and thrive.
Local community co-ordinator
Local community co-ordinators (Lococos) will be there to bring small communities/neighbourhoods together, and co-ordinate activities that help the community and its residents thrive.
There will be widespread understanding that if people live in strong local communities, then they will be healthier and happier.
Technological advances in at-home solar and wind power, corner shop 3D printing, and urban farming will strengthened the localisation movement.
The local community co-ordinator facilitates all of these functions, and will help to find solutions to local problems. They will be responsible for bringing people together to socialise and to pursue shared interests and hobbies, fostering intercultural and intergenerational understanding, and building happiness at a local level.
Local community co-ordinators will know everyone in the community, and are there to help people who are having a tough time by drawing them in to the support networks of the community.
Local community co-ordinators will be extremely social people, with high levels of empathy. They have backgrounds in social work or community cultural development, and have skills in negotiation. They will be familiar with the latest trends in community building, local energy and waste practices, and procurement.
Machine-learning developers will work with artificial intelligence to create and refine computer systems that learn new processes without human intervention.
Machine learning (ML) is a type of artificial intelligence (AI) that enables computer systems to learn from data to modify and improve an algorithm without needing human intervention to update or rebuild the model.
ML automates the process of modifying a mathematical model as new patterns emerge in data as the system it is analysing evolves and changes over time.
This form of AI gives an analytical computer model the ability to self-learn, adapt and respond in real-time so it is continually optimising its performance.
In a world where personalisation and responsiveness are highly valued, machine- learning developers will be highly sought after across all industries.
Machine-learning developers will be computer scientists with expertise in software engineering and data science. In addition to having these highly specialised technical skills, machine-learning developers need to be creative, have a deep understanding of the problem domain their models are analysing, appreciate the legal and ethical requirements with regard to data privacy and guard against the system developing illegal, unethical, or antisocial traits.
Massive 3D printed building designers will design and build large structures using 3D printing technology.
Massive 3D printed building designer
Large scale 3D printers efficiently and effectively construct houses in two days and high-rise buildings in four weeks by working around the clock.
While technicians are employed to maintain 3D printers the key to the success of this practice is the massive 3D printed building designer.
Carefully planning the construction and designing the print from the bottom up, requires skills in engineering design, visual creativity and digital dexterity. The materials for construction are recovered from waste or recycled from the demolition of previous constructions and will be designed to harden quickly, generating solid, reliable structures.
New technologies are used to ensure these quickly constructed buildings provide insulation, water collection, small scale food production, and waste management. The massive 3D printed building designer works alongside smart city designers, landscape architects, energy and data systems installers, construction engineers, and 3D printer handlers.
Massive 3D printed building designers will have a well-developed understanding of materials science to ensure that the recycled products perform to high standards. They will also have a strong sense of aesthetics to ensure they are architecturally creative and curious in their use of their high level visual- spatial skills. The designers will adapt client's ideas into practical reality demonstrating their high-level communication skills. Massive 3D printed building designers will be able to transfer theoretical knowledge to practical application.
Mechatronic engineers will build and optimise robots.
Mechatronics engineers will build and optimise robots.
With skill sets that integrate knowledge from mechanics, electronics, control theory, and computer design, their aim is to optimise a robot's ability to do the job it was built for.
There are many types of robots, but all have mechanical construction, electrical components, and computer programming code. In the future, nearly all robots have artificial intelligence coding, which means that they can learn and interact with their environment without being directly controlled by humans.
Many robots from the future will be bio- inspired, including robots that resemble humans, animals and plants in different ways. The reason for this is that there is recognition that nature's engineering structures and processes often provide optimal ways of doing things.
Robots will be found everywhere they provide security, assistance and support to people, and do physical tasks such as maintaining farming equipment or cleaning. Mechatronics engineers will have excellent technical skills, including disciplinary backgrounds in mechanical engineering, electronics, and computing. They will be good problem-solvers, will have specific knowledge of industry standards, and will be comfortable working with computers. They will be logical thinkers who are good at maths, and often will have high levels of practical capability, and attention to detail.
Media remixers will combine a variety of media from across time to create blended one-of-a-kind products or experiences.
With individuals having access to a plethora of media, a media remixer will combine a variety of media from across time to create blended one-of-a-kind products or experiences.
The remix will combine video, audio, images and augmented reality to create artefacts such as marketing campaigns, educational tools, wedding montages, entertainment and bespoke experiences such as installation art or travel adventures.
A media remixer's work will communicate their unique remix style and personal brand, and they will build a niche client base.
Media remixers will work in a freelance capacity working on a portfolio of projects for a range of clients at the same time.
