University of Nottingham Open Day (Computer Science) - October 2024
Ada Lovelace Day, University of Nottingham - October 2024
Conservative Party Conference (The Spectator Reception, with Royal Society) - September 2024
Labour Party Conference (New Statesman Reception, with Royal Society) - September 2024
University of Nottingham Open Day (Computer Science) - September 2024
Royal Society Summer Science Exhibition - July 2024
Nottingham Festival of Curiosity and Science - February 2024
Consumer neurotechnology, or cheap wearable brain scanners, are now among us. People can now buy these devices for much less than the price of a phone, and use them like a smartwatch for exercise... but for your brain.
Figure shows three example consumer brain devices: Muse S, Versus, Neurosity Crown
Photographs taken by Emma Ford at the Festival of Science and Curiosity 2024 in Nottingham.
We'll have a number of consumer devices you can try on for free, and see what score you get on the app! Don't forget to take a picture with the brain scanners on, in our instagram corner.
We'll have our scientific brain scanner for some people to test - a 3D heatmap will show the blood pulsing in the brain.
We want to understand how people would plan a day to be better for their brain - here's a chance for you to decide!
Dr Wilson was interviewed for one of the top Computer Science publishers about the sudden arrival of many consumer neurotech devices.
Dr Wilson featured in the Evening Standard daily tech and science podcast, discussing the implications of new consumer neurotech arriving into our lives and how we may establish new societal norms
BBC Health Check came around to the stand at the Royal Society to try out some consumer neurotech and discuss the ethical implications they raise.
The evening standard sampled some key points of the podcast around brain scanners being used in the work place and the dangerous assumptions employers may have.
Kaya Burgess, science reporter for the Times stopped by to find our more about our stand and share it in the printed times.
See what the social media team at the Royal Society thought about trying on the brain scanners and serving major brain rizz.
Ben Spencer spoke to Jwan Shaban about her PhD research, and spent time with Mendi, one of our industry partners, trying on one of their consumer brain scanners.
The UKRI media team visited all the stands relating to their funding, to find out more about how their financial investment in research is leading to impact.
The University of Nottingham has a long history with brain scanners. "50 years ago, what started as experiments in the physics department looking at tiny samples, developed into taking the first human images of a hand and then the whole body," explains Professor Bowtell. "Today MRI scanners are commonplace in many hospitals, and we estimate that there are over 60 million, if not many more, MRI scans performed annually around the world – all helping clinicians and researchers to diagnose and treat a plethora of different conditions and diseases in people of all ages." But this isn't the only area of development. An innovative research team led by Professor Matt Brookes (Physics with Medical Physics, 2002; PhD, 2005) later developed the world's first wearable magnetoencephalography (MEG) system, which could be a game-changer for researchers both as a neuroscientific and diagnostic tool. The university also has a long history of using brain scanners for furthering scientific knowledge in areas such as psychology and mental health. One project, for example, has studied how people of different ages drive cars to understand more about brain aging.
These days, as brain scanners have got easier to produce, and cheaper to buy, we can bring them into our homes. This becomes a Human-Computer Interaction research problem - a key specialism at the University of Nottingham. Our Brain Data Team is studying how people will come to live with brain scanners and use them to enhance their own lives and wellbeing.
Find out more: MRI Find out more: Portable MEG Find out more: Brain Aging
Approaches to scanning the brain tend to involve one or more of the following techniques. Sometimes radioactive liquids are also introduced into the body before the scan, to see where it flows.
MRI and MEG detect magnetic changes in your brain. An MRI creates a strong magnetic field around your head, and watches to see how different types of cells respond. MEG (Magnetoencephalography), instead, tries to be super sensitive to the tiny magnetic fields that the cells in the brain create by themselves.
Copyright: Petter Kallioinen
EEG (Electroencephalography) detects electrical activity in the brain. As different parts of the brain are activated, the brain cells create electrical pulses at different frequencies. Some frequencies imply focus and attention, and others imply relaxation and meditation.
fNIRS (functional Near Infrared Spectroscopy) shines near infrared light into the head, and observes how much reflects back. At just the right frequency of light, this can be used to count how many blood cells in the brain contain oxygen (needed when that part of the brain is working hard) and how many have had their oxygen used.
There are many other types of brain scanner that exist, including CT Scans, DOT, and PET. Each approach helps us to understand the brain in a different way.
Personal Brain scanners now are at the point that smart watches were in the year 2000. Early Stages. Right now, scientifically, research aims to improve how accurately it can classify changes in cognitive activity, using advanced scientific brain scanners in carefully controlled labs. Research aims to move into scientific accuracy in real world environments, but that's more of a machine learning problem now. Yet these consumer devices, with AI built in, have suddenly arrived on the market, and we expect a rapid expansion in the number of devices available to have in our homes.
We expect that people will show the same excitement for tracking themselves, as many people do now with exercise tracking. Early adopters are likely to be e.g. neurodivergent people wanting to understand more about themselves, and trying to see if they can e.g. train themselves to keep focused attention for longer. Another group of people will be the hyper-organised types that want to better organise their time and energy to be more productive. Then we expect wider adoption will occur as these technologies get built into devices that we are already happy to wear on our head (VR goggles, and headphones are the early examples). Finally, we expect to see other wearables like smart watches continue to improve at detecting indicators of cognitive changes, as they detect stress indicators.
But how do we feel about this kind of technology?
Will you let your teacher, or boss at work, track your brain data?
Can be get work done better if we do a mental workout?
Can devices help us to avoid making mistakes?
Could these devices help manage ADHD and improve focus?
Could they help us track and avoid cognitive decline?
Can we manage and reduce stress in our lives?
Studying whether brain scanners can help us avoid mistakes
More can be found on Dr Max L. Wilson's Google Scholar page, including research into machine learning of brain data, brain-controlled movies, VR, robots, and studying cognitive decline.
Research has been focused on how technology will become more aware of employees and adapt to help them do their jobs, or remind them when to take a break. We've been studying people in office and factory work to understand how people will respond.
Research has been focused on how technology will become more aware of employees and adapt to help them do their jobs, or remind them when to take a break. We've been studying people in office and factory work to understand how people will respond.
Research has been focused on how technology will become more aware of employees and adapt to help them do their jobs, or remind them when to take a break. We've been studying people in office and factory work to understand how people will respond.
Our work is primarily funded by UK Research and Innovation (UKRI), through the Engineering and Physical Sciences Research Council (EPSRC). Further funding has been received from the European Commission. The research has been performed as part of larger grants (with a wider remit) totalling £10M, as well as by institutional support for Science PhD studentships awarded to the University of Nottingham.
All comments are collected anonymously, but comments may be analysed for research purposes by the team.
"It would be a way for employers to have control and power over employees" (reason against)
"I believe it is fundamentally wrong as this violates our rights as people" (general comment)
"Discrimination and further marginalisation of at risk groups" (reason against)
"They can add in extra help" (reason for)
"They would able to see how you think and what your true intentions are." (reason for)
"They’d be able to understand you better" (reason for)