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Implementation of Different Muscle Models and their Neural Control in a Virtual Experiment Using Unity3D

Implementation of Different Muscle Models and their Neural Control in a Virtual Experiment Using Unity3D

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Implementation of Different Muscle Models and their Neural Control in a Virtual Experiment Using Unity3D

Cynthia Adamma Kodjo

Science / Life Sciences / Biophysics

The relationship between the structure of the nervous system and resulting behavior is a central question in neuroscience. This book investigates this relationship using the model organism Caenorhabditis elegans and translates it into a physically based real-time simulation framework. The work focuses on the development and implementation of a performant muscle model within the Unity3D environment, aimed at capturing the coupling between neuronal activity and biomechanical motion. The simulation includes procedural generation of nematode geometry and real-time muscle activation implemented in C#. Its behavior is evaluated using key biomechanical measures such as force–length and force–velocity relationships as well as temporal response characteristics and compared to theoretical reference models. Results show that the model reproduces essential features of muscular contraction under neuronal stimulation in real time, while also highlighting limitations—particularly regarding viscous effects. Overall, the work demonstrates the potential of real-time neuromechanical simulation and outlines directions toward a more complete model of C. elegans behavior.

Cynthia Adamma Kodjo is a doctoral candidate at the Institute for Clinical Neuroscience and Medical Psychology at Heinrich Heine University Düsseldorf (HHU) and the University Hospital Düsseldorf (UKD). Her research focuses on investigating the motor and cognitive symptoms of Parkinson’s disease and their neurophysiological basis. She earned her master’s degree in medical physics from HHU in 2025.


Publication Date: 20 December 2026
Publisher: Springer Fachmedien Wiesbaden
Imprint: Springer Spektrum
ISBN-13: 9783658527020
Format: Paperback / softback

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