A media remixer will be both an artist and a producer with a passion for creativity and, skills and expertise in digital media. They will also need to be entrepreneurial and have business development and sales skills. Many will have a secondary skill set and domain expertise that enables them to specialise in particular artefacts or experiences. A media remixer will need to invest in developing their personal brand and a profile to communicate their unique remix style, build reputation and grow their target market.
Memory optimisers will augment people's working memory capacities through digital implant technologies, and judicious memory erasure.
Information overload can be a challenge. Throughout the day, people are constantly plugged into augmented reality-based personalised information and news feeds, and are exposed to a wide array of digital visual and multisensory input.
Some people may need periods of time where they unplug, possibly with the support of an analogue experience guide. Others find that their day-to-day ability to process the data that they receive is insufficient.
The memory optimiser augments people's working memory capacities through digital implant technologies, and can also free up existing capacity through judicious memory erasure.
The memory optimiser needs to be very careful about using these techniques, as there can be serious psychological and cognitive processing consequences both for people who are amnesic (that is, who have gaps in memory) and for those who are hyperthymesic (that is, who remember too much). They identify the right implant or memory erasure technique, and then design an integrated memory solution for the client. They do not operate on the patient themselves, but instead work as part of a team that includes bio-engineers, implant and erasure surgeons, and cognitive psychologists. Memory optimisers will be specialists in cognitive psychology, with an emphasis on memory function. They will be familiar with digital memory enhancement and erasure techniques and technologies, and know how to use both to create an integrated memory solution. They problem-solve with excellent attention to detail, with educational backgrounds in biotechnology and brain architecture.
Multisensory experience designers will bring together virtual reality, haptic and biofeedback/biometric technologies to create fully immersive basis of games and leisure activities, marketing campaigns, and education/training.
Multisensory experience designer
Multisensory experience designers bring together virtual reality, haptic and biofeedback/biometric technologies to create fully immersive basis of games and leisure activities, marketing campaigns, and education/training.
They work in teams with specialists in each of these fields to create experiences that are indistinguishable from the physical world, or alternatively that are incredibly different from the physical world, but are still hyperreal.
Multisensory experience designers know that while vision and hearing are the most dominant senses, a truly immersive experience also needs to have elements of touch and even smell to bring it to life. They make the most of implants that most people have in their central nervous systems to simulate certain elements of the experience, as well as implanted eye lenses, and ultrasonic waves for touch.
Multisensory experience designers will be very good at visualizing experiences across multiple senses. Using biofeedback mechanisms and tools, they will create personalised experiences for users. They will have backgrounds in user interface and user experience design, along with coding and human psychophysiology. Multisensory experience designers will need to be good team workers and have reasonable knowledge of haptic, virtual reality, and biometric technologies.
Nanomedical engineers will design and plan personalised medical treatments that use nanoparticles.
Nanomedical engineers design and plan personalised medical treatments that use nanoparticles.
Nanoparticles are microscopic particles that can be tailored to detect and target viruses and cancer cells, and to create images of diseased parts of the human body to help diagnosis (similar to smart dust, only much smaller). Some nanoparticles called nanocages can also carry treatments for diseases, such as chemotherapy molecules. Others can target and destroy blood clots that have formed in the wrong places inside the body.
Nanomedical engineers will have knowledge across engineering, medicine and science, specialising in biochemistry and nanoengineering. Given data about a patient's health and a diagnosis, they will fabricate the right type of nanoparticle for the task, and functionalise it ready for use, by bioconjugating molecules to surfaces or particles. They will work in a team of nanoparticle engineers, nanoparticle diagnosticians, and nanoparticle pharmacy specialists, so will need strong teamwork skills as well as highly developed analytical skills.
Net positive architects will design building solutions to create viable and responsible commercial buildings or houses.
Net positive architect
With new materials, intelligent design and integrated sensor systems, buildings will be designed to produce more energy and water than they consume.
New rooftop photo-voltaic systems, and other onsite energy production and storage, intelligent building materials that insulate, produce energy and monitor the building environment, and advanced analytics software, allow buildings to be run such that they are suppliers to the national energy grid.
A net positive architect will design building solutions, working with clients, software engineers and materials engineers, to create viable and responsible commercial buildings or houses.
The net positive architect will have spatial design skills combined with knowledge of new materials, green building processes and software solutions. They will have communication skills as they work with other professionals and with clients to create solutions that are innovative and attend to specific needs.
New materials engineers will create innovative applications for cutting-edge materials and technology.
New materials engineer
Frontier materials, such as carbon nanotubes, aerogel, transparent aluminium or e-textiles, will transform the way we relate to everyday items.
New materials engineers will combine STEM discipline knowledge with creative ideas for applications that can improve lives.
These may include silk implants for damaged eardrums; strong, lightweight materials that save energy; or materials that can be recycled many times across their lives.
