In a recent interview, Jan Vanherck, a well-known Belgian entrepreneur and Dean of the United International Business Schools in Belgium, Spain, and Switzerland, took the opportunity to look into the future.
In 1975, Gordon Moore, co-founder of Intel Corporation and Fairchild Semiconductor, forecast the doubling of computer power every two years. Will this continue and how will it affect the world of the future?
His prediction has proven to be accurate over the past 40 years. It has led to an ever-accelerating progression and miniaturisation in all chip-based technologies, and this evolution has huge consequences for the world of tomorrow. Experts have forecast that computer hardware will match the human brain, in terms of creative design and analytical capabilities, in 15 to 20 years. The interaction between brain science and information technology will create artificial intelligence, a research field crucial to future generations.
Already, this increased computing power is delivering better understanding of the human body, and DNA sequencing is a good example. In 1970, Nobel laureate, Jacques Monod, said: “The molecular size of DNA prohibits, without any doubt, modification of the genome. The sequencing of the human genome is impossible, or, anyway, unreachable in three to five centuries”. How wrong he was! Only six years later, the first genetic manipulation took place and in the first years of this century, the first full sequencing of human DNA was achieved. Just ten years later, the consumer genomics company 23andMe began offering genome sequencing for $999 and soon it will be available for as little as $100. This is the gateway to personalised medicine, particularly for the treatment of all hereditary diseases, and cancer.
Do you see other technologies having a similar effect?
Absolutely! For example, nanotechnology. Nanoscience and nanotechnology are the study and application of extremely small things and can be used across all other science fields, such as chemistry, biology, physics, materials science, and engineering. To give you an idea of what a nano size is, the thickness of printer paper is about 100 thousand nanometres. On a comparative scale, if a marble were a nanometre, then one metre would be the size of the earth.
Nanotechnology will allow us not only to develop medicines that act on the level of our cells and tissues, repairing defects on an inconceivably small scale, but also to build micro engines and micro sensors.
The technology will be widely available in a few years time and will extend our life expectancy dramatically. Neuro-genetic scientist, Laurent Alexandre, in a now famous TED-talk entitled, “Le recul de la mort” (“The retreat of death”), summarised this evolution by saying that he believes that the first person who will live to be 1000 years old has already been born.
What about globalisation and entrepreneurs?
Globalisation is a term that has been politicised so let’s talk about global networks instead. They already exist, facilitated via the Internet and, from the point of view of society, it will make us interact with a lot of people, spread over the world, exchanging ideas, thoughts, and concerns. Political power will shift and emerging countries, such as China and India, will take a dominant role. New players and new markets will emerge. We’ll need to cope with different cultures, each with their own set of values.
Internet technologies, another area for innovators and entrepreneurs, are causing rapid changes in the world with the rise of Big Data. The world is becoming dominated by an all-knowing network. The fact that it gathers an enormous amount of data and, more importantly, has the computing power to actively process it and get information out of it, will force us to rethink a lot of things, privacy, for example, and freedom, family, friendship, love, and honesty.
Intellectual property is another issue. Billions of people thinking, generating ideas, writing papers, books, songs… Inventing new applications, offering new commercial services and products. Can individuals or companies claim the knowledge and decide whether they will use it, or simply put it in the fridge? Should we allow organisations to gather and process our individual data? How will we define ownership and plagiarism? These concepts were developed in the last century by a world where communication was done using handwritten letters, then wired phones and facsimile machines. Are these concepts strong enough to overcome the tsunami of the Internet and Big Data?
What is the role of business education in all this?
We need to make sure that future entrepreneurs can handle the big, unknown challenges. Let me quote Gordon Moore again: “The technology at the leading edge changes so rapidly that you have to keep current after you get out of school. I think probably the most important thing is having good fundamentals.”
Learning does not stop. Only a few decades ago, the teaching of students was considered complete when they graduated. In the best case, people took a few refresher courses during their professional life and that was it. Today, with the vast amount of new knowledge in front of us, learning is a continuous activity. It doesn’t stop today, it simply goes on. It is important to realise that every theory and model we teach is only a statement of current knowledge and is only true in certain circumstances and those circumstances are subject to radical change at ever increasing speed. We need to teach our students – the entrepreneurs of the future – how to think because they are going to have to answer questions we’ve not yet even thought of. We need too re-think ourselves and our environment, and challenge everything.
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