Abstract
The Angle-of-Arrival (AOA) has a variety of applications in civilian and military wireless communication fields. Due to the rapid development of the location-based service (LBS) industry, the importance of the AOA estimation technique has increased. Although a large antenna array is necessary to estimate accurate AOA information of many signals, the computational complexity of conventional AOA estimation algorithms, such as Multiple Signal Classification (MUSIC), is dramatically increased. In this paper, we propose a cascade AOA estimation algorithm employing CAPON and Beamspace MUSIC, based on a flexible (on/off) antenna array. First, this approach roughly finds AOA groups, including several signal AOAs using CAPON, by applying some of the antenna elements. Then, it estimates each signal AOA in the estimated AOA groups using Beamspace MUSIC by applying the full size of the antenna array. In addition to extremely low computational complexity, the proposed algorithm also has similar estimation performance to that of MUSIC. In particular, the proposed cascade AOA estimation algorithm is highly efficient when employing a massive antenna array. Representative computer simulation examples are provided to illustrate the AOA estimation performance of the proposed technique.
Highlights
Angle-of-Arrival (AOA estimation) is a core technique in wireless communication systems employing a location detection technology (LDT), and has various applications ranging from commerce to the military
To address the problem of extremely high computational complexity and efficiently estimate signal AOAs based on a massive antenna array, we propose a cascade AOA estimation algorithm consisting of CAPON and Beamspace
To address the issue of high computational complexity in the estimation of signal AOAs based on a massive antenna array, in this paper we propose the cascade AOA estimation algorithm consisting of CAPON and Beamspace
Summary
Angle-of-Arrival (AOA estimation) is a core technique in wireless communication systems employing a location detection technology (LDT), and has various applications ranging from commerce to the military. Based on ULA, the estimation accuracy and computational complexity of MUSIC, Root-MUSIC, and ESPRIT algorithms were evaluated and analyzed with performance evaluation scenarios, including changes in the number of antenna elements versus the signal-to-noise ratio (SNR), in [17]. The computational complexity involved in estimating AOA based on a massive antenna array is extremely high To address this high complexity problem for estimating the signal AOA, in this paper, we propose a cascade AOA estimation algorithm based on a flexible massive antenna array, consisting of CAPON and Beamspace MUSIC algorithms. Because this cascade approach does not search the entire range to estimate the detailed signal AOAs, it is highly efficient and fast compared to conventional AOA estimation algorithms, such as MUSIC, for a massive antenna array.
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