/// <summary>
/// Hynynen, 1995
/// </summary>
/// <param name="array"></param>
/// <param name="param"></param>
/// <returns></returns>
public List <Tree> InvokeUBHModels(List <Tree> array, List <double> param, double area, DEMOperate dem)
{
//BAS 每公顷断面积
double BA = 0;
for (int i = 0; i < array.Count; i++)
{
BA = BA + Math.PI * array[i].DBH * array[i].DBH / 4;
}
BA = BA / area;
//BAL 大于对象木全部树木胸高断面积之和
List <double> BAL = new List <double>();
for (int i = 0; i < array.Count; i++)
{
double bal = 0;
for (int j = 0; j < array.Count; j++)
{
if (array[j].DBH > array[i].DBH)
{
bal = bal + Math.PI * array[j].DBH * array[j].DBH / 4;
}
}
BAL.Add(bal / 10000);
}
//优势高
array.Sort((left, right) => - left.Height.CompareTo(right.Height));
double[] domainHeight = new double[5];
for (int j = 0; j < 5; j++)
{
domainHeight[j] = array[j].Height;
}
double DH = domainHeight.Average();
//按ID排序,升序
array.Sort((left, right) => left.ID.CompareTo(right.ID));
//计算枝下高
for (int i = 0; i < array.Count; i++)
{
//计算x,y对应DEM的行列号
dem.getColRow(array[i].X, array[i].Y);
//读取高程
double altitude = dem.getDEMValue();
//计算坡度
double slope = dem.CalcuSlope();
//计算坡向
double aspect = dem.CalcuAspect();
double X = param[0] + param[1] * array[i].Height / array[i].DBH + param[2] * array[i].Height + param[3] * array[i].DBH * array[i].DBH + param[4] * BAL[i] + param[5] * altitude / 100
+ param[6] * altitude * altitude / 10000 + param[7] * Math.Tan(slope) + param[8] * Math.Tan(slope) * Math.Tan(slope) + param[9] * slope *Math.Sin(aspect) + param[10] * slope *Math.Cos(aspect);
double CR = 1 / (1 + Math.Exp(-X));
array[i].UnderBranchHeight = (1 - CR) * array[i].Height;
if (Double.IsNaN(array[i].UnderBranchHeight) || Double.IsInfinity(array[i].UnderBranchHeight))
{
Console.WriteLine("ERROR: NaN or Infinity of UnderBranchHeight");
return(null);
}
}
return(array);
}
/// <summary>
/// 蒙古栎天然林单木生长模型研究(马武,2015)
/// </summary>
/// <param name="units"></param>
/// <param name="dem"></param>
/// <param name="param">param16:林分密度指数参数</param>
/// <param name="canopydensity">郁闭度</param>
/// <param name="SI">地位指数</param>
/// <param name="D0">标准平均直径(中国一般取10)</param>
/// <returns></returns>
public List <Tree> DBHGrowthModel4(List <SpatialUnit.unit_tree> units, DEMOperate dem, List <double> param, double canopydensity, double SI, double D0, double area)
{
//林分每公顷断面积
double BA = 0;
for (int i = 0; i < array.Count; i++)
{
BA = BA + Math.PI * array[i].DBH * array[i].DBH / 4;
}
double BAS = BA / area;
//BAL 大于对象木全部树木胸高断面积之和
List <double> BAL = new List <double>();
for (int i = 0; i < array.Count; i++)
{
double bal = 0;
for (int j = 0; j < array.Count; j++)
{
if (array[j].DBH > array[i].DBH)
{
bal = bal + Math.PI * array[j].DBH * array[j].DBH / 4;
}
}
BAL.Add(bal / 10000);
}
//林分中最大直径
double maxDBH = array[0].DBH;
for (int i = 0; i < array.Count; i++)
{
if (maxDBH < array[i].DBH)
{
maxDBH = array[i].DBH;
}
}
for (int i = 0; i < array.Count; i++)
{
//林木个体
