public override bool IsIntersect(Ray ray, Matrices transform)
{
//if (a == 0)
//{
// ray.IntersectDistance = -c / b;
// return true;
//}
//else if (D < 0)
// return false;
//else
//{
Vector L = ray.Position - this.center;
double a = Vector.DotProduct(ray.Direction, ray.Direction);
double b = 2 * Vector.DotProduct(ray.Direction, L);
double c = Vector.DotProduct(L, L) - this.radius * this.radius;
double D = b * b - 4 * a * c;
double q = (b > 0) ?
-0.5 * (b + Math.Sqrt(D)) : -0.5 * (b - Math.Sqrt(D));
double[] t = new double[2];
t[0] = q / a;
t[1] = c/q;
//if (t[0] > 0 && t[1] > 0)
//{
Vector temp1 = ray.Direction * Math.Min(t[0], t[1]);
Matrices temp2 = new Matrices(temp1.x, temp1.y, temp1.z, 1);
temp2 = transform.Matrix * temp2;
temp1.x = temp2.Matrix[0, 0];
temp1.y = temp2.Matrix[1, 0];
temp1.z = temp2.Matrix[2, 0];
ray.IntersectDistance = temp1.Distance();
//ray.IntersectDistance = Math.Min(t[0], t[1]);
return true;
//}
//else if (t[0] < 0 && t[1] > 0)
//{
// ray.IntersectDistance = t[1];
// return true;
//}
//else if (t[0] > 0 && t[1] < 0)
//{
// ray.IntersectDistance = t[0];
// return true;
//}
//else return false;
//}
}
public override bool IsIntersect(Ray ray, Matrices transform)
{
Vector temp = Vector.CrossProduct((this.pointC - this.pointA),(this.pointB - this.pointA));
Vector n = temp / temp.Distance();
double a = Vector.DotProduct(this.pointA, n);
double b = Vector.DotProduct(ray.GetPosition(), n);
double c = Vector.DotProduct(ray.GetDirection(), n);
double t = (a - b) / c;
Vector pointT = ray.GetPosition() + (ray.GetDirection() * t);
if (PointInTriangle(pointT))
{
Vector temp1 = ray.Direction * t;
Matrices temp2 = new Matrices(temp1.x, temp1.y, temp1.z, 1);
temp2 = transform.Matrix * temp2;
temp1.x = temp2.Matrix[0, 0];
temp1.y = temp2.Matrix[1, 0];
temp1.z = temp2.Matrix[2, 0];
ray.IntersectDistance = temp1.Distance() ;
//ray.IntersectDistance = t ;
//ray.IntersectWith = this;
return true;
}
else return false;
}
private void AutoTest(object sender, DoWorkEventArgs e)
{
object[] param = (object[])e.Argument;
int avg_cnt = (int)param[0];
int KNN_K = (int)param[1];
int KNNHC_K = (int)param[2];
string db_file_name = (string)param[3];
string data_file_name = (string)param[4];
double start_snr = (double)param[5];
double stop_snr = (double)param[6];
double step_snr = (double)param[7];
int ray_num = (int)param[8];
Transmitter.EMIT_OPTION emit_opt = (Transmitter.EMIT_OPTION)param[9];
Noise_Type noise_type = (Noise_Type)param[10];
double alpha = (double)param[11];
int sample_cnt = (int)param[12];
Signal_Type signal_type = (Signal_Type)param[13];
System.IO.FileStream data_fs = new FileStream(data_file_name, FileMode.Create, FileAccess.Write, FileShare.Read);
System.Runtime.Serialization.IFormatter formatter = new System.Runtime.Serialization.Formatters.Binary.BinaryFormatter();
FileStream fs = new FileStream(db_file_name, FileMode.Open, FileAccess.Read, FileShare.Read);
