Air-Ground Heterogeneous Networks for 5G and Beyond via Integrating High and Low Altitude Platforms

UAVs are expected to be an important complementary component for 5G (and beyond) communication systems to achieve the goal of global access to the Internet for all. To fully exploit the benefits of the distinct features of various UAVs, this article proposes a novel hierarchical network architecture...

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Published in	IEEE wireless communications Vol. 26; no. 6; pp. 140 - 148
Main Authors	Qiu, Junfei, Grace, David, Ding, Guoru, Zakaria, Muhammad D., Wu, Qihui
Format	Journal Article
Language	English
Published	New York IEEE 01.12.2019 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	5G mobile communication Cellular communication Cellular networks Communications systems Computer architecture Drones Internet Low altitude Payloads Platforms Software-defined networking Wireless communication
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Abstract	UAVs are expected to be an important complementary component for 5G (and beyond) communication systems to achieve the goal of global access to the Internet for all. To fully exploit the benefits of the distinct features of various UAVs, this article proposes a novel hierarchical network architecture enabled by software defined networking, which integrates cross-layer high and low altitude platforms into conventional terrestrial cellular networks to inject additional capacity and expand the coverage for underserved areas in a flexible, seamless, and cost-effective manner. Specifically, we first present a comprehensive comparison and review of different types of UAVs for communication services. Then, we propose an integrated airground heterogeneous network architecture and outline its characteristics and potential advantages. Next, several key enabling techniques for the integrated system are discussed in detail. In addition, we identify the potential application scenarios where the system can further enhance the performance of traditional terrestrial networks, followed by a case study to demonstrate the effectiveness of the proposed architecture. Finally, the discussions on challenges and open research issues are given.
AbstractList	UAVs are expected to be an important complementary component for 5G (and beyond) communication systems to achieve the goal of global access to the Internet for all. To fully exploit the benefits of the distinct features of various UAVs, this article proposes a novel hierarchical network architecture enabled by software defined networking, which integrates cross-layer high and low altitude platforms into conventional terrestrial cellular networks to inject additional capacity and expand the coverage for underserved areas in a flexible, seamless, and cost-effective manner. Specifically, we first present a comprehensive comparison and review of different types of UAVs for communication services. Then, we propose an integrated airground heterogeneous network architecture and outline its characteristics and potential advantages. Next, several key enabling techniques for the integrated system are discussed in detail. In addition, we identify the potential application scenarios where the system can further enhance the performance of traditional terrestrial networks, followed by a case study to demonstrate the effectiveness of the proposed architecture. Finally, the discussions on challenges and open research issues are given.
Author	Qiu, Junfei Zakaria, Muhammad D. Wu, Qihui Ding, Guoru Grace, David
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SubjectTerms	5G mobile communication Cellular communication Cellular networks Communications systems Computer architecture Drones Internet Low altitude Payloads Platforms Software-defined networking Wireless communication
Title	Air-Ground Heterogeneous Networks for 5G and Beyond via Integrating High and Low Altitude Platforms
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