public override a_Fuzzy_System Generate(Fuzzy_system.Approx_Singletone.a_Fuzzy_System Approximate, Abstract_generator_conf config)
{
a_Fuzzy_System result = Approximate;
if (result.Count_Rulles_Databases == 0)
{
result.Init_Rules_everyone_with_everyone(config);
}
count_shrink = ((Term_shrink_and_rotate_conf)config).Число_параметров_для_уменьшения_термов;
size_shrink = ((Term_shrink_and_rotate_conf)config).Значение_уменьшения_термов;
type_func = ((Term_shrink_and_rotate_conf)config).Функция_принадлежности;
count_slices = ((Term_shrink_and_rotate_conf)config).Количество_термов_для_каждого_признака;
List <int> Varians_of_run_system = new List <int>();
for (int i = 0; i < Approximate.Count_Vars; i++)
{
int count_terms_for_var = Approximate.Rulles_Database_Set[0].Terms_Set.FindAll(x => x.Number_of_Input_Var == i).Count;
if (i < count_shrink)
{
Varians_of_run_system.Add(count_terms_for_var - size_shrink);
}
else
{
Varians_of_run_system.Add(count_terms_for_var);
}
}
Varians_of_run_system.Sort();
Type_Term_Func_Enum type_of_term = Approximate.Rulles_Database_Set[0].Terms_Set[0].Term_Func_Type;
Generate_all_variant_in_pool(Varians_of_run_system);
for (int i = 0; i < Pull_of_systems.Count; i++)
{
Approximate.Rulles_Database_Set.Clear();
Approximate.Init_Rules_everyone_with_everyone(type_of_term, Pull_of_systems[i].ToArray());
Systems_ready_to_test.Add(Approximate.Rulles_Database_Set[0]);
errors_of_systems.Add(result.approx_Learn_Samples(0));
}
int best_index = errors_of_systems.IndexOf(errors_of_systems.Min());
result.Rulles_Database_Set.Clear();
result.Rulles_Database_Set.Add(Systems_ready_to_test[best_index]);
Console.WriteLine(Pull_of_systems.Count());
GC.Collect();
// result.unlaid_protection_fix();
return(result);
}
public override a_Fuzzy_System TuneUpFuzzySystem(Fuzzy_system.Approx_Singletone.a_Fuzzy_System Approximate, Abstract_learn_algorithm_conf config)
{
a_Fuzzy_System result = Approximate;
if (result.Count_Rulles_Databases == 0)
{
throw new System.FormatException("Что то не то с входными данными");
}
Optimize_Term_shrink_and_rotate_conf Config = config as Optimize_Term_shrink_and_rotate_conf;
count_shrink = Config.Число_параметров_для_уменьшения_термов;
size_shrink = Config.Значение_уменьшения_термов;
List <int> Varians_of_run_system = new List <int>();
for (int i = 0; i < Approximate.Count_Vars; i++)
{
int count_terms_for_var = Approximate.Rulles_Database_Set[0].Terms_Set.FindAll(x => x.Number_of_Input_Var == i).Count;
if (i < count_shrink)
{
Varians_of_run_system.Add(count_terms_for_var - size_shrink);
}
else
{
Varians_of_run_system.Add(count_terms_for_var);
}
}
Varians_of_run_system.Sort();
Type_Term_Func_Enum type_of_term = Approximate.Rulles_Database_Set[0].Terms_Set[0].Term_Func_Type;
Generate_all_variant_in_pool(Varians_of_run_system);
for (int i = 0; i < Pull_of_systems.Count; i++)
{
Approximate.Rulles_Database_Set.Clear();
Approximate.Init_Rules_everyone_with_everyone(type_of_term, Pull_of_systems[i].ToArray());
Systems_ready_to_test.Add(Approximate.Rulles_Database_Set[0]);
errors_of_systems.Add(result.approx_Learn_Samples(0));
}
