On resource pooling technology of highly integrated onboard equipment

Zhou Tian; Yandong Qiu; Wei Ma; Yan Liu; Pengxiang Qin; Yifan Zhang

doi:10.1117/12.2617469

15 February 2022 On resource pooling technology of highly integrated onboard equipment

Zhou Tian, Yandong Qiu, Wei Ma, Yan Liu, Pengxiang Qin, Yifan Zhang

Proceedings Volume 12166, Seventh Asia Pacific Conference on Optics Manufacture and 2021 International Forum of Young Scientists on Advanced Optical Manufacturing (APCOM and YSAOM 2021); 1216655 (2022) https://doi.org/10.1117/12.2617469
Event: Seventh Asia Pacific Conference on Optics Manufacture and 2021 International Forum of Young Scientists on Advanced Optical Manufacturing (APCOM and YSAOM 2021), 2021, Hong Kong, Hong Kong

Abstract

Network function virtualization technology provides the advantages of resource integration and flexible deployment for communication system, which has been widely used in ground equipment. With the demand of high reliability, intelligence and low cost for onboard integrated equipment becoming more and more urgent, onboard equipment puts forward new requirement for network function virtualization technology. The existing customized onboard equipment has a series of problems, such as poor universality, resource redundancy and high cost. In order to solve these problems, this paper proposes a resource pooling architecture based on high integration. This architecture can effectively improve the universality of onboard equipment. Through intelligent load management, this architecture can achieve flexible allocated, improve resource utilization rate and the reliability of system can be improved. The architecture has great practical value and theoretical significance for the future planning and development of onboard equipment.

Citation Download Citation

Zhou Tian, Yandong Qiu, Wei Ma, Yan Liu, Pengxiang Qin, and Yifan Zhang "On resource pooling technology of highly integrated onboard equipment", Proc. SPIE 12166, Seventh Asia Pacific Conference on Optics Manufacture and 2021 International Forum of Young Scientists on Advanced Optical Manufacturing (APCOM and YSAOM 2021), 1216655 (15 February 2022); https://doi.org/10.1117/12.2617469

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KEYWORDS

Network architectures

Reliability

Satellites

Telecommunications

Digital signal processing

Satellite communications

Demodulation

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