Title :
Kernel based nonlinear regression for Internet Round Trip Time-delay prediction
Author :
Yang, Yanhua ; Li, Hongyi
Abstract :
Time delay degrades the performances of Internet-based control systems or teleoperation system, and even causes instability of closed-loop systems. If the Round Trip Time-delay (RTT) is acquired exactly previously, it is helpful to improve the performance of Internet-based control systems. Therefore, analysis or prediction for Internet time delay has become a hot research problem. This paper proposes the long-range nonlinear autocorrelation of RTT based on the real data of Internet delay measurements. Then, according to the characters, we present a sparse matrix based kernel regression (SMKR) scheme to predict RTT. Finally, simulation results show that the forecasting precision using this method is higher than that using sparse multivariate linear regressive (SMLR) method, which demonstrates the validity of the proposed approach.
Keywords :
Internet; closed loop systems; control engineering computing; nonlinear control systems; regression analysis; sparse matrices; stability; telecontrol; Internet round trip time-delay prediction; Internet-based control systems; RTT; SMKR; SMLR; closed-loop system instability; kernel based nonlinear regression; long-range nonlinear autocorrelation; sparse matrix based kernel regression scheme; sparse multivariate linear regressive method; teleoperation system; Arrays; Correlation; Delay effects; Internet; Kernel; Predictive models; Round Trip Time-delay (RTT); kernel method; long-range autocorrelation; nonlinear correlation coefficient; prediction; teleoperation system;
Conference_Titel :
Intelligent Control and Automation (WCICA), 2012 10th World Congress on
Conference_Location :
Beijing
Print_ISBN :
978-1-4673-1397-1
DOI :
10.1109/WCICA.2012.6357998