double size = param[1] * Math.Log(array[i].DBH) + param[2] * array[i].DBH * array[i].DBH;
//林分密度指数
double N = array.Count / area * 10000;
double SDI = N * Math.Pow(D0 / array[i].DBH, param[17]);
//对象木胸径与林分断面积平均胸径之比RD
double RD = array[i].DBH / (Math.Sqrt((BA / array.Count) / Math.PI) * 2);
//林分中大于对象木的所有林木直径平方和DL
double DL = 0;
for (int j = 0; j < array.Count; j++)
{
if (array[j].DBH > array[i].DBH)
{
DL = DL + array[j].DBH * array[j].DBH;
}
}
//对象木直径与林分中最大林木直径之比DDM
double DDM = array[i].DBH / maxDBH;
//竞争
double comp = param[3] * BAL[i] + param[4] * SDI + param[5] * BAS + param[6] * RD + param[7] * DL + param[8] * canopydensity + param[9] * DDM;
//立地条件
//计算x,y对应DEM的行列号
dem.getColRow(array[i].X, array[i].Y);
//读取高程
double altitude = dem.getDEMValue();
//计算坡度
double slope = dem.CalcuSlope();
//计算坡向
double aspect = dem.CalcuAspect();
double SL = Math.Tan(slope);
double E = altitude;
double SLS = SL * Math.Sin(aspect);
double SLC = SL * Math.Cos(aspect);
double site = param[10] * SI + param[11] * SL + param[12] * SL * SL + param[13] * E + param[14] * E * E + param[15] * SLS + param[16] * SLC;
double DGI = Math.Exp(param[0] + size + comp + site);
array[i].DBH = Math.Sqrt(array[i].DBH * array[i].DBH + DGI);
if (Double.IsNaN(array[i].DBH) || Double.IsInfinity(array[i].DBH))
{
Console.WriteLine("ERROR: NaN or Infinity of DBH");
return(null);
}
}
return(array);
}
/// <summary>
/// Sönmez 2009, A distance-independent basal area growth model for oriental spruce...
/// 针对混合混交林,对于纯林同样适用
/// </summary>
/// <param name="units"></param>
/// <param name="dem"></param>
/// <param name="param"></param>
/// <param name="SI"></param>
/// <param name="age"></param>
/// <returns></returns>
public List <Tree> DBHGrowthModel5(List <SpatialUnit.unit_tree> units, DEMOperate dem, List <double> param, double SI, double age, double area, double BP)
{
//BAS 每公顷断面积
double BA = 0;
for (int i = 0; i < array.Count; i++)
{
BA = BA + Math.PI * array[i].DBH * array[i].DBH / 4;
}
BA = BA / area;
double N = array.Count / area * 10000;
//BAL 大于对象木全部树木胸高断面积之和
List <double> BAL = new List <double>();
for (int i = 0; i < array.Count; i++)
{
double bal = 0;
for (int j = 0; j < array.Count; j++)
{
if (array[j].DBH > array[i].DBH)
{
bal = bal + Math.PI * array[j].DBH * array[j].DBH / 4;
}
}
BAL.Add(bal / 10000);
}
for (int i = 0; i < array.Count; i++)
{
//个体参数
double size = param[1] * Math.Log(array[i].DBH) + param[2] * array[i].DBH * array[i].DBH + param[3] / age;
//竞争
double comp = param[4] * BAL[i] + param[5] * Math.Log(BA) + param[6] * Math.Log(N);
//计算x,y对应DEM的行列号
dem.getColRow(array[i].X, array[i].Y);
//读取高程
double altitude = dem.getDEMValue();
//计算坡度
double slope = dem.CalcuSlope();
//计算坡向
double aspect = dem.CalcuAspect();
//立地
double site = param[7] * SI + param[8] * altitude + param[9] * Math.Log(aspect * 180 / Math.PI + 1);
//混交
double mix = param[10] * Math.Log(BP + 1);
double DGI = Math.Exp(param[0] + size + comp + site);
array[i].DBH = 2 * Math.Sqrt((Math.PI * array[i].DBH * array[i].DBH / 4 + DGI) / Math.PI);
