Difference between revisions of "SOCR News APS GDS April 2024"
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The [https://meetings.aps.org annual American Physical Society's April Meetings] are scientific research conferences convening over 6,000 physicists and students from around the globe to connect and collaborate across academia, industry, and major labs. The [https://april.aps.org/ 2024 APS April meeting] will celebrate the 125th anniversary of APS. | The [https://meetings.aps.org annual American Physical Society's April Meetings] are scientific research conferences convening over 6,000 physicists and students from around the globe to connect and collaborate across academia, industry, and major labs. The [https://april.aps.org/ 2024 APS April meeting] will celebrate the 125th anniversary of APS. | ||
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==Session: V: ''Data Science and AI/ML in Physics''== | ==Session: V: ''Data Science and AI/ML in Physics''== | ||
[[Image:APS_April_AnnualMeetingLogo.png|300px|thumbnail|right| [https://april.aps.org/schedule APS April 2024 Meeting] ]] | [[Image:APS_April_AnnualMeetingLogo.png|300px|thumbnail|right| [https://april.aps.org/schedule APS April 2024 Meeting] ]] | ||
| − | * '''Date/Time''': ''April 4 2024 | + | * '''Date/Time''': ''April 4 2024 5:30 am - 7:30 am'' [https://time.is/PT US PT] |
| − | * '''Venue''': (Virtual Zoom Session), | + | * '''Venue''': (Virtual Zoom Session), [https://safecreditunionconventioncenter.com/ SAFE Credit Union Convention Center], '''Virtual Room 03'''. |
* '''Registration''': [https://april.aps.org/registration Meeting Registration is required]. | * '''Registration''': [https://april.aps.org/registration Meeting Registration is required]. | ||
* '''Conference''': [https://april.aps.org/about April2024 APS Annual Conference]. | * '''Conference''': [https://april.aps.org/about April2024 APS Annual Conference]. | ||
| − | * [https://april.aps.org/attendees-presenters/abstracts '''Abstract Submission'''] | + | * [https://april.aps.org/attendees-presenters/abstracts '''Abstract Submission''']. |
| + | * '''Session''': [https://meetings.aps.org/Meeting/APR24/Session/DD03 APS/GDS: Data Science and AI/ML in Physics]. | ||
| + | * '''Title''': [https://meetings.aps.org/Meeting/APR24/Session/DD03.2 (DD03) Complex-time Representation of Repeated Measurement Longitudinal Data and Space-kime Analytics] | ||
==Talk== | ==Talk== | ||
| − | * Title: (DD03) | + | * ''Title'': (DD03) [https://meetings.aps.org/Meeting/APR24/Session/DD03.2 Complex-time Representation of Repeated Measurement Longitudinal Data and Space-kime Analytics] |
| − | + | * ''Presenter'': [https://www.socr.umich.edu/people/dinov/ Ivo D. Dinov (University of Michigan)] | |
| − | + | * ''Co-author'': [https://www.socr.umich.edu/people/SOCR_Personnel_Yueyang.html Yueyang Shen (University of Michigan)] | |
| + | * ''Abstract'': This presentation will describe the novel complex-time (kime) representation of repeated measurement longitudinal data and introduce space-kime artificial intelligence (AI) techniques. By translating fundamental quantum mechanics principles into statistical inference models of time-varying processes, we generalize the classical 4D spatiotemporal sampling to a 5D space-kime manifold, where the phase of complex-time encodes repeated random drawings at fixed spatiotemporal locations. Many AI applications and statistical inference techniques involving temporal data can be formulated in a Bayesian space-kime analytics framework. We explore alternative strategies for translating time-series observations into kime-surfaces, which are richer, computationally tractable, objects amenable to tensor-based linear modeling and model-free inference. Simulated and observed neuroimaging and macroeconomics data will be used to demonstrate space-kime analytics. We will discuss space-kime analytic duality between theoretical model inference, based on generalized functions (distributions), and experimental data inference, based on replicated finite samples as proxy measures of the underlying probability distributions. Several theoretical, experimental, computational, and data-analytic open problems will be presented. | ||
==Resources== | ==Resources== | ||
| − | * ... | + | * [https://wiki.socr.umich.edu/images/d/dd/Dinov_Spacekime_APS_April_2024_Slidedeck.pdf Spacekime APS April 2024 Slidedeck]. |
<hr> | <hr> | ||
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Latest revision as of 16:18, 14 March 2024
Contents
SOCR News & Events: April 2024 APS Meeting: Complex-time Representation of Repeated Measurement Longitudinal Data and Space-kime Analytics
Annual APS April Meeting
The annual American Physical Society's April Meetings are scientific research conferences convening over 6,000 physicists and students from around the globe to connect and collaborate across academia, industry, and major labs. The 2024 APS April meeting will celebrate the 125th anniversary of APS.
Session: V: Data Science and AI/ML in Physics
- Date/Time: April 4 2024 5:30 am - 7:30 am US PT
- Venue: (Virtual Zoom Session), SAFE Credit Union Convention Center, Virtual Room 03.
- Registration: Meeting Registration is required.
- Conference: April2024 APS Annual Conference.
- Abstract Submission.
- Session: APS/GDS: Data Science and AI/ML in Physics.
- Title: (DD03) Complex-time Representation of Repeated Measurement Longitudinal Data and Space-kime Analytics
Talk
- Title: (DD03) Complex-time Representation of Repeated Measurement Longitudinal Data and Space-kime Analytics
- Presenter: Ivo D. Dinov (University of Michigan)
- Co-author: Yueyang Shen (University of Michigan)
- Abstract: This presentation will describe the novel complex-time (kime) representation of repeated measurement longitudinal data and introduce space-kime artificial intelligence (AI) techniques. By translating fundamental quantum mechanics principles into statistical inference models of time-varying processes, we generalize the classical 4D spatiotemporal sampling to a 5D space-kime manifold, where the phase of complex-time encodes repeated random drawings at fixed spatiotemporal locations. Many AI applications and statistical inference techniques involving temporal data can be formulated in a Bayesian space-kime analytics framework. We explore alternative strategies for translating time-series observations into kime-surfaces, which are richer, computationally tractable, objects amenable to tensor-based linear modeling and model-free inference. Simulated and observed neuroimaging and macroeconomics data will be used to demonstrate space-kime analytics. We will discuss space-kime analytic duality between theoretical model inference, based on generalized functions (distributions), and experimental data inference, based on replicated finite samples as proxy measures of the underlying probability distributions. Several theoretical, experimental, computational, and data-analytic open problems will be presented.
Resources
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