Abstract
Beam training in millimeter-wave (mmWave) cellular systems requires a long processing time that is proportional to the product of the number of transmitting and receiving beams. In this paper, we propose a beam training technique that can significantly reduce the beam training time in mmWave cellular systems, using a retrodirective directional array (RDA). In the proposed technique, the beam sweeping operations required at the base station (BS) and mobile station (MS) are significantly reduced owing to the use of the RDA, which automatically returns a signal in the direction along which it originated. A preamble sequence design technique for beam training is proposed to identify the BS, MS, and beams simultaneously transmitted from the BS/MS, using the Zadoff-Chu sequence. The ambiguity condition and detection algorithms are derived so that we can uniquely identify the parameters for beam alignment in asynchronous environments with symbol timing offset (STO) and carrier frequency offset (CFO). Simulations show that the proposed algorithm can correctly detect the parameters for beam alignment in mmWave cellular systems with RDA in asynchronous environments. Moreover, the proposed technique can significantly reduce the period required for beam training, compared with the conventional techniques.
Highlights
The widespread use of smartphones for various applications and services has caused a rapid increase in mobile data traffic
The processing time for beam training increases proportional to the product of the number of Tx beams and number of Rx beams, because Tx/Rx beam sweeping is performed for each Rx/Tx beam
In the proposed technique, the processing time is proportional to the sum of the number of Tx beams and number of Rx beams, because only one Tx beam sweeping and one Rx beam sweeping are required, owing to the use of retrodirective directional array (RDA)
Summary
The widespread use of smartphones for various applications and services has caused a rapid increase in mobile data traffic. We propose a new beam training technique that can significantly reduce the beam training time in mmWave cellular systems, using a retrodirective directional array (RDA). A training signal design technique based on Zadoff–Chu (ZC) sequence is investigated to perform beam training effectively for a mmWave cellular system with RDA in the presence of STO or CFO. The Tx beams can be determined by transmitting a single Tx beam in all different directions only once, because the RDA at the MS reflects the incident wave toward the source (BS) direction with directivity corresponding to the antenna array size. Note that the preamble sequence X t,b(k) is shifted in the frequency domain by fRx because of the RDA operation
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