# Re-framing bio-plausible collision detection: identifying shared meta-properties through strategic prototyping

**Authors:** Haotian Wu, Shigang Yue, Cheng Hu

PMC · DOI: 10.3389/fnbot.2024.1349498 · 2024-01-25

## TL;DR

This paper explores how insect-inspired neural systems can improve robotic vision by identifying shared properties and proposing a flexible framework for better adaptability.

## Contribution

The paper introduces the Strategic Prototype, a modular framework capturing essential meta-properties of bio-inspired models for robotic vision.

## Key findings

- Common meta-properties in LGMD models include layered structures and computational strategies.
- The Strategic Prototype offers a flexible method for developing responsive robotic visual systems.
- The LGMD-UP framework could advance bio-inspired visual systems in robotics.

## Abstract

Insects exhibit remarkable abilities in navigating complex natural environments, whether it be evading predators, capturing prey, or seeking out con-specifics, all of which rely on their compact yet reliable neural systems. We explore the field of bio-inspired robotic vision systems, focusing on the locust inspired Lobula Giant Movement Detector (LGMD) models. The existing LGMD models are thoroughly evaluated, identifying their common meta-properties that are essential for their functionality. This article reveals a common framework, characterized by layered structures and computational strategies, which is crucial for enhancing the capability of bio-inspired models for diverse applications. The result of this analysis is the Strategic Prototype, which embodies the identified meta-properties. It represents a modular and more flexible method for developing more responsive and adaptable robotic visual systems. The perspective highlights the potential of the Strategic Prototype: LGMD-Universally Prototype (LGMD-UP), the key to re-framing LGMD models and advancing our understanding and implementation of bio-inspired visual systems in robotics. It might open up more flexible and adaptable avenues for research and practical applications.

## Full-text entities

- **Genes:** CAPN3 (calpain 3) [NCBI Gene 825] {aka CANP3, CANPL3, LGMD2, LGMD2A, LGMDD4, LGMDR1}, MYOT (myotilin) [NCBI Gene 9499] {aka LGMD1, LGMD1A, MFM3, TTID, TTOD}
- **Diseases:** LGMD-UP (MESH:C563594), LGMD (MESH:D005870)

## Figures

2 figures with captions in the complete paper: https://tomesphere.com/paper/PMC10850265/full.md

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Source: https://tomesphere.com/paper/PMC10850265