Ear-bot: Locust ear-on-a-chip bio-hybrid platform

Idan Fishel; Yoni Amit; Neta Shvil; Anton Sheinin; Amir Ayali; Yossi Yovel; Ben M. Maoz

doi:10.3390/s21010228

Ear-bot: Locust ear-on-a-chip bio-hybrid platform

Idan Fishel
, Yoni Amit
, Neta Shvil
, Anton Sheinin
, Amir Ayali
, Yossi Yovel
, Ben M. Maoz

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

During hundreds of millions of years of evolution, insects have evolved some of the most efficient and robust sensing organs, often far more sensitive than their man-made equivalents. In this study, we demonstrate a hybrid bio-technological approach, integrating a locust tympanic ear with a robotic platform. Using an Ear-on-a-Chip method, we manage to create a long-lasting miniature sensory device that operates as part of a bio-hybrid robot. The neural signals recorded from the ear in response to sound pulses, are processed and used to control the robot’s motion. This work is a proof of concept, demonstrating the use of biological ears for robotic sensing and control.

Original language	English
Article number	228
Pages (from-to)	1-11
Number of pages	11
Journal	Sensors (Switzerland)
Volume	21
Issue number	1
DOIs	https://doi.org/10.3390/s21010228
State	Published - 1 Jan 2021
Externally published	Yes

Keywords

Acoustic response
Bio-hybrid
Bio-robot
Ear-on-a-chip
Locust robot

ASJC Scopus subject areas

Analytical Chemistry
Information Systems
Atomic and Molecular Physics, and Optics
Biochemistry
Instrumentation
Electrical and Electronic Engineering

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10.3390/s21010228

Cite this

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title = "Ear-bot: Locust ear-on-a-chip bio-hybrid platform",

abstract = "During hundreds of millions of years of evolution, insects have evolved some of the most efficient and robust sensing organs, often far more sensitive than their man-made equivalents. In this study, we demonstrate a hybrid bio-technological approach, integrating a locust tympanic ear with a robotic platform. Using an Ear-on-a-Chip method, we manage to create a long-lasting miniature sensory device that operates as part of a bio-hybrid robot. The neural signals recorded from the ear in response to sound pulses, are processed and used to control the robot{\textquoteright}s motion. This work is a proof of concept, demonstrating the use of biological ears for robotic sensing and control.",

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T2 - Locust ear-on-a-chip bio-hybrid platform

AU - Fishel, Idan

AU - Amit, Yoni

AU - Shvil, Neta

AU - Sheinin, Anton

AU - Ayali, Amir

AU - Yovel, Yossi

AU - Maoz, Ben M.

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N2 - During hundreds of millions of years of evolution, insects have evolved some of the most efficient and robust sensing organs, often far more sensitive than their man-made equivalents. In this study, we demonstrate a hybrid bio-technological approach, integrating a locust tympanic ear with a robotic platform. Using an Ear-on-a-Chip method, we manage to create a long-lasting miniature sensory device that operates as part of a bio-hybrid robot. The neural signals recorded from the ear in response to sound pulses, are processed and used to control the robot’s motion. This work is a proof of concept, demonstrating the use of biological ears for robotic sensing and control.

AB - During hundreds of millions of years of evolution, insects have evolved some of the most efficient and robust sensing organs, often far more sensitive than their man-made equivalents. In this study, we demonstrate a hybrid bio-technological approach, integrating a locust tympanic ear with a robotic platform. Using an Ear-on-a-Chip method, we manage to create a long-lasting miniature sensory device that operates as part of a bio-hybrid robot. The neural signals recorded from the ear in response to sound pulses, are processed and used to control the robot’s motion. This work is a proof of concept, demonstrating the use of biological ears for robotic sensing and control.

KW - Acoustic response

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KW - Bio-robot

KW - Ear-on-a-chip

KW - Locust robot

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M3 - Article

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ER -

Ear-bot: Locust ear-on-a-chip bio-hybrid platform

Abstract

Keywords

ASJC Scopus subject areas

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