int best_index = errors_of_systems.IndexOf(errors_of_systems.Min());
result.Rulles_Database_Set.Clear();
result.Rulles_Database_Set.Add(Systems_ready_to_test[best_index]);
Console.WriteLine(Pull_of_systems.Count());
// result.unlaid_protection_fix();
return(result);
}
public override a_Fuzzy_System Generate(Fuzzy_system.Approx_Singletone.a_Fuzzy_System Approximate, Abstract_generator_conf config)
{
start_add_rules = Approximate.Count_Rulles_Databases;
a_Fuzzy_System result = Approximate;
if (result.Count_Rulles_Databases == 0)
{
result.Init_Rules_everyone_with_everyone(config);
}
Request_count_rules = ((Rulles_shrink_conf)config).Нужно_Правил;
max_count_rules = ((Rulles_shrink_conf)config).Максимально_Правил;
count_slices = ((Rulles_shrink_conf)config).Количество_термов_для_каждого_признака;
min_count_rules = ((Rulles_shrink_conf)config).Минимально_Правил;
type_term = ((Rulles_shrink_conf)config).Функция_принадлежности;
int count_of_swith_off = ((Rulles_shrink_conf)config).Максимально_Правил - Request_count_rules;
List <byte> Varians_of_run_system = new List <byte>();
for (int i = 0; i < Approximate.Rulles_Database_Set[0].Rules_Database.Count; i++)
{
Varians_of_run_system.Add(1);
}
for (int i = 0; i < count_of_swith_off; i++)
{
Varians_of_run_system[i] = 0;
}
Generate_all_variant_in_pool(Varians_of_run_system);
for (int i = 0; i < Pull_of_systems.Count; i++)
{
Knowlege_base_ARules temp_rules = new Knowlege_base_ARules(result.Rulles_Database_Set[0], Pull_of_systems[i]);
temp_rules.trim_not_used_Terms();
result.Rulles_Database_Set.Add(temp_rules);
result.unlaid_protection_fix(start_add_rules + i);
errors_of_systems.Add(result.approx_Learn_Samples(start_add_rules + i));
}
int best_index = errors_of_systems.IndexOf(errors_of_systems.Min());
Knowlege_base_ARules best = result.Rulles_Database_Set[start_add_rules + best_index];
result.Rulles_Database_Set.Clear();
result.Rulles_Database_Set.Add(best);
Console.WriteLine(Pull_of_systems.Count());
GC.Collect();
// result.unlaid_protection_fix();
return(result);
}
public override a_Fuzzy_System TuneUpFuzzySystem(Fuzzy_system.Approx_Singletone.a_Fuzzy_System Approximate, Abstract_learn_algorithm_conf config)
{
start_add_rules = Approximate.Count_Rulles_Databases;
a_Fuzzy_System result = Approximate;
if (result.Count_Rulles_Databases == 0)
{
throw new System.FormatException("Что то не то с входными данными");
}
Optimize_Rulles_shrink_conf Config = config as Optimize_Rulles_shrink_conf;
Request_count_rules = ((Rulles_shrink_conf)config).Нужно_Правил;
max_count_rules = ((Rulles_shrink_conf)config).Максимально_Правил;
min_count_rules = ((Rulles_shrink_conf)config).Минимально_Правил;
int count_of_swith_off = Config.Максимально_Правил - Request_count_rules;
List <byte> Varians_of_run_system = new List <byte>();
for (int i = 0; i < Approximate.Rulles_Database_Set[0].Rules_Database.Count; i++)
{
Varians_of_run_system.Add(1);
}
for (int i = 0; i < count_of_swith_off; i++)
{
Varians_of_run_system[i] = 0;
}
Generate_all_variant_in_pool(Varians_of_run_system);
for (int i = 0; i < Pull_of_systems.Count; i++)
{
