Low-earth Orbit Satellite Network Optimization and Statistical Qubit Freezing on Quantum Annealer

被引:0
|
作者
Lee, Jeung Rac [1 ]
Lee, Yunheon [1 ]
Han, Dongsu [1 ]
Kim, Changjun [2 ]
Choi, Bo Hyun [2 ]
Rhee, June-Koo Kevin [1 ]
机构
[1] Korea Adv Inst Sci & Technol, Sch Elect Engn, Daejeon, South Korea
[2] LG Uplus, Adv Network Technol Unit, Seoul, South Korea
来源
ICC 2023-IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS | 2023年
基金
新加坡国家研究基金会;
关键词
Network Optimization; Quantum Annealing;
D O I
10.1109/ICC45041.2023.10278942
中图分类号
TN [电子技术、通信技术];
学科分类号
0809 ;
摘要
Recent studies have shown promising results indicating the potential of Noisy Intermediate Scale Quantum (NISQ) devices. In this work, Low-earth Orbit (LEO) satellite network design problem is formulated as a Quadratic Unconstrained Binary Optimization (QUBO) problem, and Quantum Annealing (QA) is utilized to solve the resulting problem with real world setting. Compare to classical approaches, the experimental results indicate improvements in terms of network path length and number of satellite hops in network path that amount to network latency. Further, an iterative post-processing method, Statistical Qubit Freezing (SQF), which freezes initial states of qubits and reduces the size of the problem in each annealing cycle, is proposed and evaluated. Solution found with SQF indicates that SQF in fact allows the system to reach lower energy state.
引用
收藏
页码:3432 / 3437
页数:6
相关论文
共 50 条
  • [41] Generating Low-Earth Orbit Satellite Attitude Maneuver Profiles Using Deep Neural Networks
    Yun, Seok-Teak
    SENSORS, 2023, 23 (10)
  • [42] An automated fiber puller for use in low-earth orbit
    Tucker, DS
    Williams, P
    Tobbe, P
    XIIITH INTERNATIONAL SYMPOSIUM ON NON-OXIDE GLASSES AND NEW OPTICAL GLASSES PTS 1 AND 2, 2002, : 708 - 709
  • [43] Direct data distribution from low-Earth orbit
    Budinger, JM
    Fujikawa, G
    Kunath, RR
    Nguyen, NT
    Romanofsky, RR
    Spence, RL
    ICC'97: 1997 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS - TOWARDS THE KNOWLEDGE MILLENNIUM, CONFERENCE RECORD - VOLS 1-3, 1997, : 662 - 673
  • [44] Magnetically levitated space elevator to low-earth orbit
    Hull, JR
    Mulcahy, TM
    Niemann, RC
    ADVANCES IN CRYOGENIC ENGINEERING, VOL 47, PTS A AND B, 2002, 613 : 1711 - 1718
  • [45] Radiation protection guidance for activities in low-Earth orbit
    Townsend, LW
    Fry, RJM
    SPACE LIFE SCIENCES: BIOLOGICAL RESEARCH AND SPACE RADIATION, 2002, 30 (04): : 957 - 963
  • [46] First Flight-Testing of LoRa Modulation in Satellite Radio Communications in Low-Earth Orbit
    Zadorozhny, Alexander M.
    Doroshkin, Alexander A.
    Gorev, Vasily N.
    Melkov, Alexander, V
    Mitrokhin, Anton A.
    Prokopyev, Vitaliy Yu
    Prokopyev, Yuri M.
    IEEE ACCESS, 2022, 10 : 100006 - 100023
  • [47] Dynamics and Control System Design of a Polar Low-Earth Orbit Nano-Satellite 'Parikshit'
    Rakesh, Raunaq
    Kamal, Smit
    Pereira, Carina
    Saxena, Naman
    Ravula, Revathi
    Haider, Faraz
    Mayya, Siddhath
    Potty, Karun
    2015 INTERNATIONAL CONFERENCE ON ADVANCES IN COMPUTING, COMMUNICATIONS AND INFORMATICS (ICACCI), 2015, : 607 - 613
  • [48] One-Shot Initial Orbit Determination in Low-Earth Orbit
    Ferreira, Ricardo
    Guimaraes, Marta
    Valdeira, Filipa
    Soares, Claudia
    2024 IEEE AEROSPACE CONFERENCE, 2024,
  • [49] Mechanism, Ensuing Dynamics and Control of a Polar Low-Earth Orbit Tethered Nano-satellite
    Rakesh, Raunaq
    Mayya, Siddharth
    Pereira, Carina
    Saxena, Naman
    Haider, Faraz
    Kamal, Smit
    Palta, Aditya
    Ravula, Revathi
    Potty, Karun
    2015 IEEE AEROSPACE CONFERENCE, 2015,
  • [50] Parameters of traveling ionospheric disturbances estimated from satellite beacon observations in low-earth orbit
    Fedorenko, Yu. P.
    Tyrnov, O. F.
    Fedorenko, V. N.
    GEOMAGNETISM AND AERONOMY, 2010, 50 (04) : 489 - 503
12345