Chip design requirements for building a comprehensive low altitude flight safety protection system
Feifei Zhang
Hangzhou Shengyuan Data Security Technology Co., Ltd
Linying Cai
Hangzhou Shengyuan Data Security Technology Co., Ltd.
DOI: https://doi.org/10.59429/esta.v12i1.9660
Keywords: Low altitude flight; Security protection; Chip design requirements
Abstract
With the rapid advancement of drone and low altitude aircraft technology, it is particularly important to establish a comprehensive low altitude flight safety guarantee system. The article focuses on the key requirements of chip design in this context, aiming to improve the safety, reliability, and efficiency of flight. Firstly, the current technological challenges were analyzed, including high-precision positioning and navigation, real-time data processing capabilities, low energy consumption, and security guarantees. To address these issues, requirements are proposed in terms of hardware to improve integration, optimize signal processing units, and power management strategies; At the software level, the importance of developing lightweight operating systems and optimizing algorithms is emphasized. By comprehensively considering these factors, specific suggestions are provided for the design of low altitude aircraft chips, aiming to promote the industry’s development towards a safer and more efficient direction.
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