A new materials engineer will work in cross- disciplinary teams that combine science, engineering, computing, marketing, and social science. They could work for dedicated companies or be freelance, offering their skills to teams centred around product design.
A new materials engineer will have strong STEM disciplinary knowledge combined with computing skills and a creative, entrepreneurial outlook. They will need strong people skills to work in cross-disciplinary teams, and insight into human needs.
Nostalgists will recreate remembered experiences for the elderly.
A nostalgist works to recreate remembered experiences for the elderly.
Because people are so long lived, there will be a strong trade in recreating the best parts of life for people from 80 or 100 years ago.
Nostalgists can help people who suffer from dementia feel safer and happier, by building environments and experiences resembling the past and therefore familiar.
Nostalgists combine interior design expertise with personal digital research to design a personalised experience for their clients. People may wish to live in environments designed by nostalgists, or to visit them virtually with the assistance of a virtual reality experience creator.
Nostalgists have excellent digital research skills, and will be good at listening to people to elicit details of the required memories. They have a strong command of interior and environmental design, and may collaborate with other professionals, such as, virtual reality experience creators and aged health carers. A love of history and an eye for historical detail will be essential in this role.
Nutri-gutome consultants will support people's health by managing the bacteria in the human digestive tract.
Nutri-gutome consultants will be experts at optimising people's health by working on, and through, the human digestive tract and the trillions of microorganisms (mostly bacteria) living within it.
The bacteria are involved in food digestion and absorbing nutrients from food, but they are also important to wider processes such as immune regulation and brain function.
Nutri-gutome consultants will be known colloquially as a gut-bug keeper, but their role will be very important, they will monitor the health of the bacteria and the digestive tract. If dysbiosis (an imbalance of bacteria) is found, they will design and implement interventions to ensure rebalancing. These solutions will include change of diet, pre- and probiotic administration, and microbiota cultivation and transplantation.
Nutri-gutome consultants will work with body sensors and algorithmic analysis to identify dysbiosis and restore health.
Nutri-gutome consultants have a background in human biology and health science. They often have an interest in nutrition and dietetics, and all have knowledge and skills in microbiology and biotechnology. They have good attention to detail and analytical skills, as well as problem- solving capabilities.
Offworld habitat designers will create habitable buildings and environments on other planets.
Offworld habitat designer
As humans continue to explore space, plans to colonise other planets and moons will be developed.
Offworld habitat designers work with other specialists and scientists, such as the terraforming microbiologist, to build habitable buildings on other worlds. Beginning with scientific space stations but soon moving into tourism, Mars was the first planet to be offworld colonised, and several space stations are already in development with other planets and moons following after.
There is a need to design complete habitats for these offworld environments. This includes: points of interest, things to do (ranging from sport to adventure to exploring), accommodations and restaurants, along with all of the necessary support structures and infrastructures to manage and maintain.
The new habitats are designed to complement existing ecologies, so the offworld habitat designers need to have high-level ecological awareness to ensure that comparable systems are put in place and local aspects are used within the new habitat design. Most existing habitat elements are hostile to human habitation. How do we ensure that the gravitational force in the area is suitable and stable? How do we protect people from radiation? How can we ensure an optimal mix of breathable air? These factors are at the forefront of the designer's minds, something that Earth habitat designers don't ever have to worry about. The offworld habitat designer will have ecological and architectural skills and understandings and be creative in how they meet the challenges and possibilities in offworld locations. They will also have high level-communication skills as they will be designing alongside others.
Personal brand managers and content creators will help people market themselves and their personal brand using digital technologies.
Personal brand manager & content curator
A personal brand manager and content creator will work with people to market themselves using digital tools.
The brand manager helps people to discover what their career aspirations are, and then constructs an avatar (virtual self) that aligns with this. They will design a brand and digital presence for the person, including curating artefacts such as images and 3D video of the person, building social networks and making posts to build that person's social media influence.
Personal brand managers and content creators need to have great written, oral and visual communication skills, to create a persona for someone else. They need to be able to listen to their clients to discover what their career plans are. They need to have skills and knowledge about social media platforms, as well as specialist knowledge about marketing, branding, and career opportunities. Advanced skills with digital media such as holographics, 3D video, and augmented reality will also be needed.
Personalised marketers will develop and implement marketing strategies that can market products with individualised content tailored to an individual person.
Personalised marketers develop and implement marketing strategies that use individualised content to market products, services and experiences to people and their automated decision support systems.
Through personal data collection based on body and behaviour sensors, and monitoring communities and the environment, personalised marketers find clever ways to engage people and influence their behaviour.
Personalised marketers can work for marketing and advertising agencies, inside big companies, as freelancers, or for the government. They use algorithmic tools to figure out what people are interested in and motivated by, and match this up with advertising that will work for those people.
