Proceedings ArticleDOI
Resource allocation with carrier aggregation in LTE Advanced cellular system sharing spectrum with S-band radar
Haya Shajaiah,Awais Khawar,Ahmed Abdelhadi,T. Charles Clancy +3 more
- pp 34-37
TLDR
A carrier aggregation resource allocation algorithm to allocate the LTE Advanced and the radar carriers' resources optimally among users based on the type of user application and gives priority to users running inelastic traffic when allocating resources.Abstract:
Spectrum sharing is a promising solution for the problem of spectrum congestion. We consider a spectrum sharing scenario between a multiple-input multiple-output (MIMO) radar and Long Term Evolution (LTE) Advanced cellular system. In this paper, we consider resource allocation optimization problem with carrier aggregation. The LTE Advanced system has N BS base stations (BS) which it operates in the radar band on a sharing basis. Our objective is to allocate resources from the LTE Advanced carrier and the MIMO radar carrier to each user equipment (UE) in an LTE Advanced cell based on the running application of UE. Each user application is assigned a utility function based on the type of application. We propose a carrier aggregation resource allocation algorithm to allocate the LTE Advanced and the radar carriers' resources optimally among users based on the type of user application. The algorithm gives priority to users running inelastic traffic when allocating resources. Finally we present simulation results on the performance of the proposed carrier aggregation resource allocation algorithm.read more
Citations
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Radar-Communications Convergence: Coexistence, Cooperation, and Co-Design
TL;DR: A radar information metric, the estimation rate, that allows the radar user to be considered in a multiple-access channel enabling performance bounds for joint radar-communications coexistence to be derived is introduced.
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Joint radar and communication: A survey
TL;DR: This paper explores the state-of-the-art of JRC in the levels of coexistence, cooperation, co-design and collaboration, and reviews the entire trends that drive the development of radar sensing and wireless communication using JRC.
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Spectral Coexistence of MIMO Radar and MIMO Cellular System
TL;DR: Loss in radar target localization capability due to precoding can be compensated by using SSSVSP instead of SNSP to some extent but increasing the number of radar antenna elements is more effective.
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Target Detection Performance of Spectrum Sharing MIMO Radars
TL;DR: The generalized likelihood ratio test for target detection and detector statistic for NSP and orthogonal waveform are derived and the target detection performance for both waveforms is studied theoretically and via Monte Carlo simulations.
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