https://centre.santafe.edu/complextime/w/api.php?action=feedcontributions&user=RichardFrackowiak&feedformat=atomComplex Time - User contributions [en]2024-03-19T02:52:04ZUser contributionsMediaWiki 1.35.6https://centre.santafe.edu/complextime/w/index.php?title=Cognitive_Regime_Shift_II_-_When/why/how_the_Brain_Breaks/RichardFrackowiak&diff=5111Cognitive Regime Shift II - When/why/how the Brain Breaks/RichardFrackowiak2019-11-14T00:44:06Z<p>RichardFrackowiak: </p>
<hr />
<div>{{Attendee note<br />
|Post-meeting summary=Presentation highlight was about AI techniques, didactic, informative and comprehensible - thanks Nikolaus Kriegskorte.<br />
<br />
There was tension between model and data led approaches.<br />
<br />
I had a relatively stable view of the methods by which functional and structural imaging mao to anatomy and local function in human brains. Those views were not shared, which meant a rethink is required. I remain unconvinced by what the resting state can inform us about mapping function and structure<br />
|Reference material notes=* Translation in cognitive neuroscience remains beyond the horizon, brought no closer by claimed major advances in our understanding of the brain. Nachev ''et al''., propose that adequate individualisation, needed for accurate diagnosis, requires models of far greater dimensionality than has been usual in the field. This necessity arises from the widely distributed causality of neural systems, a consequence of the fundamentally adaptive nature of their developmental and physiological mechanisms. <br />
* A proposal that, in the next quarter century, advances in “cartography” will result in progressively more accurate drafts of a data-led, multi-scale model of normal, abnormal and even adapting, whole human brain structure and function. These draft blueprints will result from analysis of large volumes of neuroscientific and clinical data, by an iterative process of reconstruction, modelling and simulation.<br />
}}</div>RichardFrackowiakhttps://centre.santafe.edu/complextime/w/index.php?title=Cognitive_Regime_Shift_II_-_When/why/how_the_Brain_Breaks/RichardFrackowiak&diff=5108Cognitive Regime Shift II - When/why/how the Brain Breaks/RichardFrackowiak2019-11-14T00:41:08Z<p>RichardFrackowiak: Edited automatically from page Cognitive Regime Shift II - When/why/how the Brain Breaks.</p>
<hr />
<div>{{Attendee note<br />
|Reference material notes=* Translation in cognitive neuroscience remains beyond the horizon, brought no closer by claimed major advances in our understanding of the brain. Nachev ''et al''., propose that adequate individualisation, needed for accurate diagnosis, requires models of far greater dimensionality than has been usual in the field. This necessity arises from the widely distributed causality of neural systems, a consequence of the fundamentally adaptive nature of their developmental and physiological mechanisms. <br />
* A proposal that, in the next quarter century, advances in “cartography” will result in progressively more accurate drafts of a data-led, multi-scale model of normal, abnormal and even adapting, whole human brain structure and function. These draft blueprints will result from analysis of large volumes of neuroscientific and clinical data, by an iterative process of reconstruction, modelling and simulation.<br />
}}</div>RichardFrackowiakhttps://centre.santafe.edu/complextime/w/index.php?title=Cognitive_Regime_Shift_II_-_When/why/how_the_Brain_Breaks/RichardFrackowiak&diff=5099Cognitive Regime Shift II - When/why/how the Brain Breaks/RichardFrackowiak2019-11-14T00:30:59Z<p>RichardFrackowiak: </p>
<hr />
<div>{{Attendee note<br />
|Post-meeting summary=Presentation highlight was about AI techniques, didactic, informative and comprehensible - thanks Nikolaus Kriegskorte.<br />
<br />
There was tension between model and data led approaches.<br />
<br />
I had a relatively stable view of the methods by which functional and structural imaging mao to anatomy and local function in human brains. Those views were not shared, which meant a rethink is required. I remain unconvinced by what the resting state can inform us about mapping function and structure<br />
|Reference material notes=* Translation in cognitive neuroscience remains beyond the horizon, brought no closer by claimed major advances in our understanding of the brain. Nachev ''et al''., propose that adequate individualisation, needed for accurate diagnosis, requires models of far greater dimensionality than has been usual in the field. This necessity arises from the widely distributed causality of neural systems, a consequence of the fundamentally adaptive nature of their developmental and physiological mechanisms. <br />
* A proposal that, in the next quarter century, advances in “cartography” will result in progressively more accurate drafts of a data-led, multi-scale model of normal, abnormal and even adapting, whole human brain structure and function. These draft blueprints will result from analysis of large volumes of neuroscientific and clinical data, by an iterative process of reconstruction, modelling and simulation.<br />
}}</div>RichardFrackowiakhttps://centre.santafe.edu/complextime/w/index.php?title=Cognitive_Regime_Shift_II_-_When/why/how_the_Brain_Breaks/RichardFrackowiak&diff=5098Cognitive Regime Shift II - When/why/how the Brain Breaks/RichardFrackowiak2019-11-14T00:28:28Z<p>RichardFrackowiak: </p>
<hr />
<div>{{Attendee note<br />
|Post-meeting summary=Presentation highlight was about AI techniques, didactic, informative and comprehensible - thanks Nikolaus Kriegskorte.<br />
<br />
There was tension between model and data led approaches.<br />
|Reference material notes=* Translation in cognitive neuroscience remains beyond the horizon, brought no closer by claimed major advances in our understanding of the brain. Nachev ''et al''., propose that adequate individualisation, needed for accurate diagnosis, requires models of far greater dimensionality than has been usual in the field. This necessity arises from the widely distributed causality of neural systems, a consequence of the fundamentally adaptive nature of their developmental and physiological mechanisms. <br />
* A proposal that, in the next quarter century, advances in “cartography” will result in progressively more accurate drafts of a data-led, multi-scale model of normal, abnormal and even adapting, whole human brain structure and function. These draft blueprints will result from analysis of large volumes of neuroscientific and clinical data, by an iterative process of reconstruction, modelling and simulation.<br />
}}</div>RichardFrackowiak