Latency Minimization in Terrestrial-Non-Terrestrial Integrated Network: Joint Association and Bandwidth Allocation Framework

Nway Nway Ei; Kitae Kim; Yu Min Park; Choong Seon Hong

Latency Minimization in Terrestrial-Non-Terrestrial Integrated Network: Joint Association and Bandwidth Allocation Framework

Nway Nway Ei, Kitae Kim, Yu Min Park, Choong Seon Hong

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

Abstract

Integrated terrestrial-non-terrestrial network (T-NTIN) has recently gained much attention owing to its wide service area, seamless connectivity and high network throughput. The non-terrestrial network comprising the low earth orbit (LEO) satellites can complement the terrestrial network when the terrestrial base stations are partially damaged or the network demand is overloaded. In this work, we study an integrated terrestrial-non-terrestrial network in which the aerial users (AUs) are served by the terrestrial base stations (TBs) or LEO satellite in the downlink. For the energy-constrained AUs, it is crucial to successfully receive the data service from either one of TBSs or LEO satellite in a short time so that their flying or hovering energy is saved. Here, each TBS is assumed to have the existing associated terrestrial users (TUs). Therefore, it is challenging to determine how to allocate the communication resources of the TBSs to the associating TUs and AUs without sacrificing the QoS of the existing TUs. To tackle these challenging problems, we propose a joint association and bandwidth allocation framework to minimize the total latency of the AUs with the consideration of the TBS’s communication resource limitation, LEO satellite’s backhaul capacity, and the QoS requirement of the existing terrestrial users (TUs). The evaluation results are conducted to verify the superior performance of the proposed framework.

Original language	English
Title of host publication	APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium
Subtitle of host publication	Intelligent Management for Enabling the Digital Transformation
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	143-147
Number of pages	5
ISBN (Electronic)	9788995004395
Publication status	Published - 2023
Event	24th Asia-Pacific Network Operations and Management Symposium, APNOMS 2023 - Sejong, Korea, Republic of Duration: 6 Sept 2023 → 8 Sept 2023

Publication series

Name	APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation

Conference

Conference	24th Asia-Pacific Network Operations and Management Symposium, APNOMS 2023
Country/Territory	Korea, Republic of
City	Sejong
Period	6/09/23 → 8/09/23

Bibliographical note

Publisher Copyright:
Copyright 2023 KICS.

Keywords

aerial users
low earth orbit satellite
terrestrial-non-terrestrial integrated network

Cite this

Ei, N. N., Kim, K., Park, Y. M., & Hong, C. S. (2023). Latency Minimization in Terrestrial-Non-Terrestrial Integrated Network: Joint Association and Bandwidth Allocation Framework. In APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation (pp. 143-147). (APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation). Institute of Electrical and Electronics Engineers Inc..

Ei, Nway Nway ; Kim, Kitae ; Park, Yu Min et al. / Latency Minimization in Terrestrial-Non-Terrestrial Integrated Network : Joint Association and Bandwidth Allocation Framework. APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation. Institute of Electrical and Electronics Engineers Inc., 2023. pp. 143-147 (APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation).

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abstract = "Integrated terrestrial-non-terrestrial network (T-NTIN) has recently gained much attention owing to its wide service area, seamless connectivity and high network throughput. The non-terrestrial network comprising the low earth orbit (LEO) satellites can complement the terrestrial network when the terrestrial base stations are partially damaged or the network demand is overloaded. In this work, we study an integrated terrestrial-non-terrestrial network in which the aerial users (AUs) are served by the terrestrial base stations (TBs) or LEO satellite in the downlink. For the energy-constrained AUs, it is crucial to successfully receive the data service from either one of TBSs or LEO satellite in a short time so that their flying or hovering energy is saved. Here, each TBS is assumed to have the existing associated terrestrial users (TUs). Therefore, it is challenging to determine how to allocate the communication resources of the TBSs to the associating TUs and AUs without sacrificing the QoS of the existing TUs. To tackle these challenging problems, we propose a joint association and bandwidth allocation framework to minimize the total latency of the AUs with the consideration of the TBS{\textquoteright}s communication resource limitation, LEO satellite{\textquoteright}s backhaul capacity, and the QoS requirement of the existing terrestrial users (TUs). The evaluation results are conducted to verify the superior performance of the proposed framework.",

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Ei, NN, Kim, K, Park, YM & Hong, CS 2023, Latency Minimization in Terrestrial-Non-Terrestrial Integrated Network: Joint Association and Bandwidth Allocation Framework. in APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation. APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation, Institute of Electrical and Electronics Engineers Inc., pp. 143-147, 24th Asia-Pacific Network Operations and Management Symposium, APNOMS 2023, Sejong, Korea, Republic of, 6/09/23.

Latency Minimization in Terrestrial-Non-Terrestrial Integrated Network: Joint Association and Bandwidth Allocation Framework. / Ei, Nway Nway; Kim, Kitae; Park, Yu Min et al.
APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation. Institute of Electrical and Electronics Engineers Inc., 2023. p. 143-147 (APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Hong, Choong Seon

PY - 2023

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AB - Integrated terrestrial-non-terrestrial network (T-NTIN) has recently gained much attention owing to its wide service area, seamless connectivity and high network throughput. The non-terrestrial network comprising the low earth orbit (LEO) satellites can complement the terrestrial network when the terrestrial base stations are partially damaged or the network demand is overloaded. In this work, we study an integrated terrestrial-non-terrestrial network in which the aerial users (AUs) are served by the terrestrial base stations (TBs) or LEO satellite in the downlink. For the energy-constrained AUs, it is crucial to successfully receive the data service from either one of TBSs or LEO satellite in a short time so that their flying or hovering energy is saved. Here, each TBS is assumed to have the existing associated terrestrial users (TUs). Therefore, it is challenging to determine how to allocate the communication resources of the TBSs to the associating TUs and AUs without sacrificing the QoS of the existing TUs. To tackle these challenging problems, we propose a joint association and bandwidth allocation framework to minimize the total latency of the AUs with the consideration of the TBS’s communication resource limitation, LEO satellite’s backhaul capacity, and the QoS requirement of the existing terrestrial users (TUs). The evaluation results are conducted to verify the superior performance of the proposed framework.

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Ei NN, Kim K, Park YM, Hong CS. Latency Minimization in Terrestrial-Non-Terrestrial Integrated Network: Joint Association and Bandwidth Allocation Framework. In APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation. Institute of Electrical and Electronics Engineers Inc. 2023. p. 143-147. (APNOMS 2023 - 24th Asia-Pacific Network Operations and Management Symposium: Intelligent Management for Enabling the Digital Transformation).

Latency Minimization in Terrestrial-Non-Terrestrial Integrated Network: Joint Association and Bandwidth Allocation Framework

Abstract

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