FingerprintDataBase fdb = (FingerprintDataBase)formatter.Deserialize(fs);
fs.Close();
Point pt_real = new Point();
foreach (Transmitter trans in this.viz_rps.Map.Transmitters)
pt_real = trans.Location;
double[] snrs = new double[(int)((stop_snr - start_snr) / step_snr) + 1];
for(int i = 0; i < snrs.Length; i++)
snrs[i] = start_snr + i * step_snr;
foreach (Transmitter trans in this.viz_rps.Map.Transmitters)
{
trans.Reset();
trans.EmitRays(ray_num, emit_opt); //各发射机辐射波束
foreach (Receiver rec in this.viz_rps.Map.Receivers)
{
rec.Reset();
if (this.viz_rps.Map.IsLOS(trans.Location, rec.Location)) //若存在LOS情况
{
LineSegment segLOS = new LineSegment(trans.Location, rec.Location);
Ray rayLOS = new Ray(trans, new LineSegment[] { segLOS }, segLOS.DirectionRadian, trans.CenterFrequency, trans.EmitPower * trans.Gain, trans.EmitPower * trans.Gain, true);
rec.AcceptRay(rayLOS, this.viz_rps.Map);
}
}
foreach (Ray ray in trans.Rays) //更新每条ray, 若被接收,则更新接收它的接收机
{
Receiver rec = null;
while (!ray.Update(this.viz_rps.Map, out rec)) ;
if (rec != null)
rec.AcceptRay(ray, this.viz_rps.Map);
}
}
FingerprintGenerator fg = new FingerprintGenerator();
Dictionary<Fingerprint_Name, Fingerprint> result = new Dictionary<Fingerprint_Name, Fingerprint>();
List<double>[] ray_angles = new List<double>[this.viz_rps.Map.ReceiverCount];
List<double>[] ray_strengths = new List<double>[this.viz_rps.Map.ReceiverCount];
List<double>[] ray_taus = new List<double>[this.viz_rps.Map.ReceiverCount];
int kk = 0;
foreach (Receiver rec in this.viz_rps.Map.Receivers)
{
ray_angles[kk] = new List<double>();
ray_strengths[kk] = new List<double>();
ray_taus[kk] = new List<double>();
foreach (Ray ray in rec.Rays)
{
ray_angles[kk].Add(ray.CurrentDirection);
ray_strengths[kk].Add(ray.FadedPower(this.viz_rps.Map.MeterPixelRatio));
ray_taus[kk].Add(ray.GetLifeSpan(this.viz_rps.Map.MeterPixelRatio));
}
kk++;
}
double[] args = null;
switch (signal_type)
{
case Signal_Type.PSEUDO_DOPPLER:
//if (this.receivers.First().Value.Antenna.AntType != AntennaType.PSEUDO_DOPPLER)
// return null;
Antenna_PseudoDoppler ant = this.viz_rps.Map.receivers.First().Value.Antenna as Antenna_PseudoDoppler;
args = fg.PackArgs_PseudoDoppler(this.viz_rps.Map.receivers.First().Value.FrequencyLow, this.viz_rps.Map.receivers.First().Value.CenterFrequency,
this.viz_rps.Map.receivers.First().Value.SampleFrequency, ant.SwitchFrequency, ant.Radius, ant.AntennaNumber);
break;
}
MWNumericArray[] signals = new MWNumericArray[ray_angles.GetLength(0)];
for (int i = 0; i < signals.Length; i++)
{
signals[i] = new FingerprintGenerator().GenerateSignal_MW(signal_type, ray_angles[i].ToArray(), ray_strengths[i].ToArray(), ray_taus[i].ToArray(), sample_cnt, args);
}
for (int n = 0; n < snrs.Length; n++)
{
double[] sum_errs = new double[6];//SA_single, SA_KNN, SA_KNNHC, S_single, S_KNN, S_KNNHC
for(int i = 0; i < avg_cnt; i++)
{
