AI Article Synopsis
- Autonomous vehicles need accurate self-localization for navigation in changing environments, which is addressed by visual place recognition (VPR) that identifies locations despite visual differences.
- The paper introduces the Log-Polar Max-Pi (LPMP) model, a bio-inspired neural network that processes visual data through separate pathways to create a unique visuospatial code for locations.
- Three key contributions include comparing LPMP with other VPR models, proposing a benchmarking test for evaluation, and analyzing how different detection methods affect localization performance.
Article Abstract
Autonomous vehicles require precise and reliable self-localization to cope with dynamic environments. The field of visual place recognition (VPR) aims to solve this challenge by relying on the visual modality to recognize a place despite changes in the appearance of the perceived visual scene. In this paper, we propose to tackle the VPR problem following a neuro-cybernetic approach. To this end, the Log-Polar Max-Pi (LPMP) model is introduced. This bio-inspired neural network allows building a neural representation of the environment an unsupervised one-shot learning. Inspired by the spatial cognition of mammals, visual information in the LPMP model are processed through two distinct pathways: a "what" pathway that extracts and learns the local visual signatures (landmarks) of a visual scene and a "where" pathway that computes their azimuth. These two pieces of information are then merged to build a visuospatial code that is characteristic of the place where the visual scene was perceived. Three main contributions are presented in this article: 1) the LPMP model is studied and compared with NetVLAD and CoHog, two state-of-the-art VPR models; 2) a test benchmark for the evaluation of VPR models according to the type of environment traveled is proposed based on the ; and 3) the impact of the use of a novel detector leading to an uneven paving of an environment is evaluated in terms of the localization performance and compared to a regular paving. Our experiments show that the LPMP model can achieve comparable or better localization performance than NetVLAD and CoHog.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8855039 | PMC |
| http://dx.doi.org/10.3389/frobt.2021.703811 | DOI Listing |
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