Пример #1
0
func (dbs *DBS) optimizePowerAllocation() {

	var meanPtot, meanPd, meanPtotPd, meanPePd, meanPr, meanPe float64
	//var meanBER float64

	for e := dbs.Connec.Front(); e != nil; e = e.Next() {
		c := e.Value.(*Connection)
		M := c.E
		meanPtotPd += M.BERT() / M.Req()
		meanPePd += c.BER / M.Req()
		meanPtot += M.BERT()
		meanPe += c.BER
		meanPd += M.Req()
		meanPr += c.Pr
	}

	nbconnec := float64(dbs.Connec.Len())

	meanPtot /= nbconnec
	meanPtotPd /= nbconnec
	meanPePd /= nbconnec
	meanPe /= nbconnec
	meanPd /= nbconnec
	meanPr /= nbconnec

	for e := dbs.Connec.Front(); e != nil; e = e.Next() {
		c := e.Value.(*Connection)
		M := c.E

		if c.Status == 0 && c.E.GetCh() != 0 { // if master connection

			var b, need, delta, alpha float64

			b = M.BERT() / M.Req()
			//b = M.BERT() / M.Req()/meanPtotPd;
			b = b * 1.5
			alpha = 1.0
			need = 2.0*math.Exp(-b)*(b+1.0) - 1.0
			delta = math.Pow(geom.Abs(need), 1) *
				math.Pow(M.GetPower(), 1) *
				geom.Sign(need-M.GetPower()) * alpha *
				math.Pow(geom.Abs(need-M.GetPower()), 1.5)

			if delta > 0 {
				v := (1.0 - M.GetPower()) / 2.0
				if delta > v {
					delta = v
				}
			} else {
				v := -M.GetPower() / 2.0
				if delta < v {
					delta = v
				}
			}

			if delta > 1 || delta < -1 {
				fmt.Println("Power Error ", delta)
			}

			M.PowerDelta(delta)

			//M.SetPower(1.0/math.Pow(2.0+dbs.R.Pos.Distance(M.GetPos()),4 ) )
		}

	}

}
Пример #2
0
func DrawReceptionField(dbs []synstation.DBS, name string) {

	var data [Size][Size]float64

	//dbs:= make([]synstation.DBS,1)
	//dbs[0].R.SetPos(geom.Pos{6000,6000})

	e := new(synstation.Emitter)
	e.Power = 1

	var TMax, TMin float64
	TMax = -300
	TMin = +300

	ch := synstation.NChRes

	sums := float64(0)
	for x := 0; x < Size; x++ {

		e.Pos.X = inField(x)
		sumy := float64(0)
		for y := 0; y < Size; y++ {
			e.Pos.Y = inField(y)
			Pr := float64(0.0)
			for k := 0; k < len(dbs); k++ {

				/*	p:= e.GetPos().Minus(*dbs[k].R.GetPos())
						theta := math.Atan2(p.Y,p.X) * 180/ math.Pi
						if theta<0 {theta=theta+360}
					if theta <0 {fmt.Println(" theta <0!!!!")}
						dbs[k].R.Orientation[ch]=theta //+ (dbs.Rgen.Float64()*30-15)
				*/

				if geom.Abs(inField(x)-dbs[k].R.GetPos().X) < 1500 &&
					geom.Abs(inField(y)-dbs[k].R.GetPos().Y) < 1500 {
					p, _ := dbs[k].R.EvalSignalPr(e, ch)
					if p > Pr {
						Pr = p
					}

				}

			}
			Pr = 10 * math.Log10(Pr)
			data[x][y] = Pr
			sumy += Pr
			if Pr > TMax {
				TMax = Pr
			}
			if Pr < TMin {
				TMin = Pr
			}
		}
		sums += sumy
	}

	fmt.Println("mean ", sums/600/600)
	fmt.Println("TMax ", TMax)
	fmt.Println("TMin ", TMin)
	if TMin < -150 {
		TMin = -150
	}

	// -15 -125
	// -5 -115
	// -9 -117

	im := image.NewNRGBA(Size, Size)
	for x := 0; x < Size; x++ {
		for y := 0; y < Size; y++ {
			var r, g, b float64
			v := (data[x][y] - TMin) / (TMax - TMin) * -8.0
			switch {
			case v > -2.0:
				b = 2.0 + v
				g = -v
			case v > -4:
				g = 1
				r = -v/2.0 - 1.0
			default:
				r = 1.0
				b = -v/2.0 - 2.0
				g = 1.0 - b
			}
			r = r * 255
			g = g * 255
			b = b * 255
			if r < 0 {
				r = 0
			}
			if r > 255 {
				r = 255
			}
			if g < 0 {
				g = 0
			}
			if g > 255 {
				g = 255
			}
			if b < 0 {
				b = 0
			}
			if b > 255 {
				b = 255
			}
			im.Pix[y*im.Stride+x] = uint8(r) //image.NRGBAColor{uint8(r), uint8(g), uint8(b), uint8(255)}
			//im.Pix[y*im.Stride+x] = image.NRGBAColor{uint8(v*255),uint8(v*255),uint8(v*255),255}
		}
	}

	f, err := os.Create(name)

	if err = png.Encode(f, im); err != nil {
		os.Exit(1)
	}

}