MWNumericArray[] n_signals = new MWNumericArray[signals.Length];
for (int l = 0; l < signals.Length; l++)
{
n_signals[l] = new FingerprintGenerator().AddNoise_MW(noise_type, signals[l], new double[] { snrs[n] });
}
Dictionary<Fingerprint_Name, Fingerprint> res = new Dictionary<Fingerprint_Name,Fingerprint>();
for (int j = 0; j < Enum.GetNames(new Fingerprint_Name().GetType()).Length; j++ )
res[(Fingerprint_Name)j] = new FingerprintGenerator().GenerateFingerprint(signal_type, (Fingerprint_Name)j, n_signals, args);
this.current_fingerprint = res;
//SA_single
PointF loc_SA_single = fdb.MatchLocation(this.current_fingerprint[Fingerprint_Name.SA], FingerprintDataBase.Match_Strategy.Single, null);
sum_errs[0] += new MathUtils.MathUtility().point_dist(pt_real, loc_SA_single);
//SA_KNN
PointF loc_SA_KNN = fdb.MatchLocation(this.current_fingerprint[Fingerprint_Name.SA], FingerprintDataBase.Match_Strategy.KNN, new double[] { KNN_K });
sum_errs[1] += new MathUtils.MathUtility().point_dist(pt_real, loc_SA_KNN);
//SA_KNNHC
PointF loc_SA_KNNHC = fdb.MatchLocation(this.current_fingerprint[Fingerprint_Name.SA], FingerprintDataBase.Match_Strategy.KNN_HC, new double[] { KNNHC_K });
sum_errs[2] += new MathUtils.MathUtility().point_dist(pt_real, loc_SA_KNNHC);
//S_single
PointF loc_S_single = fdb.MatchLocation(this.current_fingerprint[Fingerprint_Name.S], FingerprintDataBase.Match_Strategy.Single, null);
sum_errs[3] += new MathUtils.MathUtility().point_dist(pt_real, loc_S_single);
//S_KNN
PointF loc_S_KNN = fdb.MatchLocation(this.current_fingerprint[Fingerprint_Name.S], FingerprintDataBase.Match_Strategy.KNN, new double[] { KNN_K });
sum_errs[4] += new MathUtils.MathUtility().point_dist(pt_real, loc_S_KNN);
//S_KNNHC
PointF loc_S_KNNHC = fdb.MatchLocation(this.current_fingerprint[Fingerprint_Name.S], FingerprintDataBase.Match_Strategy.KNN_HC, new double[] { KNNHC_K });
sum_errs[5] += new MathUtils.MathUtility().point_dist(pt_real, loc_S_KNNHC);
bgAutoTest.ReportProgress((int)((n * avg_cnt + i + 1) / (double)(avg_cnt * snrs.Length) * 100));
System.Threading.Thread.Sleep(200);
}
for (int m = 0; m < sum_errs.Length; m++ )
{
double err = sum_errs[m] / avg_cnt;
byte[] tmp = Encoding.ASCII.GetBytes(err.ToString("0.00") + "\t");
data_fs.Write(tmp, 0, tmp.Length);
}
byte[] rn = Encoding.ASCII.GetBytes("\r\n");
data_fs.Write(rn, 0, rn.Length);
}
data_fs.Close();
e.Result = true;
}
private MWNumericArray[][] wrap_func(int num, int ray_num, Transmitter.EMIT_OPTION emit_opt, Signal_Type signal_type, int sample_cnt)
{
MWNumericArray[][] signals = new MWNumericArray[num][];
while (num-- > 0)
{
foreach (Transmitter trans in this.viz_rps.Map.Transmitters)
{
trans.Reset();
trans.EmitRays(ray_num, emit_opt); //各发射机辐射波束
foreach (Receiver rec in this.viz_rps.Map.Receivers)
{
rec.Reset();
if (this.viz_rps.Map.IsLOS(trans.Location, rec.Location)) //若存在LOS情况
{
LineSegment segLOS = new LineSegment(trans.Location, rec.Location);