Personalised marketers will be good at data analysis, and using automated tools to assist them with analysis. They will have educational backgrounds in marketing and advertising, and have knowledge of cross-platform marketing tools (such as augmented reality, personalised recommendation systems, and social media). They will create compelling stories, while having a deep understanding of what motivates consumer behaviour.
Predictive regulation analysts will forecast which aspects of upcoming changes to technology, business, society and the environment need government regulation.
Predictive regulation analyst
Predictive regulation analysts forecast which aspects of upcoming changes to technology, business, society and the environment need government regulation, and to prompt government to put pre-emptive new laws and other measures in place if needed.
Predictive regulation analysts work inside government regulatory authorities that oversee commerce, enforce quality standards, safety, and use of resources. They use artificial intelligence algorithms to help them predict changes out in the world, although much of what they do is about interacting with businesses and technology companies in person to identify what the next big developments are going to be.
They make recommendations to government about changes that need to be made to existing regulations, or new laws that need to be drafted. For instance, in the early 21st century, the rapid introduction of Uber (peer-to-peer ridesharing) into the personal transport market meant that governments did not have enough of the right kinds of regulations to make sure that Uber drivers and passengers were safe and protected financially, and that the company was paying taxes on the income it was making. In the future, this kind of situation is very unlikely to occur, because predictive regulation analysts can see when something is likely to change, and will ask the government to change regulations quickly.
Predictive regulation analysts will be experts in the laws and regulations operating in their jurisdictions. They will be familiar with the systems and processes of law, and able to use algorithmic tools to help them predict developments. They will be decisive, and have excellent oral communication skills to find out what is happening in an industry, and written communication skills to write briefs for governments recommending law changes. Most importantly, they will have strong knowledge of technological, social and business trends, and be able to use this knowledge to identify what will be happening next.
Quantum computer programmers will use high speed computers to solve complex and novel problems.
Quantum computer programmer
Quantum computers use atomic quantum states in very low temperature devices, programmed using multiple laser beams, with interactions at the level of individual atoms.
Quantum computers make use of the rules of quantum mechanics to process information. In classical computers, processing is linear and sequential. But quantum computers rely on simultaneous superpositions of many inputs at once. Quantum computing speeds up processing exponentially over classical computers.
The different mode of logic functioning of quantum computers make them ideal for certain applications: artificial intelligence, cryptography, molecular modelling, medical diagnostics, weather prediction, financial modelling. They can seamlessly encrypt data to solve complex problems that even the most powerful supercomputers of the early 21st century could not.
Quantum computers operate with specialised programming languages, and quantum computer programmers versed in these will apply their expertise to new and more complex problems. Their power and complexity will also represent challenges, and there will be a need for a strong core discipline of quantum computer programmers who really understand how to creatively write error correction software for quantum computer applications.
quantum computer programmers will need high level coding skills which imply clear problem analysis for the creation of complex algorithms. They will need human skills to interface with engineers and understand the particular structure of the problems that require solution. They will need patience and persistence.
Real-virtual transfer shop managers will use 3D printing and other technologies to create physical versions of virtual objects (and vice versa).
Real-virtual transfer shop manager
As people spend more and more time in virtual and augmented reality, they want virtual versions of the objects, clothing, and furniture that they own in physical (real) life.
They also want to be able to take home physical versions of things they have encountered in the augmented or virtual world.
The real-virtual transfer shop manager will make this happen, by using 3D-printing and other advanced fabrication methods to create physical versions of virtual objects, and scanning/design tools to create virtual versions of physical ones.
The real-virtual transfer shop will have self- service options for people who want a direct and simple transfer of an object.
The real-virtual transfer shop manager will deal with very large and more complicated service requests.
The real-virtual transfer shop manager will have good attention to detail, and excellent digital design skills. They will be able to use 3D printers and fabrication machines. They will have well developed interpersonal skills, to listen carefully to client's needs, and problem- solving capabilities.
Regional community growth co-ordinators will support people looking to transition from urban to regional living.
Regional community growth co-ordinator
Although urban living in smart cities remains the popular choice, many are looking for something different. With connectivity now in place in all areas across the world including remote and rural areas, working online while living in rural settings is attractive to many. No more commuting while living and working in one place reduces infrastructure and ensures a significant cost saving to organisations.
However, the transition to regional living can be difficult for those long-term urbanites. This is where the regional community growth co-ordinator will provide assistance, working with local community co-ordinators and human habitat designers to make regional areas vibrant and interesting for people of all ages and interests.
Regional community growth co-ordinators will market regional benefits and attractions to urbanites, encouraging them to re-locate. They will also market opportunities to regional organisations to ensure ongoing regional viability, distributed workforces, community collaborations, and networks. Focussing on artistic communities and food production will be key in these roles.
