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Autonomous Vehicle Constrained Path Planning Using Opal for Dynamic Networks.

, , , и . Australasian Conference on Artificial Intelligence, том 11320 из Lecture Notes in Computer Science, стр. 752-758. Springer, (2018)

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Autonomous Vehicle Constrained Path Planning Using Opal for Dynamic Networks., , , и . Australasian Conference on Artificial Intelligence, том 11320 из Lecture Notes in Computer Science, стр. 752-758. Springer, (2018)Analog-Domain Suppression of Strong Interference Using Hybrid Antenna Array., , , , , , и . Sensors, 22 (6): 2417 (2022)Beyond Line-of-Sight range extension with OPAL using autonomous unmanned aerial vehicles., , и . MILCOM, стр. 279-284. IEEE, (2017)Beyond line-of-sight range extension in contested environments with OPAL using autonomous unmanned aerial vehicles., , и . ITNAC, стр. 1-5. IEEE Computer Society, (2017)Nullification of Multiple Correlated Jammers., , , , и . VTC Fall, стр. 1-6. IEEE, (2021)Autonomous Range Extension using Opal in Obstructed Terrains., , , и . MilCIS, стр. 1-6. IEEE, (2018)Tactical line-of-sight MIMO communication system for contested networks., и . ITNAC, стр. 1-6. IEEE Computer Society, (2017)Range Extension Using Opal in Open Environments., , , и . ICSPCS, стр. 1-6. IEEE, (2018)Massive MIMO for Tactical Ad-hoc Networks in RF Contested Environments., , , , , , и . MILCOM, стр. 658-663. IEEE, (2019)Multi-user MIMO Communications with Interference Mitigation in Time-varying Channels., , , , , и . ICSPCS, стр. 1-7. IEEE, (2020)