Ray rayLOS = new Ray(trans, new LineSegment[] { segLOS }, segLOS.DirectionRadian, trans.CenterFrequency, trans.EmitPower * trans.Gain, trans.EmitPower * trans.Gain, true);
rec.AcceptRay(rayLOS, this.viz_rps.Map);
}
}
foreach (Ray ray in trans.Rays) //更新每条ray, 若被接收,则更新接收它的接收机
{
Receiver rec = null;
while (!ray.Update(this.viz_rps.Map, out rec)) ;
if (rec != null)
rec.AcceptRay(ray, this.viz_rps.Map);
}
}
FingerprintGenerator fg = new FingerprintGenerator();
Dictionary<Fingerprint_Name, Fingerprint> result = new Dictionary<Fingerprint_Name, Fingerprint>();
List<double>[] ray_angles = new List<double>[this.viz_rps.Map.ReceiverCount];
List<double>[] ray_strengths = new List<double>[this.viz_rps.Map.ReceiverCount];
List<double>[] ray_taus = new List<double>[this.viz_rps.Map.ReceiverCount];
int kk = 0;
foreach (Receiver rec in this.viz_rps.Map.Receivers)
{
ray_angles[kk] = new List<double>();
ray_strengths[kk] = new List<double>();
ray_taus[kk] = new List<double>();
foreach (Ray ray in rec.Rays)
{
ray_angles[kk].Add(ray.CurrentDirection);
ray_strengths[kk].Add(ray.FadedPower(this.viz_rps.Map.MeterPixelRatio));
ray_taus[kk].Add(ray.GetLifeSpan(this.viz_rps.Map.MeterPixelRatio));
}
kk++;
}
double[] args = null;
switch (signal_type)
{
case Signal_Type.PSEUDO_DOPPLER:
//if (this.receivers.First().Value.Antenna.AntType != AntennaType.PSEUDO_DOPPLER)
// return null;
Antenna_PseudoDoppler ant = this.viz_rps.Map.receivers.First().Value.Antenna as Antenna_PseudoDoppler;
args = fg.PackArgs_PseudoDoppler(this.viz_rps.Map.receivers.First().Value.FrequencyLow, this.viz_rps.Map.receivers.First().Value.CenterFrequency,
this.viz_rps.Map.receivers.First().Value.SampleFrequency, ant.SwitchFrequency, ant.Radius, ant.AntennaNumber);
break;
}
signals[num - 1] = new MWNumericArray[ray_angles.GetLength(0)];
for (int i = 0; i < signals.Length; i++)
{
signals[num - 1][i] = new FingerprintGenerator().GenerateSignal_MW(signal_type, ray_angles[i].ToArray(), ray_strengths[i].ToArray(), ray_taus[i].ToArray(), sample_cnt, args);
}
}
return signals;
}
/// <summary>
/// 接收一个波束,并更新接收机参数,只有与接收频率相同的波束才会产生影响
/// </summary>
/// <param name="ray"></param>
public void AcceptRay(Ray ray, Map map)
{
if(ray.CenterFrequency == this.CenterFrequency)
{
this.rays.Add(ray);
this.total_power += ray.FadedPower(map.MeterPixelRatio) * this.Gain;
}
}
public static Ray Intersection(Ray ray, Scene scene)
{
double mindist = double.MaxValue;
foreach(Object obj in scene.ObjectList)
{
//for (int i = 0; i < obj.Transform.Matrix.GetLength(0); i++)
//{
// for (int j = 0; j < obj.Transform.Matrix.GetLength(1); j++)
// Console.Write("\t" + obj.Transform.Matrix[i, j]);
// Console.WriteLine();
//}
//
//Console.WriteLine();
//
//for(int i = 0 ; i < obj.Transform.Invers.GetLength(0) ; i++)
//{
// for(int j = 0 ; j < obj.Transform.Invers.GetLength(1) ; j++)
// Console.Write("\t" + obj.Transform.Invers[i,j]);
// Console.WriteLine();
//}