The regional community growth coordinator will have marketing skills and be a high-level communicator. They will be digitally literate as much of their communication is mediated via online conferencing. They will also be highly organised and efficient networkers as they coordinate people, ideas, opportunities and organisations.
Robot ethicists will address ethical issues associated with artificial intelligence, robots, cyborg technologies, and augmented/virtual reality.
Ethicists are ethics experts.
A robot ethicist will be concerned with the ethical issues that are associated with artificial intelligence, robots, cyborg technologies, and augmented/virtual reality.
When a new technology or scenario involves emerging and contentious methods and applications where there are ethical or moral implications, an ethicist is frequently asked to provide input. They impart unbiased interpretations to help governments, businesses, professionals and families make informed decisions.
Key topics with which robot ethicists engage include robot rights (that people have moral obligations towards machines, particularly AI), weaponisation of AI, and robot morality. The robot ethicists analysis and input are aimed at preventing legal claims and making people feel confident and informed in their decisions.
Robot ethicists will understand logic and how it interacts with human emotions, beliefs and moral standards. They will listen to and comprehend a variety of different opinions based on multiple logical and philosophical approaches, and fairly assess them. They will have excellent analytical skills, and a contemporary understanding of ethics as applied to digital technologies.
Robot mechanics will maintain robots and autonomous vehicles to keep them running smoothly.
If your home assistance robot is malfunctioning, your autonomous car won't start, or your ag robot has ground to a halt in the middle of its vertical crop field, what do you do?
You contact your robot mechanic! Robot mechanics will maintain robots and autonomous vehicles to keep them running smoothly. Their work will include hardware maintenance and fixes (assisted by mechanic- assistance robots), but will also extend to electrical components, firmware and software updates and patches.
Remote and virtual assistance can also be part of this job, using augmented and virtual reality visualisation tools and robot self-repair systems.
Robot mechanics will have great diagnostic skills, problem-solving skills, and practical technical skills, in terms of both robot machinery and software. They will have good customer service capabilities, and excellent time management and organisational capacities. They will often be freelance or work in small robot garages (sometimes they offer mobile services), so need to be entrepreneurial in outlook.
Satellite network maintenance engineers will be responsible for keeping the global wireless satellite network functioning.
Satellite network maintenance engineer
In 2022, SpaceX launched 4,000 small satellites into low-Earth to beam back a high- speed wireless signal to everyone on Earth. From that date, everyone on earth had access to high-speed global intranet.
Satellite network maintenance engineers will be responsible for keeping the global wireless satellite network functioning.
Using satellite self-repair tools and space drones to do routine maintenance, satellite network engineers will also upgrade software, firmware and hardware inside the satellites. They will progressively upgrade the network using new satellite technologies that yield a stronger signal and need less maintenance.
Satellite network maintenance engineers will have great diagnostic and problem- solving skills. They will have technical skills in satellite technology, and may have formal qualifications in aerospace, mechanical, or electrical engineering. They will have an understanding of spacecraft subsystems, satellite communication systems, spacecraft operations and ground control systems.
Shadowtech managers will work in large organisations, managing technology that is used by employees but is not officially endorsed by the organisation.
Shadowtech managers will work in large organisations to manage technology used by employees that is not officially endorsed by the organisation.
Use of software and devices that are not officially endorsed can lead to compatibility challenges, data back-up issues, and even security breaches. However, because everyone in the future will have their own virtual personal assistant, biological digital implants, and support robots, it is inevitable that people will be using technology that isn't endorsed.
The shadowtech manager will be there to manage the company's BYO robot policy, and to facilitate the secure integration of an enormously wide variety of shadowtech that is being used. Shadowtech managers will specialise in systems integration and compatibility. They will have expertise in network security, and the functions and vulnerabilities of the massive array of devices, implants, virtual assistants and robots that employees are likely to own. Shadowtech managers will be good at complex problem-solving, and will be highly digitally literate.
Sharing auditors will analyse homes and businesses for assets that can become part of the sharing economy.
A sharing auditor will analyse homes and businesses for assets that can become part of the sharing economy.
The sharing economy is a peer-to-peer based system for acquiring, providing or sharing access to goods via an online platform. Owners rent out something they are not using, such as an autonomous car or spare household robot, to other people who need these things.
In the future, where there is a strong emphasis on minimising waste and maximising efficient use of resources, nearly everyone will share some of their belongings.
A sharing auditor will visit a home or business, and will advise on what people can rent out to others, and which sharing platforms to use. The owner will sign up for a sharing service, and then people will rent items from them. It will not be uncommon to see drones carrying furniture and robots between houses as part of the sharing economy.
Sharing auditors will have sound judgment and good interpersonal skills. They are analytical, and know about the latest trends in the peer-to-peer sharing economy.
