Protector Design and Shock Analysis for a Launch-Reconnaissance Robot

서 론자원분쟁Abstract: This paper presents the development of a fracture-type protector for carrying a reconnaissance robot to a remote target area. Instead of a conventional unlocking mechanism, a separation method based on the fracture of assembled parts was implemented in the proposed lightweight protector in order to improve the feasibility for a real battlefield. Simulations using the finite element model of the protector and the robot were performed to verify the fracture under the given loading conditions, and shock experiments using a drop table were performed to calculate shock transmittance through the protector to the robot. Several field tests for a 100-m flight proved that the proposed scenario (launching, flying, landing, and separation) was achieved successfully.

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Protector Design and Shock Analysis for a Launch-Reconnaissance Robot

Cited by 2 publications

References 9 publications

Gaussian Kernel Smoothing of Explicit Transient Responses for Drop-Impact Analysis

Gaussian Kernel Smoothing of Explicit Transient Responses for Drop-Impact Analysis

Development of Fracture-Type Protector for a Launching Reconnaissance Robot

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