Abstract
From the perspective of collaborative design of control and scheduling, a software-defined networked collaborative control system (SD-NCCS) is established. On this basis, the system performance of SD-NCCS is analyzed and the average sensitivities of reference are used in utility function to evaluate the effects of network-induced delays. Moreover, the network pricing mechanism and game theory are introduced and a dynamic bandwidth resource allocation model of the overall control system for optimal performance is obtained. Thus, the problem of the network resource allocation of the SD-NCCS has been converted to be the problem of solving the Nash equilibrium point under the non-cooperative game model. Furthermore, the Nash equilibrium solution under this frame is obtained using the estimation distributed algorithm (EDA). Finally, a simple example is included to illustrate the performance of our scheme.
Highlights
The networked control system (NCS) is a distributed control system where the control loops are closed via a communication network
We have converted the software-defined networked collaborative control system (SD-NCCS) network bandwidth allocation problem into a Nash equilibrium calculation problem based on the network pricing non-cooperative game model
This paper presents a software-defined networked collaborative control system from the perspective of collaborative design of control and scheduling
Summary
Received March 27, 2020, accepted April 17, 2020, date of publication April 22, 2020, date of current version May 6, 2020. Dynamic Bandwidth Scheduling of Software Defined Networked Collaborative Control System.
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