Smart dust wranglers will program swarms of 'smart dust' to assist with surveillance, ecology restoration, and pollution control.
Smart dust wrangler
Smart dust wranglers instruct and control the tiny microelectromechanical systems (MEMS) that make up smart dust.
These tiny sensors are less than the size of a grain of sand, and move about in swarms using tiny polymer wings. They collect data about any environment in which they are located, which is then beamed up through their mesh network to be analysed.
Smart dust wranglers work in many areas, including ecology restoration, where smart dust is used to monitor the natural environment; in smart cities, where smart dust monitors the air and water to keep toxins within safe levels; and in police surveillance, where smart dust can locate and track criminals and persons of interest.
Smart dust wranglers program the smart dust swarm. They choose the correct type of smart dust with the right sensors, and how many MEMS will be required for the particular job. They program the individual MEMS to detect certain types of data in the environment, then create a whole-of-swarm data collection program so that the data from thousands of MEMS can be mined to find an answer.
Smart dust wranglers will have expertise in programming, data analytics and systems co-ordination. They will be analytical and have strong attention to detail. They will have knowledge and skills in their domain of specialisation (such as farming, smart cities monitoring, ecology restoration or policing). They may work with data scientists and artificial intelligence to analyse the data that has been collected.
Space tourism operators will lead real-life tours across the solar system.
Space tourism operator
Virtual tourism is now very popular, but sometimes there is no replacement for going to a place in person.
Space tourism operators make the most of this fact. They take shuttle-loads of tourists into orbit, to visit our space stations, and to our colonies on Mars.
Space tourism operators work with shuttle pilots, spaceport personnel, and space traffic control systems operators. They also work with marketing specialists and pre-tour health and fitness trainers. Some space tourism operators specialise in leading tours for space restoration enthusiasts, who collect space junk left over from previous space missions to recycle and reuse. Other specialist tours are for space memorabilia collectors, who like to discover and explore abandoned spacecraft and satellites, and create a record of where they are.
Space tourism operators will have extensive knowledge of locations in our solar system. They will have strong logistical and organising skills to plan tours, and good marketing capabilities to advertise tours to the generic public. Space tourism operators will be healthy and fit, with a strong health and safety record. They will need excellent interpersonal skills and be quite entrepreneurial.
Sportspeople of the future will engage in competitive sports, supported by the latest in technological advances.
Sportsperson of the future
While robot sports will be popular, the more conventional human-based sports will still exist in the future.
As in previous eras, sportspeople will train hard to improve their performance, and sport will remain highly competitive.
Technological advances will transform most sports, with high-tech track and field surfaces, maximum bounce shoes, and low-drag uniforms to push the boundaries of human limitations.
Mega-stadiums will allow fans to watch personalised feeds of their favourite players. Team members will be fitted with tiny earpieces so that they can communicate with one another and their coach during the game. Refereeing will be completely computerised.
As a sportsperson of the future, you will be fit, strong, fast and flexible, with excellent reflexes and quick decision-making capabilities. You will need good interpersonal skills to interact with your teammates, coach, and fans. You will need some data interpretation skills in order to make the most of the information that various sensors tell you about your performance and your body. Depending on the sport and its regulations, you may be allowed to have body implants to help enhance your performance, but if so this will be strictly controlled. You will need to be abreast of the latest in technological advances in your sport, so you can make the most of them.
Sustainable energy solutions engineers will design energy generation, storage, transport, and use systems that are efficient, sustainable and safe.
Sustainable energy solutions engineer
Developing energy sources that serve both current and future energy requirements without compromising our climate or environment is a job that will always exist and remain in high demand.
Renewable energy and energy efficiency continue to be essential considerations and yet, continue to provide significant challenges. Energy recapture is part of the solution.
Sustainable energy solutions engineers will design energy generation, storage, transport, and use systems that are efficient, sustainable and safe.
New generation strategies are constantly being developed and tested and include strategies such as: solar, wind, bioluminescence, gravity, tides, bacteria and microbial fuel cells, biofuels, and hydrogen fuel cells. Storage chemistry is now well researched and in low cost production. The infrastructure around energy sharing has been updated and transformed into safe systems which focus on local generation and capable storage systems that no longer require statewide networks of unsightly and dangerous poles/wires.
The sustainable energy solutions engineer will be diversely capable with high-level science knowledge so that they can integrate systems to ensure maximum generation for each site. They will collaborate and communicate well as often they will work in teams that include the regional community growth coordinator to ensure that solutions are applied in regional contexts. They will also be creative and solutions orientated.
Swarm artists will use drone swarms to create art, music, or performance-based cultural experiences.
Swarm artists use swarms of hundreds of drones moving in formation in different ways to create art, music, or performance-based cultural experiences.