Knowlege_base_ARules temp_rules = new Knowlege_base_ARules(result.Rulles_Database_Set[0], Pull_of_systems[i]);
temp_rules.trim_not_used_Terms();
result.Rulles_Database_Set.Add(temp_rules);
result.unlaid_protection_fix(start_add_rules + i);
errors_of_systems.Add(result.approx_Learn_Samples(start_add_rules + i));
}
int best_index = errors_of_systems.IndexOf(errors_of_systems.Min());
Knowlege_base_ARules best = result.Rulles_Database_Set[start_add_rules + best_index];
result.Rulles_Database_Set.Clear();
result.Rulles_Database_Set.Add(best);
Console.WriteLine(Pull_of_systems.Count());
// result.unlaid_protection_fix();
return(result);
}
public void constuct__and_add_the_Rule(List <Term> terms, a_Fuzzy_System FS)
{
ARule Result;
int[] order_of_terms = new int[terms.Count()];
for (int i = 0; i < terms.Count(); i++)
{
order_of_terms[i] = terms_set.Count;
terms_set.Add(terms[i]);
}
double kons_Value = FS.Nearest_Approx(terms_set);
Result = new ARule(terms_set, order_of_terms, kons_Value);
arules_database.Add(Result);
}
public override Fuzzy_system.Approx_Singletone.a_Fuzzy_System TuneUpFuzzySystem(Fuzzy_system.Approx_Singletone.a_Fuzzy_System Approximate, Abstract_learn_algorithm_conf conf)
{
count_iteration = ((Term_Config_PSO_Search_conf)conf).Количество_итераций;
c1 = ((Term_Config_PSO_Search_conf)conf).Коэффициент_c1;
c2 = ((Term_Config_PSO_Search_conf)conf).Коэффициент_c2;
w = 1;
count_particle = ((Term_Config_PSO_Search_conf)conf).Особей_в_популяции;
a_Fuzzy_System result = Approximate;
Knowlege_base_ARules[] X = new Knowlege_base_ARules[count_particle];
Knowlege_base_ARules[] V = new Knowlege_base_ARules[count_particle];
Knowlege_base_ARules[] Pi = new Knowlege_base_ARules[count_particle];
Knowlege_base_ARules Pg = new Knowlege_base_ARules();
double[] Errors = new double[count_particle];
double[] OldErrors = new double[count_particle];
double minError = 0;
Random rnd = new Random();
for (int i = 0; i < count_particle; i++)
{
Knowlege_base_ARules temp_c_Rule = new Knowlege_base_ARules(result.Rulles_Database_Set[0]);
X[i] = temp_c_Rule;
Errors[i] = result.approx_Learn_Samples(0);
OldErrors[i] = Errors[i];
Pi[i] = new Knowlege_base_ARules(X[i]);
V[i] = new Knowlege_base_ARules(X[i]);
//
for (int j = 0; j < V[i].Terms_Set.Count; j++)
{
for (int k = 0; k < Member_Function.Count_Params_For_Term(V[i].Terms_Set[j].Term_Func_Type); k++)
{
if (i == 0)
{
V[i].Terms_Set[j].Parametrs[k] = 0;
}
else
{
V[i].Terms_Set[j].Parametrs[k] = rnd.NextDouble() - 0.5;
}
}
double[] bf = new double[V[i].all_conq_of_rules.Length];
for (int k = 0; k < V[i].all_conq_of_rules.Length; k++)
{
if (i == 0)
{
bf[k] = 1;
}
else
{
bf[k] = rnd.NextDouble() / 200;
}
}
V[i].all_conq_of_rules = bf;
}
}
Pg = new Knowlege_base_ARules(result.Rulles_Database_Set[0]);
minError = Errors[0];
for (int i = 0; i < count_iteration; i++)
{
for (int j = 0; j < count_particle; j++)
{
w = 1 / (1 + Math.Exp(-(Errors[j] - OldErrors[j]) / 0.01));
for (int k = 0; k < X[j].Terms_Set.Count; k++)
{
for (int q = 0; q < Member_Function.Count_Params_For_Term(X[j].Terms_Set[k].Term_Func_Type); q++)
{
double bp = Pi[j].Terms_Set[k].Parametrs[q];
