ConnecTechAsia2019 Summit speaker, Ben Goertzel, CEO, SingularityNET, casts the spotlight on how AI will pave the path towards a post-work society.
Asking which industries are going to be most impacted by Artificial Intelligence (AI) in the coming years and decades, is much like someone in 1980s asking which industries are going to be most impacted by computer chips and computer software. In the 1980s, it was possible to see that computers were going to revolutionize retail and medicine, but not to forecast the advent of Amazon or Taobao. Prediction of AI’s future influence is likely even harder than was the case for earlier technologies, due to the exponential nature of change in an era of unprecedented connectivity.
What is clear is that AI and its associated technologies will continue to advance. In Southeast Asia alone, the adoption of AI technologies stood at 14% in 2018, a marked increase from the 8% in the previous year. The use of AI will only trend upwards as organizations turn to this technology to plug the skills gap created by the digital transformation of traditional industries. This is set against the backdrop of a potential talent deficit of 47 million workers across Asia Pacific by 2030.
As AI becomes mainstream, today’s AI capabilities will open up to more general uses, otherwise known as Artificial General Intelligence (AGI). Once this happens, there will be fewer tasks which humans can perform more efficiently or economically. The unique economic value of humans will then be restricted to special cases like psychological therapy, entertainment and arts or roles that require human engagement or interaction to deliver value.
Before we get there, we must acknowledge that AI will generally not take over the human workforce all at once. Instead, it will start by prompting businesses to reorganize their structures to best leverage the strengths AI has to offer. In doing so, pieces of people’s jobs will be reallocated to AI, giving way to the creation of new roles and requiring humans to upskill themselves accordingly.
For instance, AI will first take on more routine accounting work such as calculations and backend processes, similar to intelligent adaptive Excel macros, while allowing accountants to handle strategic decision-making and customer interaction. Only with the emergence of AGI over time, will we see AI taking over these roles and by then, only a handful of humans will be needed to oversee the running of an organization’s entire finance function. When this happens, we would be living in the reality of the hyper-intelligent workplace, where humans will simply provide mission-critical thinking, while incorporating the intuitive skillsets of AI and robots for increased productivity.
A key thing to note is that AI will not instantaneously eliminate jobs or job functions. Using the case of biological lab testing as an example, equipment which are mostly already computerized will become more automated and intuitive. Lab robots will then start bridging the gaps between the lab equipment — be it carrying materials from one machine to the other, or keeping each equipment informed about their respective test subjects, parameters and results. This weeds out the role of a lab technician gradually as it is replaced by an integrated lab robot system that takes verbal instructions directly from the scientist in charge of the lab. Eventually, the scientist’s role will mainly be to rubber-stamp the AI’s suggestions, knowing that what he needs from the AI, has been effectively executed.
Of course, this is not to say that there will be a widespread of automation within all industries. While generic graphic designs can now be done with AI design programs, the conceptualization of deeply creative new images and visual themes will remain largely in the domain of humans, especially on highly subjective matters which require a highly nuanced understanding of consumer taste and preference.
In general, one may say that among the last job roles to be eliminated will be those relying heavily on novel creativity, strategic decision-making, critical thinking and physical manipulations in life-or-death situations. Yet, among these roles, the routine and labor-intensive tasks will most likely be automated first as that is where most cost savings will be obtained. To put into context: there is more money to be saved by automating car driving than helicopter piloting, and more to be saved by automating medical research than particle physics research.
In my view, the reduction of the need for humans to work for a living should be massively positive where in an ideal world, would free up people’s time to pursue more social, artistic, intellectual and spiritual endeavors. Imagine living in a society where through the work achieved by technology, the psychology of defining one’s importance, status, and identity, no longer relies on one’s career or income.
While that is almost sure to be a rocky road given the realities of geopolitical issues and income inequality, projects such as the decentralized AI movement led by SingularityNET aims to smoothen the path towards it in a democratic and participatory way. If a substantial portion of the world’s AI brainpower is running on decentralized networks that are owned and controlled by their participants, it is more likely that the replacement of human labor with AI will unfold in a way that is beneficial for a large percentage of humanity. When that happens, we know that the AI revolution has reached the point of full success.
Lead by Dr. Ben Goertzel, CEO and Chief Scientist, our team includes seasoned engineers, scientists, researchers, entrepreneurs, and marketers. As befits the decentralized nature of our mission, we are a widely distributed operation, with a head office in Hong Kong, satellite offices in St. Petersburg (Russia), Belo Horizonte (Brazil), Bangalore (India), and Addis Ababa (Ethiopia); and a large number of staff collaborating via Internet from other locations.
Our platform team and core AI team is complemented by specialized teams devoted to application areas such as robotics and biomedical AI. Our robotics work is carried out in close collaboration with Hanson Robotics, the world’s leading humanoid robotics company, and a co-founder of SingularityNET. Our Ethiopia team focuses a portion of its time on applications of AI to aid the developing world, but currently has a greater focus on assisting with OpenCog, biomedical, and computer vision applications.