BatDeck: Advancing Nano-drone Navigation with Low-power Ultrasound-based Obstacle Avoidance

arXiv - CS - Systems and Control Pub Date : 2024-03-25 DOI:arxiv-2403.16696

Hanna Müller, Victor Kartsch, Michele Magno, Luca Benini

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Abstract

Nano-drones, distinguished by their agility, minimal weight, and cost-effectiveness, are particularly well-suited for exploration in confined, cluttered and narrow spaces. Recognizing transparent, highly reflective or absorbing materials, such as glass and metallic surfaces is challenging, as classical sensors, such as cameras or laser rangers, often do not detect them. Inspired by bats, which can fly at high speeds in complete darkness with the help of ultrasound, this paper introduces \textit{BatDeck}, a pioneering sensor-deck employing a lightweight and low-power ultrasonic sensor for nano-drone autonomous navigation. This paper first provides insights about sensor characteristics, highlighting the influence of motor noise on the ultrasound readings, then it introduces the results of extensive experimental tests for obstacle avoidance (OA) in a diverse environment. Results show that \textit{BatDeck} allows exploration for a flight time of 8 minutes while covering 136m on average before crash in a challenging environment with transparent and reflective obstacles, proving the effectiveness of ultrasonic sensors for OA on nano-drones.

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BatDeck：利用基于超声波的低功耗避障技术推进纳米无人机导航

纳米无人机具有灵活、重量轻和成本效益高的特点，特别适合在狭窄、杂乱的空间进行探索。蝙蝠能在完全黑暗的环境中借助超声波高速飞行，受蝙蝠的启发，本文介绍了textit{BatDeck}，一种采用轻型低功耗超声波传感器的先锋传感器甲板，用于纳米无人机的自主导航。本文首先深入分析了传感器的特性，强调了电机噪声对超声波读数的影响，然后介绍了在不同环境下进行的大量避障（OA）实验测试结果。结果表明，textit{BatDeck}可以在具有挑战性的透明和反射障碍物环境中进行8分钟的探索飞行，同时在坠毁前平均飞行136米，证明了超声波传感器在纳米无人机上进行OA的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Systems and Control

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