评估嵌入式系统上的资源节约型弹坑探测器

arXiv - CS - Performance Pub Date : 2024-05-27 DOI:arxiv-2405.16953

Simon Vellas, Bill Psomas, Kalliopi Karadima, Dimitrios Danopoulos, Alexandros Paterakis, George Lentaris, Dimitrios Soudris, Konstantinos Karantzalos

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引用次数: 0

摘要

对火星陨石坑的实时分析对于包括安全着陆和地质勘探在内的关键任务操作至关重要。这项工作利用了最新的突破，在航天器上进行陨石坑边缘探测。我们使用火星陨石坑数据集对几个 YOLO 网络进行了严格的基准测试，分析了它们在嵌入式系统上的性能，重点是针对低功耗设备进行优化。我们针对新一轮低成本、基于商用现货的小型卫星对这一过程进行了优化。我们对不同平台（包括 Google Coral Edge TPU、AMDVersal SoC VCK190、Nvidia Jetson Nano 和 Jetson AGX Orin）上的实现进行了详细的权衡分析。我们的研究结果确定了最佳的网络-设备配对，提高了在资源有限的硬件上进行陨石坑探测的可行性，为高效、弹性的地外成像开创了新的先例。代码见：https://github.com/billpsomas/mars_crater_detection。

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Evaluation of Resource-Efficient Crater Detectors on Embedded Systems

Real-time analysis of Martian craters is crucial for mission-critical operations, including safe landings and geological exploration. This work leverages the latest breakthroughs for on-the-edge crater detection aboard spacecraft. We rigorously benchmark several YOLO networks using a Mars craters dataset, analyzing their performance on embedded systems with a focus on optimization for low-power devices. We optimize this process for a new wave of cost-effective, commercial-off-the-shelf-based smaller satellites. Implementations on diverse platforms, including Google Coral Edge TPU, AMD Versal SoC VCK190, Nvidia Jetson Nano and Jetson AGX Orin, undergo a detailed trade-off analysis. Our findings identify optimal network-device pairings, enhancing the feasibility of crater detection on resource-constrained hardware and setting a new precedent for efficient and resilient extraterrestrial imaging. Code at: https://github.com/billpsomas/mars_crater_detection.

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arXiv - CS - Performance

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