//Console.WriteLine();
//Console.WriteLine("---------------------------------");
//Console.WriteLine();
//Console.ReadKey();
Matrices pos = new Matrices(ray.Position.x, ray.Position.y, ray.Position.z, 1);
//Console.WriteLine(pos.Matrix[0, 0] + " " + pos.Matrix[1, 0] + " " + pos.Matrix[2, 0] + " " + pos.Matrix[3, 0]);
pos = obj.Transform.Invers * pos;
//Console.WriteLine(pos.Matrix[0, 0] + " " + pos.Matrix[1, 0] + " " + pos.Matrix[2, 0] + " " + pos.Matrix[3, 0]);
//Console.ReadKey();
Matrices dir = new Matrices(ray.Direction.x, ray.Direction.y, ray.Direction.z, 0);
dir = obj.Transform.Invers * dir;
//Debug--------------------------------------------------
//Console.WriteLine(ray.Position.x + " " + ray.Position.y + " " + ray.Position.z);
//Console.WriteLine(pos.Matrix[0, 0] + " " + pos.Matrix[1, 0] + " " + pos.Matrix[2, 0]);
//Console.ReadKey();
//-------------------------------------------------------
ray.Position.x = pos.Matrix[0,0];
ray.Position.y = pos.Matrix[1,0];
ray.Position.z = pos.Matrix[2,0];
ray.Direction.x = dir.Matrix[0, 0];
ray.Direction.y = dir.Matrix[1, 0];
ray.Direction.z = dir.Matrix[2, 0];
if (obj.IsIntersect(ray,obj.Transform) && ray.IntersectDistance < mindist)
{
mindist = ray.IntersectDistance;
ray.IntersectWith = obj;
}
// kali transform biasa ray direction(1) + position(0)
pos = obj.Transform.Matrix * pos;
dir = obj.Transform.Matrix * dir;
ray.Position.x = pos.Matrix[0, 0];
ray.Position.y = pos.Matrix[1, 0];
ray.Position.z = pos.Matrix[2, 0];
ray.Direction.x = dir.Matrix[0, 0];
ray.Direction.y = dir.Matrix[1, 0];
ray.Direction.z = dir.Matrix[2, 0];
}
ray.IntersectDistance = mindist;
return ray;
}
public abstract bool IsIntersect(Ray ray, Matrices transform);
/// <summary>
/// 运行单次仿真
/// </summary>
public Dictionary<Fingerprint_Name, Fingerprint> RunSingleSimulation(int num_rays, Transmitter.EMIT_OPTION emit_option, Signal_Type signal_type,
Noise_Type noise_type, double[] noise_params, int N)
{
foreach(Transmitter trans in this.Transmitters)
{
trans.Reset();
trans.EmitRays(num_rays, emit_option); //各发射机辐射波束
foreach(Receiver rec in this.Receivers)
{
rec.Reset();
if(this.IsLOS(trans.Location, rec.Location)) //若存在LOS情况
{
LineSegment segLOS = new LineSegment(trans.Location, rec.Location);
Ray rayLOS = new Ray(trans, new LineSegment[] { segLOS }, segLOS.DirectionRadian, trans.CenterFrequency, trans.EmitPower * trans.Gain, trans.EmitPower * trans.Gain, true);
rec.AcceptRay(rayLOS, this);
}
}
foreach(Ray ray in trans.Rays) //更新每条ray, 若被接收,则更新接收它的接收机
{
Receiver rec = null;
while (!ray.Update(this, out rec)) ;
if (rec != null)
rec.AcceptRay(ray, this);
}
}
FingerprintGenerator fg = new FingerprintGenerator();
Dictionary<Fingerprint_Name, Fingerprint> result = new Dictionary<Fingerprint_Name,Fingerprint>();
List<double>[] ray_angles = new List<double>[this.receivers.Count];
List<double>[] ray_strengths = new List<double>[this.receivers.Count];
