The brain is special: it computes. Which computations the brain is able to perform is determined both by its biology but also by the history of computations the brain has performed. An inability by the brain to compute adaptive solutions to the problems it faces can therefore give rise to mental illness both through mechanisms akin to those in other areas of medicine, such as cellular dysfunctions, but also through the consequence of “ill-learning,” for instance, after traumatic events. This line is blurry: illness can obviously give rise to ill-learning and ill-learning to illness, eg, through substance abuse often seen after trauma
Uli Grasemann and Risto Miikkulainen are with the Department of Computer Science, University of Texa...
© 2016 Elsevier Ltd.Computational modeling and associated methods have greatly advanced our understa...
Computational psychiatry (CP) is a burgeoning field that uses mathematical approaches to investigate...
The brain is special: it computes. Which computations the brain is able to perform is determined bot...
Computational Psychiatry aims to describe the relationship between the brain's neurobiology, its env...
Computational models have become an integral part of basic neuroscience and have facilitated some of...
Psychiatry today aims to understand the mechanisms underlying mental disorders by studying endopheno...
Translating advances in neuroscience into benefits for patients with mental illness presents enormou...
Computational psychiatry involves applying a collection of theoretical notions, including data analy...
Computational Psychiatry (CP) ist ein junges Wissenschaftsfeld an der Schnittstelle zwischen der kli...
This review considers computational psychiatry from a particular viewpoint: namely, a commitment to ...
Computational psychiatry is an emerging field that examines phenomena in mental illness using formal...
The pharmaceutical industry is approaching unsustainable research costs to develop new drug therapie...
Computational psychiatry is a rapidly growing field attempting to translate advances in computationa...
Computational Psychiatry is a heterogeneous field at the intersection of computational neuro-science...
Uli Grasemann and Risto Miikkulainen are with the Department of Computer Science, University of Texa...
© 2016 Elsevier Ltd.Computational modeling and associated methods have greatly advanced our understa...
Computational psychiatry (CP) is a burgeoning field that uses mathematical approaches to investigate...
The brain is special: it computes. Which computations the brain is able to perform is determined bot...
Computational Psychiatry aims to describe the relationship between the brain's neurobiology, its env...
Computational models have become an integral part of basic neuroscience and have facilitated some of...
Psychiatry today aims to understand the mechanisms underlying mental disorders by studying endopheno...
Translating advances in neuroscience into benefits for patients with mental illness presents enormou...
Computational psychiatry involves applying a collection of theoretical notions, including data analy...
Computational Psychiatry (CP) ist ein junges Wissenschaftsfeld an der Schnittstelle zwischen der kli...
This review considers computational psychiatry from a particular viewpoint: namely, a commitment to ...
Computational psychiatry is an emerging field that examines phenomena in mental illness using formal...
The pharmaceutical industry is approaching unsustainable research costs to develop new drug therapie...
Computational psychiatry is a rapidly growing field attempting to translate advances in computationa...
Computational Psychiatry is a heterogeneous field at the intersection of computational neuro-science...
Uli Grasemann and Risto Miikkulainen are with the Department of Computer Science, University of Texa...
© 2016 Elsevier Ltd.Computational modeling and associated methods have greatly advanced our understa...
Computational psychiatry (CP) is a burgeoning field that uses mathematical approaches to investigate...