V[j].Terms_Set[k].Parametrs[q] = V[j].Terms_Set[k].Parametrs[q] * w + c1 * rnd.NextDouble() * (bp - X[j].Terms_Set[k].Parametrs[q]) +
c2 * rnd.NextDouble() * (Pg.Terms_Set[k].Parametrs[q] - X[j].Terms_Set[k].Parametrs[q]);
X[j].Terms_Set[k].Parametrs[q] += V[j].Terms_Set[k].Parametrs[q];
}
}
double[] bf = new double[V[j].all_conq_of_rules.Length];
double[] bfw = new double[V[j].all_conq_of_rules.Length];
for (int k = 0; k < V[j].all_conq_of_rules.Length; k++)
{
bfw[k] = V[j].all_conq_of_rules[k] * w + c1 * rnd.NextDouble() * (Pi[j].all_conq_of_rules[k] - X[j].all_conq_of_rules[k]) +
c2 * rnd.NextDouble() * (Pg.all_conq_of_rules[k] - X[j].all_conq_of_rules[k]);
double sw = X[j].all_conq_of_rules[k] + bfw[k];
if (sw > 0 && sw <= 2)
{
bf[k] = sw;
}
else
{
bf[k] = X[j].all_conq_of_rules[k];
bfw[k] = V[j].all_conq_of_rules[k];
}
}
X[j].all_conq_of_rules = bf;
V[j].all_conq_of_rules = bfw;
double newError = 0;
result.Rulles_Database_Set.Add(X[j]);
int temp_index = result.Rulles_Database_Set.Count - 1;
bool success = true;
try
{
newError = result.approx_Learn_Samples(temp_index);
}
catch (Exception)
{
success = false;
}
result.Rulles_Database_Set.RemoveAt(temp_index);
if (success && (newError > Errors[j]))
{
OldErrors[j] = Errors[j];
Errors[j] = newError;
Pi[j] = new Knowlege_base_ARules(X[j]);
}
if (minError < newError)
{
minError = newError;
Pg = new Knowlege_base_ARules(X[j]);
}
}
}
result.Rulles_Database_Set[0] = Pg;
GC.Collect();
return(result);
}
public override Fuzzy_system.Approx_Singletone.a_Fuzzy_System TuneUpFuzzySystem(Fuzzy_system.Approx_Singletone.a_Fuzzy_System Approximate, Abstract_learn_algorithm_conf conf)
{
Mnk_lib.Mnk_class Mnk_me = new Mnk_lib.Mnk_class();
double [,,] Extracted_rules = extract_Rules(Approximate.Rulles_Database_Set[0]);
double [,] Extracted_Samples = extract_Sample_table(Approximate.Learn_Samples_set);
double [] Extracted_Samples_out = extract_Sample_table_Out(Approximate.Learn_Samples_set);
int count_rules = Approximate.Count_Rules();
int count_samples = Approximate.Learn_Samples_set.Count_Samples;
int count_Vars = Approximate.Learn_Samples_set.Count_Vars;
double [] New_consq = new double[count_rules];
Type_Term_Func_Enum type_Func = Approximate.Rulles_Database_Set[0].Terms_Set[0].Term_Func_Type;
int type_func = (int)type_Func;
Mnk_me.mnk_R(Extracted_rules, count_rules, type_func, Extracted_Samples, Extracted_Samples_out, count_samples, count_Vars, out New_consq);
a_Fuzzy_System Result = Approximate;
double result_before = Result.approx_Learn_Samples(0);
double [] Back_consq = Result.Rulles_Database_Set[0].all_conq_of_rules;
Result.Rulles_Database_Set[0].all_conq_of_rules = New_consq;
double result_after = Result.approx_Learn_Samples(0);
if (result_before < result_after)
{
Result.Rulles_Database_Set[0].all_conq_of_rules = Back_consq;
}
GC.Collect();
return(Result);
}
public override a_Fuzzy_System Generate(Fuzzy_system.Approx_Singletone.a_Fuzzy_System Approximate, Abstract_generator_conf config)
{
Random rand = new Random();
a_Fuzzy_System result = Approximate;
if (result.Count_Rulles_Databases == 0)
{
Knowlege_base_ARules temp_rules = new Knowlege_base_ARules();
