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Power control, broadly speaking, is the intelligent selection of transmitter power output in a communication system to achieve good performance within the system.The notion of "good performance" can depend on context and may include optimizing metrics such as link data rate, network capacity, outage probability, geographic coverage and range, and life of the network and network devices. Power control algorithms are used in many contexts, including cellular networks, sensor networks, wireless LANs, and DSL modems.
There are various constraints of power system such as active power constraint, reactive power constraint, voltage magnitude constraint, load angle constraint etc. The load flow analysis on power systems operations and control is done by bus classification, basic power flow conditions, development of y-bus matrix.
The main tasks of power system can be divided into the following categories:
1. Planning operations
2. Operation control
3. Operating accounting and financial control
In general, for any particular set of channel conditions, a higher transmit power translates into a higher signal power at the receiver. Having a higher signal-to-noise ratio (SNR) at the receiver reduces the bit error rate of a digital communication link. The major courses to study under power systems operations and control are Introduction to SCADA, control centre, digital computer configuration, automatic generation control, area control error, operation without central computers, expression for tie-line flow and frequency deviation, parallel operation of generators, area lumped dynamic model.
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