if (Double.IsNaN(array[i].DBH) || Double.IsInfinity(array[i].DBH))
{
Console.WriteLine("ERROR: NaN or Infinity of DBH");
return(null);
}
}
return(array);
}
/// <summary>
/// 基于简单竞争指数胸径连年生长量模型(覃阳平)——胸径
/// param 0~7:模型参数;param 8~10:竞争指数参数
/// </summary>
/// <param name="units"></param>
/// <param name="dem"></param>
/// <param name="param"></param>
/// <param name="SI"></param>
/// <returns></returns>
public List <Tree> DBHGrowthModel1(List <SpatialUnit.unit_tree> units, DEMOperate dem, List <double> param, double SI)
{
//double avgDBH = 0;
//int count = 0;
List <double> D = new List <double>();
for (int i = 0; i < array.Count; i++)
{
//胸径增长量
double DGI = 0;
//计算x,y对应DEM的行列号
dem.getColRow(array[i].X, array[i].Y);
//读取高程
double altitude = dem.getDEMValue();
//计算坡度
double slope = dem.CalcuSlope();
//计算坡向
double aspect = dem.CalcuAspect();
//生长模型
//计算胸径增长量
//计算林木大小因子
double size = param[1] * Math.Log(array[i].DBH) + param[2] * array[i].DBH * array[i].DBH;
//计算竞争因子
double distance1 = Math.Sqrt((array[units[i].id[0]].X - array[i].X) * (array[units[i].id[0]].X - array[i].X) + (array[units[i].id[0]].Y - array[i].Y) * (array[units[i].id[0]].Y - array[i].Y));
double comp1 = (Math.Pow(array[units[i].id[0]].DBH, param[8]) / Math.Pow(array[i].DBH, param[9])) / Math.Pow(distance1, param[10]);
double distance2 = Math.Sqrt((array[units[i].id[1]].X - array[i].X) * (array[units[i].id[1]].X - array[i].X) + (array[units[i].id[1]].Y - array[i].Y) * (array[units[i].id[1]].Y - array[i].Y));
double comp2 = (Math.Pow(array[units[i].id[1]].DBH, param[8]) / Math.Pow(array[i].DBH, param[9])) / Math.Pow(distance2, param[10]);
double distance3 = Math.Sqrt((array[units[i].id[2]].X - array[i].X) * (array[units[i].id[2]].X - array[i].X) + (array[units[i].id[2]].Y - array[i].Y) * (array[units[i].id[2]].Y - array[i].Y));
double comp3 = (Math.Pow(array[units[i].id[2]].DBH, param[8]) / Math.Pow(array[i].DBH, param[9])) / Math.Pow(distance3, param[10]);
double distance4 = Math.Sqrt((array[units[i].id[3]].X - array[i].X) * (array[units[i].id[3]].X - array[i].X) + (array[units[i].id[3]].Y - array[i].Y) * (array[units[i].id[3]].Y - array[i].Y));
double comp4 = (Math.Pow(array[units[i].id[3]].DBH, param[8]) / Math.Pow(array[i].DBH, param[9])) / Math.Pow(distance4, param[10]);
double comp = comp1 + comp2 + comp3 + comp4;
//计算立地条件
double site = param[4] * SI + param[5] * Math.Tan(slope) + param[6] * altitude + param[7] * aspect * 180 / Math.PI;
//胸径增长量
DGI = Math.Exp(param[0] + size + param[3] * comp + site);
double tempD = Math.Sqrt(DGI + array[i].DBH * array[i].DBH);
array[i].DBH = tempD;
if (Double.IsNaN(array[i].DBH) || Double.IsInfinity(array[i].DBH))
{
Console.WriteLine("ERROR: NaN or Infinity of DBH");
return(null);
}
}
////边界木变化取平均值
//if (count > 0)
//{
// avgDBH = avgDBH / count;
// for (int i = 0; i < array.Count; i++)
// {
// if (array[i].isEdge)
// {
// array[i].DBH = avgDBH;
// }
// }
//}
return(array);
}
