A distributed model for capacitance requirements for self-excited induction generators

The main objective of this paper is to construct a distributed environment through which the capacitance requirements of self excited induction generators can be monitored and controlled. A single-server/multi-client architecture has been proposed which enables the self excited induction generators to access the remote server at any time, being able with their respective data to get the minimum capacitance requirements. An RMI (Remote Method Invocation) based distributed model has been developed in such a way that for every specific period of time, the remote server obtains the system data simultaneously from the neighbouring self excited induction generators with which the clients are registered and the server sends back the capacitance requirements as a response to the respective clients. The server creates a new thread of control for every client request and hence a complete distributed environment has been exploited.