Ideas Roadshow conversations present a wealth of candid insights from some of the worldâs leading experts, generated through a focused yet informal setting. They are explicitly designed to give non-specialists a uniquely accessible window into frontline research and scholarship that wouldnât otherwise be encountered through standard lectures and textbooks.
Over 100 Ideas Roadshow conversations have been held since our debut in 2012, covering a wide array of topics across the arts and sciences.
See www.ideas-on-film.com/ideasroadshow for a full listing.
Copyright ©2020 Open Agenda Publishing. All rights reserved.
ISBN: 978-1-77170-121-1
Edited with an introduction by Howard Burton.
All Ideas Roadshow Conversations use Canadian spelling.
Contents
I. Becoming a Psychologist
II. Probing Agency
III. The Active Brain
IV. Ideal Bayesian Operators
V. In Search of a Mechanism
VI. Humanistic Hubris
VII. Free Will
VIII. The Very Big Picture
IX. Final Thoughts
The contents of this book are based upon a filmed conversation between Howard Burton and Chris Frith in London, England, on November 14, 2016.
Chris Frith is Emeritus Professor of Neuropsychology at UCL and Honorary Research Fellow at the Institute of Philosophy, School of Advanced Study, University of London.
Howard Burton is the creator and host of Ideas Roadshow and was Founding Executive Director of Perimeter Institute for Theoretical Physics.
Introduction
Eyes on the Prize
Chris Frith has long been fascinated by schizophrenia. As a young graduate student working with Hans Eysenck, he recalls how his interest was piqued even further by a serendipitous assignment as part of Eysenckâs internal review process for his second edition of his handbook of abnormal psychology.
âStudents were handed out different chapters and I got the one on perception, which was mostly about schizophrenia. What particularly fascinated me then, and still does, is the problem of hallucinations and delusions.
âItâs easy enough to understand in principle if youâve got affected regions of your brain why you become blind or deaf or canât understand a concept or something, but itâs very difficult to understand why you start seeing things that arenât there or believing things that are obviously not true.
âSo, I was always interested in questions like, Can we think about a mechanism? and, How do we relate this to normal functioning? What is it that could go wrong in normal functioning that can make you start seeing things that arenât there or hearing people talking about you, when theyâre not?â
A key theme driving Chrisâ entire research career is readily apparent from these early inquiries: using specific aspects of abnormal psychologyââwhat goes wrongâ, if you willâas a natural window to help shed light on how, exactly, underlying âlow-levelâ biological mechanisms are converted to âhigher levelâ subjective experiences.
Meanwhile, a more detailed consideration of the mechanics of hallucinations initially drove him back in time, to the 19th century and his âbig heroâ Hermann von Helmholtz, who developed a deep insight on how we might objectively distinguish between external happenings in the world and internal happenings in our brains.
âHelmholtz pointed this out in relation to eye movements. When I move my eyes, obviously things jump about on my retina so thereâs movement on the retina, but itâs due to me. And I have to be able to distinguish between movement on the retina due to me and movement on the retina due to something actually moving in the world.
âAnd he basically said that because thereâs a message involvedâyouâre sending a message to your eye muscles to move the eyeâyou can use that signal as a way of determining what the corresponding movement is due to, whether itâs you or the world.
âSo I took that up and thought, Maybe what goes wrong in schizophrenia is that this signalâthis normal signal that tells you that itâs your movement or your actionâdoesnât arrive for some reason.â
Well, what kind of a signal might that be? Combining his own experiments and analysis with a wealth of results from the broader cognitive science community, such as Wolfram Schultzâs pioneering work with monkeys, he eventually came to believe that the key signal in question was that of a prediction and reinforcement mechanism involving dopamine.
The brain, it turns out, is hardly the passive recorder of external happenings that scientists once believed, but is instead, vitally, a highly active participant, constantly predicting what will happen and regularly comparing its predictions with the incoming sensory input. Chris, together with colleagues such as Daniel Wolpert, began to focus intently on the importance of human agency, forthrightly calling himself âa motor chauvinistâ.
âThere used to be this view that everything was perception. They would draw a picture of the brain, and most of it would be the visual system. But we would say in contrast, âNo, action is what the brain is all about. If you donât have action, youâre going to die.â
Nowadays, most neuroscientists are not only convinced that this active prediction mechanism is an essential characteristic of the brainâquite possibly the essential characteristicâbut after years of careful study, they have come to appreciate how it successfully harnesses all the nuances of advanced probability theory in order to predict and learn appropriately. The brain, goes the common description, is an âideal Bayesian operatorâ, meaning that it is constantly invoking a deep understanding of Bayesian statistics as it engages the world around us.
Well, thatâs hardly surprising. Since Bayesian statistics actually work, calling the brain an âideal Bayesian operatorâ is really another way of saying that it uses statistics appropriately in its constant prediction-mechanism, which any evolutionary theorist would have very much expected in the first place. After all, itâs hard to see how a constantly predicting life form would last very long if the way it was going about making its predictions was all wrong.
But whatâs deeply curious about this picture is that, while our brains are busily going about acting like ideal Bayesian operators, if you were to ask people to perform a basic statistical calculation, more often than not they would get it wrong. So somehow, thereâs a big difference between what our brains are doing and what we, consciously, do.
And suddenly, weâre right back to Chrisâ initial conundrum: how, exactly, are âlower-levelâ biological phenomenaâsuch as those involved in our ideal Bayesian brainsârelated to âhigher-levelâ subjective phenomenaâsuch as becoming convinced that we should really buy that lott...