Swarm artists surround audiences with drone orchestras, immerse them in sound and light shows, and do spectacular light painting. They may use robot or human performers as part of the experience, as well as multi-sensory techniques employing advanced haptics (touch-based technology) and biofeedback to create a personalised experience for every audience member.
Swarm artists will be employed by governments to create drone-based fireworks displays for celebrations. No one will use actual gunpowder in fireworks, as drones are much safer and more environmentally friendly.
Swarm artists will be highly creative, and have advanced skills in the latest visual and performance art techniques. They may be classically trained musicians, performing or visual artists, with additional education in staging and storytelling. They have expertise in biofeedback and sensor technology, as they will use physiological monitoring to ensure that every audience member is having the best possible artistic experience. Many swarm artists will be either freelance or work in small companies, so they need to have good entrepreneurship skills.
Terraforming microbiologists will make other planets habitable.
With the recent successes in space travel, notions of inhabiting other planets, especially Mars, has become a reality rather than a dream.
While it is possible to build space stations that have habitable spaces inside them, people can still not walk outside without a spacesuit. In the future, terraforming microbiologists will work as part of big terraforming teams to make Mars entirely habitable, and it is anticipated that this will be possible within a few decades.
Mars still presents significant challenges with the lack of a magnetic field and significant atmosphere, however terraforming microbiologists will be part of the solution. They will nurture microbes to make Mar's soil fertile and its atmosphere more breathable. NASA will fund much of this research.
Terraforming microbiologists will be skilled microbiologists with a keen interest in space programs. They will have high level communication skills as they work as part of a collaborative, where multiple scientists share research and engage in the big ideas around the specific problems.
Trendwatchers will know what is likely to happen next, and how to make the most of it.
Trendwatchers will know what is likely to happen next, and how to make the most of it.
In a future where the pace of change is incredibly rapid, they will be employed by big companies and government agencies to watch the latest developments in science, technology, social issues, and the environment.
Trendwatchers will be across the future developments in multiple areas, as new opportunities often occur at the intersection of trends (for example, the development of DNA-based data storage technologies that increase data storage capacity exponentially, at the same time as swarm technologies that allow very big data approaches to city surveillance).
They will feed information and recommendations back to CEOs and government leaders so that they can use them for strategy.
In business, trendwatchers will be particularly interested in how to turn new developments into opportunities to make new products or services, find new markets or access them in new ways. In government, they might work with predictive regulation analysts or in executive director portfolios.
Trendwatchers will be interested in trends across multiple disciplines and areas of human activity. They will have excellent information analysis and synthesis capabilities, and they will be good at horizon- scanning and identifying what might become an opportunity. Their oral and written communication skills will be well developed.
Virtual and augmented reality experience creators will design digital and virtual experiences for healthcare, marketing, or entertainment.
Virtual and augmented reality experience creator
The virtual and augmented reality experience creator specialises in designing digital experiences that are used for tourism, games and entertainment, marketing, and healthcare purposes.
Virtual reality experience creators build entirely immersive simulations of real or imagined places, including multi-sensory tourism experiences anywhere on earth or beyond, or immersive movies and games.
Augmented reality experience creators build interactive overlays over the real world, to add to what is there. It is used in numerous places, such as to create retail pop-up stores, virtual changing rooms (where you can try on clothes without getting undressed), interactive museum exhibits, visualisations of tumours in surgery, and virtual navigation beacons for travel.
Virtual and augmented reality experience creators need to have strong visual communication skills. They need to have coding skills and be able to use VR/AR engines. They will be familiar with principles of user interface and user experience design, and be comfortable with 360 degree cinematography. Depending on the focus of their work, they will need to collaborate with games designers, film script writers, marketing specialists, medical professionals, and museum curators (amongst others).
Virtual assistant personality designers will custom-program virtual assistants and tailor them to their client's needs.
Virtual assistant personality designer
Virtual assistants are common in the future.
They are programmed to take care of the more mundane aspects of working life. They manage email and communications, store and retrieve data, and organise schedules, as well as offering real-time advice, news, and information feeds that are tailored to the owner.
Each virtual assistant comes with a pre- programmed personality, however, this can be customised and individualised to enhance user satisfaction.
The virtual assistant personality designer does this re-programming.
They interview the human user and discuss the personality traits most desired, and then design and program that personality. People may often ask for their virtual assistants to have the personalities of relatives, friends or celebrities, which is now relatively easy to do given the amount of digital data that is now collected about everyone. The personality designer also troubleshoots any personality issues that emerge over time.
Virtual assistant personality designers will know about user interface and user experience design as it applies to AI and generating avatars. They will program with attention to detail and will be empathetic people who are highly intuitive and observant so that they can develop synergistic personalities for the virtual assistants. They also will use their high-level research skills to ensure that their avatars replicate the intended model personality.
