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StrategyControl.java
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StrategyControl.java
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/*
* To change this license header, choose License Headers in Project Properties.
* To change this template file, choose Tools | Templates
* and open the template in the editor.
*/
package mas_1_10;
/**
*
* @author endryys
*/
public class StrategyControl {
//Attributes
public float pcc_upper=100;
public float pcc_lower=-100;
//Class method to control Peak Shaving
public float[] PeakShaving(float pcc_initial){
float pcc_upper;
float pcc_lower;
float p_diff=0;
int status=0;
int threshold=0;
/*Thresholds of deliveried power to grid (p_lower) or
absorbed power(p_upper)*/
pcc_upper=this.pcc_upper;
pcc_lower=this.pcc_lower;
//pcc_upper=0.1*p_max_generators;//Demand side
//pcc_lower=0.85*p_max_generators;//Generation side
//pcc_initial=p_consumers-p_generators;
//If power is beyond upper threshold means that demand overcome generation
if (pcc_initial>pcc_upper){
//Batteries must provide energy
status=1;
threshold=0;
p_diff=pcc_initial-pcc_upper;
System.out.println("\np_diff = "+p_diff);
}
//If power is below lower threshold means that generation overcome demand
if(pcc_initial< pcc_lower){
//Batteries must absorb energy
status=2;
threshold=0;
p_diff=pcc_initial-pcc_lower;//Take into account that pcc_initial (-) and pcc_lower(-), so p_diff=-200-(-100)=-100
}
/*If power is in range of thresholds, batteries can sent and absorb
energy depending on their soc(%)*/
if(pcc_lower<=pcc_initial && pcc_initial<=pcc_upper){
//If demand is superior to the generation
status=3;
if(pcc_initial>0){
//Batteries activate automatic charge
if(pcc_initial==pcc_upper){
threshold=1;
p_diff=pcc_upper;
}else{
threshold=0;
//p_diff=pcc_upper-pcc_initial;
p_diff=pcc_initial;
}
}
//If generation is superior to the demand
if(pcc_initial<0){
//Batteries activate automatic discharge
if(pcc_initial==pcc_lower){
threshold=-1;
p_diff=pcc_lower;
}else{
threshold=0;
//limite al que se puede llegar para no sobre pasar los limites de potencia
//p_diff=pcc_initial-pcc_lower;
p_diff=pcc_initial;
}
}
}
float controlP[]={p_diff,status,threshold};
System.out.println("controlP[] = "+controlP[0] +" , "+ controlP[1]+" , "+controlP[2]+"\n");
return controlP;
}
//Class method to control Q control
public double[] QControl(){
double qcc_final[]={0,0};
return qcc_final;
}
//Class method to control Smoothing
public void Smoothing(){
}
}