CycleIK: Neuro-inspired Inverse Kinematics

Jan-Gerrit Habekost , Erik Strahl , Philipp Allgeuer , Matthias Kerzel , Stefan Wermter

Artificial Neural Networks and Machine Learning – ICANN 2023 pages 457–470, doi: 10.1007/978-3-031-44207-0_38 - Sep 2023 Open Access

Associated documents :

The paper introduces CycleIK, a neuro-robotic approach that wraps two novel neuro-inspired methods for the inverse kinematics (IK) taska Generative Adversarial Network (GAN), and a Multi-Layer Perceptron architecture. These methods can be used in a standalone fashion, but we also show how embedding these into a hybrid neuro-genetic IK pipeline allows for further optimization via sequential least-squares programming (SLSQP) or a genetic algorithm (GA). The models are trained and tested on dense datasets that were collected from random robot configurations of the new Neuro-Inspired COLlaborator (NICOL), a semi-humanoid robot with two redundant 8-DoF manipulators. We utilize the weighted multi-objective function from the state-of-the-art BioIK method to support the training process and our hybrid neuro-genetic architecture. We show that the neural models can compete with state-of-the-art IK approaches, which allows for deployment directly to robotic hardware. Additionally, it is shown that the incorporation of the genetic algorithm improves the precision while simultaneously reducing the overall runtime.

@InProceedings{HSAKW23, 
 	 author =  {Habekost, Jan-Gerrit and Strahl, Erik and Allgeuer, Philipp and Kerzel, Matthias and Wermter, Stefan},  
 	 title = {CycleIK: Neuro-inspired Inverse Kinematics}, 
 	 booktitle = {Artificial Neural Networks and Machine Learning – ICANN 2023},
 	 journal = {},
 	 number = {},
 	 volume = {},
 	 pages = {457–470},
 	 year = {2023},
 	 month = {Sep},
 	 publisher = {},
 	 doi = {10.1007/978-3-031-44207-0_38}, 
 }