What is the secret to a great game?

Image Source: Gamfication and Gamevertising

TEDxMaastricht starts today with the theme ‘The Future of Health’ and browsing through this list of abstracts of  health game nominees for the Future of Health award (the winner to be announced today), I was particularly struck by the concept of Daydream by Jan Jonk

I am very interested in and have lectured on the gaming brain. The key properties of a successful game are that it must (i) impart independence to the player – allow their own style to shine through, (ii) be interesting and complex and (iii) have a relationship between effort and reward.

Games and brains 

In the game Daydream players with locked-in syndrome or other similar paralysing brain dysfunctions such as stroke, wear a plug-and-play neuroheadset that measures their mental states to alter a rich visual world in which the world’s ecosystem can be influenced by changing the climate through their brainwaves – for instance – by concentrating, relaxing and thinking creatively.

Shining a light in dark corners 

By reaching those brain areas which would be otherwise inaccessible, Daydream has the potential to emotionally empower these patients by drawing them out of their social confinement and giving them a manner of social independency and act as a powerful antidote to depression. In addition, the game may allow doctors, psychologists, family members and pets to enter the patient’s world as avatars – as seen in James Cameron’s movie Avatar – where the wheelchair bound Sully whose avatar becomes a warrior leader in an alternative world.  

All patients are different 

As with inter-individual preferences in the general population the game may need to be tweaked to motivate each patient to engage.  Balancing the world’s ecosystem by influencing the climate may work for some patients while building a motorbike from scratch or designing and maintaining a garden may be of more interest to others.

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Inside the gaming brain

 

Inside the gaming brain

In this recent lecture, I translate cutting-edge neuroscience to answer such questions as how a gamers brain is ‘formed’ and illuminate the brain processes involved in generating creative games and using them to get the best from the brain.