English

Extending Feynman's Formalisms for Modelling Human Joint Action Coordination

Adaptation and Self-Organizing Systems 2009-07-01 v1
Authors: Vladimir G. Ivancevic , Eugene V. Aidman , Leong Yen
View on arXiv PDF

Abstract

The recently developed Life-Space-Foam approach to goal-directed human action deals with individual actor dynamics. This paper applies the model to characterize the dynamics of co-action by two or more actors. This dynamics is modelled by: (i) a two-term joint action (including cognitive/motivatonal potential and kinetic energy), and (ii) its associated adaptive path integral, representing an infinite--dimensional neural network. Its feedback adaptation loop has been derived from Bernstein's concepts of sensory corrections loop in human motor control and Brooks' subsumption architectures in robotics. Potential applications of the proposed model in human--robot interaction research are discussed. Keywords: Psycho--physics, human joint action, path integrals

Cite

@article{arxiv.0906.5413,
  title  = {Extending Feynman's Formalisms for Modelling Human Joint Action Coordination},
  author = {Vladimir G. Ivancevic and Eugene V. Aidman and Leong Yen},
  journal= {arXiv preprint arXiv:0906.5413},
  year   = {2009}
}

Comments

6 pages, Latex

Related papers

View all related →
Neurons and Cognition · Quantitative Biology
Phase Transitions, Chaos and Joint Action in the Life Space Foam
Vladimir Ivancevic, Eugene Aidman, Leong Yen, Darryn Reid
2008-06-05
Neurons and Cognition · Quantitative Biology
Life-Space Foam: a Medium for Motivational and Cognitive Dynamics
Vladimir G. Ivancevic, Eugene V. Aidman
2009-11-13
Robotics · Computer Science
Integrating Flow Theory and Adaptive Robot Roles: A Conceptual Model of Dynamic Robot Role Adaptation for the Enhanced Flow Experience in Long-term Multi-person Human-Robot Interactions
Huili Chen, Sharifa Alghowinem, Cynthia Breazeal, Hae Won Park
2024-01-08
Multiagent Systems · Computer Science
Modeling Cyber-Physical Human Systems via an Interplay Between Reinforcement Learning and Game Theory
Mert Albaba, Yildiray Yildiz
2019-10-14
Artificial Intelligence · Computer Science
Understanding Human Actions through the Lens of Executable Models
Rimvydas Rubavicius, Manisha Dubey, N. Siddharth, Subramanian Ramamoorthy
2026-04-21
Robotics · Computer Science
Planning Human-Robot Co-manipulation with Human Motor Control Objectives and Multi-component Reaching Strategies
Kevin Haninger, Luka Peternel
2026-02-17
Computer Vision and Pattern Recognition · Computer Science
Persistent-Transient Duality: A Multi-mechanism Approach for Modeling Human-Object Interaction
Hung Tran, Vuong Le, Svetha Venkatesh, Truyen Tran
2023-07-25
Multiagent Systems · Computer Science
(Mis)align: A Simple Dynamic Framework for Modeling Interpersonal Coordination
Grace Qiyuan Miao, Rick Dale, Alexia Galati
2023-08-31
Robotics · Computer Science
Human-Robot Mutual Adaptation in Shared Autonomy
Stefanos Nikolaidis, Yu Xiang Zhu, David Hsu, Siddhartha Srinivasa
2017-06-15
Robotics · Computer Science
AToM: Adaptive Theory-of-Mind-Based Human Motion Prediction in Long-Term Human-Robot Interactions
Yuwen Liao, Muqing Cao, Xinhang Xu, Lihua Xie
2025-02-13
Robotics · Computer Science
Learning Task Skills and Goals Simultaneously from Physical Interaction
Haonan Chen, Ye-Ji Mun, Zhe Huang, Yilong Niu +3
2023-09-12
Graphics · Computer Science
Synthesis of Biologically Realistic Human Motion Using Joint Torque Actuation
Yifeng Jiang, Tom Van Wouwe, Friedl De Groote, C. Karen Liu
2019-08-23
Robotics · Computer Science
A Network-Based Framework for Modeling and Analyzing Human-Robot Coordination Strategies
Martijn IJtsma, Salvatore Hargis
2025-12-18
Robotics · Computer Science
Biomechanically consistent real-time action recognition for human-robot interaction
Wanchen Li, Kahina Chalabi, Sabbah Maxime, Thomas Bousquet +4
2025-10-22
Computer Vision and Pattern Recognition · Computer Science
Towards Immersive Human-X Interaction: A Real-Time Framework for Physically Plausible Motion Synthesis
Kaiyang Ji, Ye Shi, Zichen Jin, Kangyi Chen +4
2025-08-05
Adaptation and Self-Organizing Systems · Physics
Nonlinear Quantum Neuro-Psycho-Dynamics with Topological Phase Transitions
Vladimir G. Ivancevic, Tijana T. Ivancevic
2008-07-25
Robotics · Computer Science
Collaborative Bimanual Manipulation Using Optimal Motion Adaptation and Interaction Control
Ruoshi Wen, Quentin Rouxel, Michael Mistry, Zhibin Li +1
2023-07-19
Robotics · Computer Science
Game-Theoretic Modeling of Human Adaptation in Human-Robot Collaboration
Stefanos Nikolaidis, Swaprava Nath, Ariel D. Procaccia, Siddhartha Srinivasa
2017-06-15
Artificial Intelligence · Computer Science
Towards Human Engagement with Realistic AI Combat Pilots
Ardian Selmonaj, Giacomo Del Rio, Adrian Schneider, Alessandro Antonucci
2025-10-01
Robotics · Computer Science
Multi-Cycle Spatio-Temporal Adaptation in Human-Robot Teaming
Alex Cuellar, Michael Hagenow, Julie Shah
2026-04-22
Robotics · Computer Science
Generative Modeling of Multimodal Multi-Human Behavior
Boris Ivanovic, Edward Schmerling, Karen Leung, Marco Pavone
2018-07-27
Human-Computer Interaction · Computer Science
Modeling multi-agent motion dynamics in immersive rooms
Jerry M. Huang, Stefan T. Radev
2025-12-22
Robotics · Computer Science
Goal Inference Improves Objective and Perceived Performance in Human-Robot Collaboration
Chang Liu, Jessica B. Hamrick, Jaime F. Fisac, Anca D. Dragan +3
2018-02-07
Systems and Control · Electrical Eng. & Systems
Human as an Actuator Dynamic Model Identification
Harrison M. Bonner, Matthew R. Kirchner
2026-01-14
Robotics · Computer Science
A Multimodal Framework for Human-Multi-Agent Interaction
Shaid Hasan, Breenice Lee, Sujan Sarker, Tariq Iqbal
2026-03-25
R2 v1 2026-06-21T13:19:15.064Z