public long[] getReqPowerInQuarters() { long[] regPowerInQuarters = new long[regPower.length]; for (int i = 0; i < regPower.length; i++) { // convert Q to H int h = (int) Math.ceil(((i + 1) - quartersLeftInFirstBid) / 4.0); if (quartersLeftInFirstBid == 0) { h--; } regPowerInQuarters[i] = bidsN[h] * this.bidSize; } return regPowerInQuarters; }
public boolean solve( double[] Pmax, double[] PregMax, double[] Emin, double[] Emax, int quartersLeftInFirstBid, int[] bids, int bidSize, ArrayList<FlexGraph> flexGraphs) { double[] Pmin = new double[Pmax.length]; // Pre-process data if ((Pmin.length - quartersLeftInFirstBid) % 4 != 0) { int extraQuarters = 4 - ((Pmin.length - quartersLeftInFirstBid) % 4); Pmin = concat(Pmin, new double[extraQuarters]); Pmax = concat(Pmax, new double[extraQuarters]); PregMax = concat(PregMax, new double[extraQuarters]); double[] endE = new double[extraQuarters]; for (int i = 0; i < endE.length; i++) { endE[i] = Emin[Emin.length - 1]; } Emin = concat(Emin, endE); Emax = concat(Emax, endE); } this.quartersLeftInFirstBid = quartersLeftInFirstBid; // Solve optimization problem try { IloCplex cplex = new IloCplex(); // for all evs ArrayList<IloNumVar[]> flexpowers = new ArrayList<IloNumVar[]>(); ArrayList<IloNumVar[]> flexenergies = new ArrayList<IloNumVar[]>(); for (int i = 0; i < flexGraphs.size(); i++) { FlexGraph flexGraph = flexGraphs.get(i); double[] energyMin = convertToDoubles(flexGraph.getEnergyMin()); double[] energyMax = convertToDoubles(flexGraph.getEnergyMax()); double[] powerMax = convertToDoubles(flexGraph.getPowerMax()); // charging power IloNumVar[] p = cplex.numVarArray(powerMax.length, new double[powerMax.length], powerMax); // path IloNumVar[] e = cplex.numVarArray(energyMin.length, energyMin, energyMax); for (int j = 0; j < p.length; j++) { cplex.addEq(cplex.diff(e[j + 1], e[j]), cplex.prod(1.0 / 4, p[j])); } flexpowers.add(p); flexenergies.add(e); } // total charging power IloNumVar[] p = cplex.numVarArray(Pmin.length, Pmin, Pmax); // individual bin constraints for (int t = 0; t < p.length; t++) { ArrayList<IloNumVar> tempVars = new ArrayList<IloNumVar>(); for (IloNumVar[] var : flexpowers) { if (var.length >= t + 1) { tempVars.add(var[t]); } } IloNumVar[] tempVars_array = new IloNumVar[tempVars.size()]; tempVars.toArray(tempVars_array); cplex.addEq(p[t], cplex.sum(tempVars_array)); } // path IloNumVar[] e = cplex.numVarArray(Emin.length, Emin, Emax); for (int i = 0; i < p.length; i++) { cplex.addEq(cplex.diff(e[i + 1], e[i]), cplex.prod(1.0 / 4, p[i])); } // Emin < path < Emax for (int i = 0; i < e.length; i++) { cplex.addGe(e[i], Emin[i]); cplex.addLe(e[i], Emax[i]); } // regulation power in each optimziation interval IloNumVar[] regPowerQ = cplex.numVarArray(Pmin.length, Pmin, PregMax); // calculate regulation power in each optimization interval for (int i = 0; i < regPowerQ.length; i++) { cplex.addEq(regPowerQ[i], cplex.diff(PregMax[i], p[i])); } // regulation bids in each hour // 1. max nr of bids per houd int hours = (int) Math.ceil(quartersLeftInFirstBid / 4.0) + (int) Math.ceil((regPowerQ.length - quartersLeftInFirstBid) / 4.0); int[] maxNrOfBidsPerHour = new int[hours]; // init with max nr of bids per hour for (int i = 0; i < maxNrOfBidsPerHour.length; i++) { maxNrOfBidsPerHour[i] = Integer.MAX_VALUE; } if (quartersLeftInFirstBid > 0) { maxNrOfBidsPerHour[0] = bids[0]; try { maxNrOfBidsPerHour[1] = bids[1]; } catch (IndexOutOfBoundsException ew) { System.out.print("Emin = "); printArray(Emin); System.out.print("Emax = "); printArray(Emax); System.out.print("Pmax = "); printArray(Pmax); System.out.println("FirstBidQuarter = " + quartersLeftInFirstBid); System.out.print("Bids = "); printArray(bids); System.out.println("Bidsize = " + bidSize); } } else { maxNrOfBidsPerHour[0] = bids[1]; } // 2. bids per hour IloIntVar[] bidsH = cplex.intVarArray(hours, new int[hours], maxNrOfBidsPerHour); // limit bids by provided regulation power for (int i = 0; i < regPowerQ.length; i++) { // convert Q to H int h = (int) Math.ceil(((i + 1) - quartersLeftInFirstBid) / 4.0); if (quartersLeftInFirstBid == 0) { h--; } // bidsH*bidSize <= regPowerQ[i] if (i > 0) { // reserve some extra regulation power cplex.addLe(cplex.prod(bidsH[h], bidSize), cplex.prod(0.95, regPowerQ[i])); } else { cplex.addLe(cplex.prod(bidsH[h], bidSize), cplex.prod(1, regPowerQ[i])); } // System.out.println("h = " + h + ", i=" + i); } // create model and solve it // cplex.addMaximize(cplex.scalProd(p,prices)); double[] rewards = new double[bidsH.length]; // init to rewards = 1 for all, but two first hours for (int i = 0; i < rewards.length; i++) { rewards[i] = 1; } rewards[0] = 100; if (rewards.length > 1) { rewards[1] = 100; } IloLinearNumExpr maximization = cplex.scalProd(bidsH, rewards); IloObjective maxObjective = cplex.addMaximize(maximization); cplex.setOut(null); cplex.solve(); // if(cplex.solve()) { // cplex.output().println("Solution status = " + cplex.getStatus()); // cplex.output().println("Solution value = " + cplex.getObjValue()); // // System.out.print("Emin = "); // printArray(Emin); // // System.out.print("Emax = "); // printArray(Emax); // // System.out.print("Pmax = "); // printArray(Pmax); // // powerPath = cplex.getValues(p); // System.out.print("Power = "); // printArray(powerPath); // // energyPath = cplex.getValues(e); // System.out.print("Energy = "); // printArray(energyPath); // // regPower = cplex.getValues(regPowerQ); // System.out.print("RegPower = "); // printArray(regPower); // // bidsN = new int[bidsH.length]; // for(int i = 0; i < bidsN.length; i++) { // bidsN[i] = (int) Math.round(cplex.getValue(bidsH[i])); // } // shift bids right if no quarter left in current bid slot -- hack-ish if (quartersLeftInFirstBid == 0) { bidsN = concat(new int[1], bidsN); } // // System.out.print("Bids = "); // printArray(bidsN); // // this.bidSize = bidSize; // } // stage two // System.out.println((int) ); // System.out.println("sum = " + cplex.getValue(cplex.sum(bidsH))); // System.out.println(bidsH[0].getUB());; // System.out.println((int) Math.round(cplex.getValue(bidsH[0]))); // bidsH[0].setMin((int) Math.round(cplex.getValue(bidsH[0]))); // .setUB(cplex.getValue(bidsH[0])); // cplex.addEq(bidsH[1], (int) Math.round(cplex.getValue(bidsH[1]))); // cplex.addGe(bidsH[1], (int) Math.round(cplex.getValue(bidsH[1]))); double bid1 = cplex.getValue(bidsH[0]); double bid2 = 0; if (bidsH.length > 1) { bid2 = cplex.getValue(bidsH[1]); } int totalBids = 0; for (int i = 0; i < bidsH.length; i++) { totalBids = totalBids + (int) Math.round(cplex.getValue(bidsH[i])); } cplex.addGe(cplex.sum(bidsH), totalBids); cplex.addLe(bid1, bidsH[0]); // cplex.getValue(bidsH[1]); if (bidsH.length > 1) { cplex.addLe(bid2, bidsH[1]); } cplex.remove(maxObjective); IloQuadNumExpr minimization = cplex.quadNumExpr(); double[] coeff = new double[p.length]; for (int i = 0; i < p.length; i++) { coeff[i] = 1; } minimization.addTerms(coeff, p, p); cplex.addMinimize(minimization); cplex.setOut(null); if (cplex.solve()) { // cplex.output().println("Solution status = " + cplex.getStatus()); // cplex.output().println("Solution value = " + cplex.getObjValue()); // // System.out.print("Emin = "); // printArray(Emin); // // System.out.print("Emax = "); // printArray(Emax); // // System.out.print("Pmax = "); // printArray(Pmax); // powerPath = cplex.getValues(p); System.out.print("Power = "); printArray(powerPath); energyPath = cplex.getValues(e); // System.out.print("Energy = "); // printArray(energyPath); regPower = cplex.getValues(regPowerQ); System.out.print("RegPower = "); printArray(regPower); bidsN = new int[bidsH.length]; for (int i = 0; i < bidsN.length; i++) { bidsN[i] = (int) Math.round(cplex.getValue(bidsH[i])); } // shift bids right if no quarter left in current bid slot -- hack-ish if (quartersLeftInFirstBid == 0) { bidsN = concat(new int[1], bidsN); } System.out.print("Bids = "); printArray(bidsN); this.bidSize = bidSize; } for (int i = 0; i < flexpowers.size(); i++) { flexGraphs.get(i).setSolutionPath(cplex.getValues(flexenergies.get(i))); } return true; } catch (IloException e) { System.err.println("Concert exception caught: " + e); e.printStackTrace(); return false; } }