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Rapid Lightweight Firmware Architecture of the Mobile Metamaterial Internal Co-Integrator Robot

Damiana Catanoso, In Won Park, Taiwo Olatunde, Olivia Formoso, Greenfield Trinh, Christine Gregg, Elizabeth Taylor, Megan Ochalek, Kenneth Cheung

发表年份
2023
引用次数
2

摘要

The Mobile Metamaterial Internal Co-Integrator (MMIC-I) is a structure assembly and servicing robot for in-space servicing, assembly, and manufacturing of primary structures and infrastructure. MMIC-I is a battery-powered crawling robot that can travel through periodic structures such as trusses and open framework mechanical metamaterials. It does this through sequences of component extension, contraction, and gripping. This paper provides a detailed discussion of MMIC-I's lightweight and rapidly developed firmware ar-chitecture, to enable demonstration of robot locomotion, sec-ondary operations, and communications with a central com-mand source. The rationale for the lightweight rapid development approach is to allow for assessment of long term system requirements in parallel with the mechatronics development, including optimization of system and subsystem power densities, to inform a future choice of flight ready software frameworks. MMIC-I system computing and I/O requirements are much lower than what is provided by proven baseline computing hardware for existing flight ready software frameworks such as the core Flight System, F prime, and the Robot Operating System. Development of earth gravity ground demonstration of the robotic systems is greatly benefited by limited power and mass factors for computing hardware. Here, we implement inter-process communication, commanding, and telemetry with the Espressif ESP32 module running the Arduino OS.

关键词

FirmwareEmbedded systemRobotEngineeringMobile robotComputer scienceComputer hardware

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