Print Email Facebook Twitter Simulating Disturbances in Tactile Internet to Study Desynchronization Title Simulating Disturbances in Tactile Internet to Study Desynchronization Author Van Acoleyen, Neil (TU Delft Electrical Engineering, Mathematics and Computer Science; TU Delft Embedded and Networked Systems) Contributor Kroep, H.J.C. (mentor) Venkatesha Prasad, R.R. (mentor) Roos, S. (graduation committee) Degree granting institution Delft University of Technology Programme Computer Science and Engineering Project CSE3000 Research Project Date 2022-06-23 Abstract As technology evolves, transmission speeds become faster. Tactile Internet requires ultra-low-latency (ULL) communications to further immerse humans in a remote environment by transmitting movement and force feedback, allowing them to interact with that environment in real-time. However, no transmission speed can be fast enough to support the "1 ms challenge" over long distances due to light speed limitations. A system with over 1ms of delay will feel unnatural to the user and cause "cyber-sickness". A novelty solution solves this by simulating the remote environment locally using point clouds. The system is then able to compute the force feedback immediately. This paper focuses on the desynchronization between simulation and reality that can build up due to disturbances. A framework for testing and observing desync caused by controlled disturbances is built for this purpose. The framework can also be used to test possible solutions to this issue. 1-dimensional simulations show that divergence happens slowly for friction and mass mismatches, providing a time frame during which it can be corrected. 2-dimensional simulations presented non-deterministic results, limiting the observations. Subject Tactile InternetDesynchronisationSimulation To reference this document use: http://resolver.tudelft.nl/uuid:8da182b9-d463-42cb-86d7-a0f678c406b6 Part of collection Student theses Document type bachelor thesis Rights © 2022 Neil Van Acoleyen Files PDF N_Van_Acoleyen_Research_Paper.pdf 33.06 MB Close viewer /islandora/object/uuid:8da182b9-d463-42cb-86d7-a0f678c406b6/datastream/OBJ/view