Abstract
An analytical model for tethered high altitude platform (HAP) systems, that handle voice, video, and data traffic, is presented in this work. The Markovian arrival process (MAP) is used to depict the arrival of traffic due to the burstiness and self-similar properties of the incoming traffic. Guard channel policy has been employed for the prioritization of the higher priority traffic. If the incoming traffic is blocked due to the lack of idle channel, it will retry for the service after some random amount of time. Phase-type (PH) distributions with distinct parameters have been employed for the representation of the service and retrial processes. The suggested model’s behaviour is represented by the level-dependent quasi-birth-death \({(L\!D\!Q\!B\!D)}\) process. Expressions for some significant performance measures are derived. Additionally, queueing examples are offered, which can be acquired as the special cases of the suggested analytical model.
The publication has been prepared with the support of DST-RSF research project no. 22-49-02023 (RSF) and research project no. 64800 (DST).
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Selvamuthu, D., Jain, V., Raj, R. (2022). Performance Analysis for Tethered HAP Systems: An Analytical Approach. In: Vishnevskiy, V.M., Samouylov, K.E., Kozyrev, D.V. (eds) Distributed Computer and Communication Networks: Control, Computation, Communications. DCCN 2022. Lecture Notes in Computer Science, vol 13766 . Springer, Cham. https://doi.org/10.1007/978-3-031-23207-7_16
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