List<double>[] ray_taus = new List<double>[this.receivers.Count];
int i = 0;
foreach(Receiver rec in this.Receivers)
{
ray_angles[i] = new List<double>();
ray_strengths[i] = new List<double>();
ray_taus[i] = new List<double>();
foreach(Ray ray in rec.Rays)
{
ray_angles[i].Add(ray.CurrentDirection);
ray_strengths[i].Add(ray.FadedPower(this.MeterPixelRatio));
ray_taus[i].Add(ray.GetLifeSpan(this.MeterPixelRatio));
}
i++;
}
double[] args = null;
switch (signal_type)
{
case Signal_Type.PSEUDO_DOPPLER:
if (this.receivers.First().Value.Antenna.AntType != AntennaType.PSEUDO_DOPPLER)
return null;
Antenna_PseudoDoppler ant = this.receivers.First().Value.Antenna as Antenna_PseudoDoppler;
args = fg.PackArgs_PseudoDoppler(this.receivers.First().Value.FrequencyLow, this.receivers.First().Value.CenterFrequency,
this.receivers.First().Value.SampleFrequency, ant.SwitchFrequency, ant.Radius, ant.AntennaNumber);
break;
}
for (int j = 0; j < Enum.GetNames(new Fingerprint_Name().GetType()).Length; j++ )
result[(Fingerprint_Name)j] = fg.SingleFingerprintSim(signal_type, noise_type, noise_params, (Fingerprint_Name)j, ray_angles, ray_strengths, ray_taus,
N, args);
return result;
}
public override bool Hit(Ray r, float tMin, float tMax, out HitRecord rec)
{
//Plane plane = Plane.CreateFromVertices(points[0], points[1], points[2]);
var normal = Vector3.Normalize(Vector3.Cross((points[0] - points[1]), (points[1] - points[2])));
r.direction = Vector3.Normalize(r.direction);
rec = new HitRecord();
//面片背面剔除
var cos = Vector3.Dot(r.direction, normal);
if (cos == 0)
{
return(false);
}
if (cullBack && cos < 0)
{
return(false);
}
//计算t(距离)
rec.t = Vector3.Dot(points[0] - r.from, normal) / Vector3.Dot(r.direction, normal);
//rec.t = (Vector3.Dot(normal,points[0]) - Vector3.Dot(normal, r.from) )/ Vector3.Dot(normal,r.direction );
if (float.IsNaN(rec.t) || rec.t < tMin || rec.t > tMax)
{
return(false);
}
//计算p(平面交点)
var p = r.from + rec.t * r.direction;
//光栅剔除
points.Add(points[0]);
Vector3 firstTowards = Vector3.Zero;
for (int i = 0; i < points.Count - 1; i++)
{
var oa = Vector3.Normalize(points[i] - points[i + 1]);
var op = Vector3.Normalize(points[i] - p);
var towards = Vector3.Normalize(Vector3.Cross(oa, op));
if (firstTowards == Vector3.Zero)
{
firstTowards = towards;
}
else if (Vector3.Dot(firstTowards, towards) < 0.999999)
{
points.RemoveAt(points.Count - 1);
return(false);
}
}
points.RemoveAt(points.Count - 1);
rec.position = p;
//是否有normal记录
if (normals.Count == points.Count)
{
if (uvs.Count == 3)
{
rec.normal = GetAvgNormalInTriangle(p);
}
else
{
rec.normal = GetAvgNormal(p);
}
}
else
{
rec.normal = normal;
}
//是否有uv记录
if (uvs.Count == points.Count)
{
if (uvs.Count == 3)
{
rec.uv = GetAvgUVInTriangle(p);
}
else
{
rec.uv = GetAvgUV(p);
}
}
rec.material = material;
return(true);
}
public RayEnumerator(Ray[] ray)
{
this.rays = ray.Clone() as Ray[];
}
public RayCollection(Ray[] r)
{
this.rays = r;
}
