DEQ-MCL: Discrete-Event Queue-based Monte-Carlo Localization

Add code
Apr 22, 2024
Akira Taniguchi, Ayako Fukawa, Hiroshi Yamakawa
Figure 1 for DEQ-MCL: Discrete-Event Queue-based Monte-Carlo Localization
Figure 2 for DEQ-MCL: Discrete-Event Queue-based Monte-Carlo Localization
Figure 3 for DEQ-MCL: Discrete-Event Queue-based Monte-Carlo Localization
Figure 4 for DEQ-MCL: Discrete-Event Queue-based Monte-Carlo Localization

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

Spatial cognition in hippocampal formation is posited to play a crucial role in the development of self-localization techniques for robots. In this paper, we propose a self-localization approach, DEQ-MCL, based on the discrete event queue hypothesis associated with phase precession within the hippocampal formation. Our method effectively estimates the posterior distribution of states, encompassing both past, present, and future states that are organized as a queue. This approach enables the smoothing of the posterior distribution of past states using current observations and the weighting of the joint distribution by considering the feasibility of future states. Our findings indicate that the proposed method holds promise for augmenting self-localization performance in indoor environments.

* Accepted by AROB-ISBC-SWARM 2024  
View paper onarxiv icon

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon