TY - GEN
T1 - A table-driven AOA estimation algorithm for switched-beam antennas in Wireless Networks
AU - Lee, Jeongkeun
AU - Kim, Dongkyun
AU - Toh, C. K.
AU - Kwon, Taekyoung
AU - Choi, Yanghee
N1 - Publisher Copyright:
© Copyright 2015 IEEE All rights reserved.
PY - 2005
Y1 - 2005
N2 - Accurate Angle of Arrival (AOA) estimation is crucial in two aspects: adaptive beam-forming in smart antenna systems and object positioning in ubiquitous computing applications. The AOA information is essential for smart antenna systems in order to improve efficiency (e.g. throughput enhancement) in transmission and reception. The AOA information assists the system to automatically change the direction of the radiation/reception beam pattern to adapt to the position of the receiver/sender, respectively. This adaptive beam forming technique can maximize the signal-to-interference/noise-ratio (SINR). In ubiquitous computing applications, AOA information is utilized for the purpose of positioning of the object with a wireless interface. However, the existing AOA estimation algorithms incur large computational complexity or exhibit antenna design-dependent performance. In this paper, we propose a simple table-driven AOA estimation (TAE) algorithm for a switched-beam antenna system. Due to its relatively low hardware complexity and cost, the switched beam antenna system is most widely implemented type in smart antenna systems. Simulation results show that the proposed table-driven approach yields a low estimation error (half of angular granularity) with O(1) computational complexity. We also demonstrated that the performance of our TAE algorithm is independent of beam-coverage, beam-width and side-lobe level.
AB - Accurate Angle of Arrival (AOA) estimation is crucial in two aspects: adaptive beam-forming in smart antenna systems and object positioning in ubiquitous computing applications. The AOA information is essential for smart antenna systems in order to improve efficiency (e.g. throughput enhancement) in transmission and reception. The AOA information assists the system to automatically change the direction of the radiation/reception beam pattern to adapt to the position of the receiver/sender, respectively. This adaptive beam forming technique can maximize the signal-to-interference/noise-ratio (SINR). In ubiquitous computing applications, AOA information is utilized for the purpose of positioning of the object with a wireless interface. However, the existing AOA estimation algorithms incur large computational complexity or exhibit antenna design-dependent performance. In this paper, we propose a simple table-driven AOA estimation (TAE) algorithm for a switched-beam antenna system. Due to its relatively low hardware complexity and cost, the switched beam antenna system is most widely implemented type in smart antenna systems. Simulation results show that the proposed table-driven approach yields a low estimation error (half of angular granularity) with O(1) computational complexity. We also demonstrated that the performance of our TAE algorithm is independent of beam-coverage, beam-width and side-lobe level.
UR - http://www.scopus.com/inward/record.url?scp=84946771538&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84946771538
T3 - 11th European Wireless Conference 2005 - Next Generation Wireless and Mobile Communications and Services, European Wireless 2005
BT - 11th European Wireless Conference 2005 - Next Generation Wireless and Mobile Communications and Services, European Wireless 2005
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 11th European Wireless Conference on Next Generation Wireless and Mobile Communications and Services, European Wireless 2005
Y2 - 10 April 2005 through 13 April 2005
ER -