TY - GEN
T1 - Error Analysis of Kalman Filter Applied to Phased Array Antenna Alignment
AU - Liu, Yutong
AU - Chen, Ning
AU - Yang, Chuang
AU - Ji, Haocong
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021
Y1 - 2021
N2 - With growing traffic needs, it has become an inevitable trend to apply information, communication, and control to the field of transportation. In real-time communication process, the coordination between satellites and logistics trucks requires precise position information for phased array antenna alignment. However, in mountain areas and forests with weak GPS signals, the information provided by GPS often has coordinate deviations caused by environmental and measurement noise. Therefore, it is difficult to provide accurate location information for phased array antenna alignment. Considering the above problems, this paper firstly compares the mean square error of the Kalman filter algorithm under the constant acceleration(CA) motion model and the Singer motion model, and analyze their respective adaptation environments. Then a Kalman filter is applied to a phased-array antenna alignment. This method mainly uses the latitude and longitude coordinate information to predict trajectory, and analyzes the off-axis angle error and the phase error in the antenna alignment. The results show that the coordinate error fluctuation amplitude of this algorithm is low, and the converge time is short. After being applied to the antenna alignment, it effectively reduces the off-axis angle error and the phase error. It is indicated that the application of Kalman filter algorithm can control these two kinds of errors within a range, which has little impact on the selection of the antenna array.
AB - With growing traffic needs, it has become an inevitable trend to apply information, communication, and control to the field of transportation. In real-time communication process, the coordination between satellites and logistics trucks requires precise position information for phased array antenna alignment. However, in mountain areas and forests with weak GPS signals, the information provided by GPS often has coordinate deviations caused by environmental and measurement noise. Therefore, it is difficult to provide accurate location information for phased array antenna alignment. Considering the above problems, this paper firstly compares the mean square error of the Kalman filter algorithm under the constant acceleration(CA) motion model and the Singer motion model, and analyze their respective adaptation environments. Then a Kalman filter is applied to a phased-array antenna alignment. This method mainly uses the latitude and longitude coordinate information to predict trajectory, and analyzes the off-axis angle error and the phase error in the antenna alignment. The results show that the coordinate error fluctuation amplitude of this algorithm is low, and the converge time is short. After being applied to the antenna alignment, it effectively reduces the off-axis angle error and the phase error. It is indicated that the application of Kalman filter algorithm can control these two kinds of errors within a range, which has little impact on the selection of the antenna array.
KW - antenna alignment
KW - kalman filter
KW - phased array antenna
KW - trajectory prediction
UR - http://www.scopus.com/inward/record.url?scp=85123757186&partnerID=8YFLogxK
U2 - 10.1109/IAI53119.2021.9619235
DO - 10.1109/IAI53119.2021.9619235
M3 - Conference contribution
AN - SCOPUS:85123757186
T3 - 3rd International Conference on Industrial Artificial Intelligence, IAI 2021
BT - 3rd International Conference on Industrial Artificial Intelligence, IAI 2021
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 3rd International Conference on Industrial Artificial Intelligence, IAI 2021
Y2 - 8 November 2021 through 11 November 2021
ER -