Virtual surgeons will perform surgery using robotics and virtual technologies.
In the future, surgery is much less often needed because of health shaping and genetic engineering. However, when surgery is required, we need to get surgeons to patients as quickly and efficiently as possible.
As virtual reality technology continues to evolve, surgeons will be able to perform sophisticated surgery without needing to be in the same room, or city, as the patient. This becomes very important for patients in rural areas, and for maximising the reach of highly specialised surgeons. Virtual surgery is minimally invasive. The small robotic arms that are used can sneak into one tiny incision to do their work.
High tech imaging technology with laparoscopic cameras will help surgeons view anatomy surrounding the operable area and help guide their instruments. Artificially intelligent surgical assistants provide real-time information and offer advice based on thousands of previous surgeries. Nanoparticles can be deployed to provide treatment in targeted areas. Augmented and virtual reality overlays mean that consultation can happen in real-time.
The virtual surgeon will need the skills of diagnosis, and of fine motor control of surgeons currently, but will have the technology supports described above to learn how to control and maximise effectiveness of the intervention. They will, as any doctor does, need to have strong people skills for patient consultation, although diagnosis will be done on the ground by AI machines and local medicos. They will also need skills in dealing with diverse centres remotely, and productively.
Waste reclamation and upcycling specialists will turn waste into high quality materials so that they can be used in manufacturing products.
Waste reclamation and upcycling specialist
Resources are finite and reclamation is profitable. Waste reclamation and upcycling specialists turn waste into high quality materials so they can be turned into products. The lack of raw materials, high costs of extraction, and new strategies for waste separation and utilisation will make this field a lucrative and prestigious one. Waste reclamation and upcycling specialists focus on both ends of the production line: they offer expert knowledge of materials science to product designers so that reclamation is successful and the lifespan of products is maximised, as well as engineering increasingly clever ways to reclaim materials from waste. The recently designed infini-cycle processing reduces all materials to their basic chemical components allowing for endless recycling of materials. Additionally, nanobot waste sorters ensure that all materials are reclaimed. Everything will be designed to minimise waste and meet the zero waste targets mandated for all on the circular economy. Energy generation and high efficiency are key considerations to the waste reclamation and upcycling specialist as energy loss will become unacceptable.
A waste reclamation and upcycling specialist will be highly qualified in materials science, industrial design, and manufacturing practices. Their engineering background will ensure they have exceptional problem solving and digital skills. Their well developed communication and interpersonal skills will ensure they can work successfully across a range of industries within cross-disciplinary teams.
Water management specialists will manage water sources and ensure that water is recycled, reconditioned and distributed appropriately.
Water management specialist
Water is the lifeblood for food production, advanced manufacturing, communities and wilderness areas, not to mention individual needs for survival.
Water management specialists manage water sources, efficiency, protection, distribution and health, and put in place measures to ensure that water is recycled, reconditioned and distributed appropriately.
The water industry has adopted advanced sensor and communications smart solutions to water management driven by stricter government compliance requirements, the evolution of smart cities, and the need for water conservation in ecoagriculture and other heavy water use industries. Sensors have been distributed in all area networks to monitor water flows, water quality, ensuring that water is distributed equitably.
The water management specialist ensures that specific strategies, such as wastewater reclamation, water recycling, targeted watering to the root systems of plants, and groundwater management strategies are working.
The water management specialist has hydrological interests and expertise, and collaborates with many other ecological and urban engineering and design specialists to ensure technological solutions for water management and efficient water use are constantly in development. Thus high-level communication skills will be required.
Weather control engineers will ensure a planet's climate is able to support the many different ecosystems that exist upon it.
Weather control engineer
Weather control engineers, also known as geo-engineers, will be employed by governments to ensure that the planet's climate is appropriate, and has enough diversity to support the many different ecosystems that exist.
Weather control engineers use carbon capture and storage technologies to cool the planet, as well as deploying chemical filters into the atmosphere to deflect sunlight.
They can create rain by seeding clouds using drone technology, control lightning with lasers, and drain energy out of hurricanes and cyclones to reuse for other purposes.
Weather control engineers tend to be conservative with the tools they use, because too much climate manipulation can have catastrophic results. As it is, weather control is tightly regulated internationally.
Before weather control engineers can put any intervention into action, they need to run in-depth computer simulations that model the consequences of any weather manipulation.
Weather control engineers have advanced level qualifications in climate science and meteorology. They will be particularly aware of how changes in weather interact with other elements of natural systems. Weather control engineers use big data and algorithmic tools to simulate and model weather conditions, so need to be highly digitally literate. They will be analytical people, with a strong ethical code.