Litcius/Paper detail

SPiDR

Yang Bai, Nakul Garg, Nirupam Roy

202231 citationsDOI

Abstract

This paper presents the design and implementation of SPiDR, an ultra-low-power spatial sensing system for miniature mobile robots. This acoustic sensor produces a cross-sectional map of the field-of-view using only one speaker/microphone pair. While it is challenging to have enough spatial diversity of signal with a single omnidirectional source, we leverage sound's interaction with small structures to create a 3D-printed passive filter, called a stencil, that can project spatially coded signals on a region at a fine granularity. The system receives a linear combination of the reflections from nearby objects and applies a novel power-aware depth-map reconstruction algorithm. The algorithm first estimates the approximate locations of the objects in the scene and then iteratively applies fractional multi-resolution inversion. SPiDR consumes only 10mW of power to generate a depth-map in real-world scenario with over 80% structural similarity score with the scene.

Topics & Concepts

Computer scienceOmnidirectional antennaLeverage (statistics)Microphone arrayStencilComputer visionGranularityMobile robotArtificial intelligenceMicrophoneRobotTelecommunicationsComputational scienceSound pressureOperating systemAntenna (radio)Speech and Audio ProcessingIndoor and Outdoor Localization TechnologiesUnderwater Vehicles and Communication Systems
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