Human-robot symbiosis improves interaction
Semi-automated vehicles on our motorways, a mobile robot arm that can effectively intervene in a disaster area, drones: these are all examples of robots that exist our unpredictable environment. These robots cannot manage without human intervention, however: behind every successful robot there’s a human being. A strong foundation for operating robot arms and robot vehicles is haptics: our innate ability to feel our body. The elegant way in which our body intuitively responds to dynamic environments and uncertainties must be used to operate (mobile) robot arms, but also to work with intelligent vehicles which – just like their operators – are never entirely perfect. That’s the view of David Abbink, professor of Haptic Human-Robot Interaction at the Department of Cognitive Robotics, who will be holding his inaugural lecture at TU Delft on Friday 22 March.
Actually, the difficult relationship between fallible human beings and fallible automation is a familiar problem, for example in commercial aviation. In that sector, we select the best people, we train them and we pay them; we have air traffic control, checklists and procedures. We can’t say the same of motorists on our roads… What’s more, the paradigm behind this is that human beings have to act as a backup system for the machine, and that therefore it’s either the human or the machine that’s doing the operating. But people aren’t suitable backup systems at all: that’s tedious and so instead of paying attention we end up doing other things. That’s especially the case when we’re not trained or paid to be doing it.
A common thought is: increase automation, then we won’t need the fallible human being anymore. But we haven’t managed to do that yet, not even in commercial aviation, never mind having robots interact with complex human behaviour in open environments, such as cities, offices or homes. And indeed, we’re not only talking about the issue of safety, but also comfort and pleasure – or hopefully at least the absence of irritation. So the real problem is: how do we ensure that humans understand what a robot wants, can and will do? And how do we ensure that robots understand what humans want and will do?
Humans and robots have to engage in a reciprocal relationship that leads to mutual understanding and cooperation, so that they can learn from and support each other. Not either humans or robots, but humans and robots – together in a symbiotic relationship. More than enough attention is being devoted to the development of increased robot autonomy, but there is insufficient attention for robot symbiosis, and that needs to change according to Abbink. In his inaugural lecture, he will talk about some common examples of the awkward way in which robots and humans currently work together, and about the power of haptics and what is referred to as ‘shared control’, which he developed with his colleagues: a way in which robots and humans work together like a rider on a horse. He will explain his approach by way of several inventions from his lab, examples of how he ultimately made human-robot interaction symbiotic. It shows that the behaviour emerging from this interaction is better than that of only the human or only the robot.
It’s a shame that we’ve lost sight of this synergy: I never come across anthropologists or economists at conferences.
He will also attempt to look into the future: how will symbiotic interaction translate into the effective impact of robotics on society, one of the more serious concerns of our time? ‘While preparing for my inaugural lecture I read a great deal,’ David Abbink says, ‘and became fascinated by the “Macy Conferences”. They were a series of interdisciplinary gatherings between 1946 and 1953 the scale of which was unprecedented: anthropologists, biologists, engineers neuroscientists, psychiatrists and economists convened to think about the dynamics of feedback in biological and social systems. What emerged from that is systems theory and systemic thinking, which focuses on context and the dynamics of relationships. This had a major impact on the above-mentioned fields, which grew to become more specialised. Unfortunately, they consequently became more fragmented as well. It’s a shame that we’ve lost sight of this synergy: I never come across anthropologists or economists at conferences. But as a scientist how am I supposed to learn to think about the impact of my work in the complex fluid social reality that we are helping to co-create? I believe this needs to be done differently, because it’s only by trying together to understand the complex interaction of robotics in biological, psychological, social, economic and ecological systems that we can effectively guide its development. We have to improve the way we teach our students about this as well, and show how inspiring and important it is to look beyond the confines of their specialisations.
‘That’s why I’m going to promote the idea of setting up new “Macy Conferences” for the 21st century. In fact, I will already be doing that on Friday, during a symposium prior to my inaugural lecture that will bring together engineers and social scientists to talk about the future of human-robot interaction.’
Read more about the symposium and David Abbink’s inaugural lecture: “Help! My robot doesn’t do what I want! – Towards human-robot symbiosis”