WirelessHART™ Filter Design for Industrial Wireless Networked Control Systems
Auteurs : Chung Tran Duc, Ibrahim Rosdiazli, Asirvadam Vijanth Sagayan, Saad Nordin, Hassan Sabo Miya
This book presents a guideline for EWMA filter design for industrial wireless networked control system, both theoretically and practically. The filter?s key advantages are simple, effective, low computational overhead. This book also provides a guideline for practical implementation of EWMA filter for improving networked control performance of various process plants. It further discusses not only the advantages of the filter, but also the limitations and how to avoid them when implementing the filter from practical point of view.
Introduction. WirelessHART, The Leading Technology for Industrial Wireless Networked Control Systems. Uncertainties in Industrial Wireless Mesh Network. Delay and Packet Dropout Measurement in Wireless Networked Control System. Delay and Packet Dropout Compensation Techniques. The Basic of EWMA Filter. Advanced Dual Purpose EMWA Filter Design for Delay and Packet Dropout Compensation. The Filter's Performance over Wired Links. Wireless Hardware-in-the-loop Simulator. The Filter's Performance over Wireless Links of Industrial-scaled Wireless Mesh Network. Conclusions and Future Directions.
Date de parution : 09-2020
15.2x22.9 cm
Date de parution : 11-2017
15.6x23.4 cm
Thèmes de WirelessHART™ :
Mots-clés :
EWMA Filter; Packet Dropout; WirelessHART; Wireless Networked Control System; Smith Predictor; Filter Design; Kalman Filter; Wireless Hardware-in-the-loop Simulator; Networked Control System; IIoT; Industrial Process Plant; Rosdiazli Ibrahim; Wireless Node; Vijanth Sagayan Asirvadam; EWMA Controller; Nordin Saad; Setpoint Change; Sabo Miya Hassan; Industrial Wireless; Percent Overshoot; Upstream Delay; Delay Measurement; Execution Time; WirelessHART Network; HDLC Frame; Fieldbus Foundation; SNR Ratio; Hart; MA Filter; MSE Value; Small MSE Value; ARX Model; Power Consumption