result.Rulles_Database_Set.Add(temp_rules);
}
type_term = ((Generator_Rulles_simple_random_conf)config).Функция_принадлежности;
stable_terms = (int)((Generator_Rulles_simple_random_conf)config).Тип_Термов;
count_rules = ((Generator_Rulles_simple_random_conf)config).Количество_правил;
for (int j = 0; j < count_rules; j++)
{
int[] order = new int[result.Count_Vars];
Type_Term_Func_Enum temp_type_term;
if (stable_terms == 0)
{
temp_type_term = type_term;
}
else
{
temp_type_term = Generator_type_term();
}
List <Term> temp_term_list = new List <Term>();
for (int k = 0; k < result.Count_Vars; k++)
{
double[] parametrs = new double[Member_Function.Count_Params_For_Term(temp_type_term)];
switch (temp_type_term)
{
case Type_Term_Func_Enum.Треугольник:
parametrs[0] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
parametrs[1] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
parametrs[2] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
Array.Sort(parametrs);
break;
case Type_Term_Func_Enum.Гауссоида: parametrs[0] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
parametrs[1] = (rand.NextDouble() + 0.01) * 0.5 *
(result.Learn_Samples_set.Attribute_Max(k) -
result.Learn_Samples_set.Attribute_Min(k));
break;
case Type_Term_Func_Enum.Парабола: parametrs[0] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
parametrs[1] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
Array.Sort(parametrs);
break;
case Type_Term_Func_Enum.Трапеция: parametrs[0] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
parametrs[1] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
parametrs[2] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
parametrs[3] = result.Learn_Samples_set.Attribute_Min(k) + rand.NextDouble() * (result.Learn_Samples_set.Attribute_Max(k) - result.Learn_Samples_set.Attribute_Min(k));
Array.Sort(parametrs);
break;
}
Term temp_term = new Term(parametrs, temp_type_term, k);
result.Rulles_Database_Set[0].Terms_Set.Add(temp_term);
temp_term_list.Add(temp_term);
order[k] = result.Rulles_Database_Set[0].Terms_Set.Count - 1;
}
double approx_Value = result.Nearest_Approx(temp_term_list);
ARule temp_Rule = new ARule(result.Rulles_Database_Set[0].Terms_Set, order, approx_Value);
result.Rulles_Database_Set[0].Rules_Database.Add(temp_Rule);
}
result.unlaid_protection_fix();
GC.Collect();
return(result);
}
public override Fuzzy_system.Approx_Singletone.a_Fuzzy_System TuneUpFuzzySystem(Fuzzy_system.Approx_Singletone.a_Fuzzy_System Approximate, Abstract_learn_algorithm_conf conf)
{
count_populate = ((Es_Config)conf).Особей_в_популяции;
count_child = ((Es_Config)conf).Потомки;
count_iterate = ((Es_Config)conf).Количество_итераций;
coef_t1 = ((Es_Config)conf).Коэффициент_t1;
coef_t2 = ((Es_Config)conf).Коэффициент_t2;
param_crossover = ((Es_Config)conf).Вероятность_скрещивания;
alg_cross = ((Es_Config)conf).Алгоритм_Скрещивания;
type_init = ((Es_Config)conf).Алгоритм_Инициализации;
count_Multipoint = ((Es_Config)conf).Точек_Скрещивания;
type_mutate = ((Es_Config)conf).Алгоритм_Мутации;
b_ro = ((Es_Config)conf).Изменение_РО;
a_Fuzzy_System result = Approximate;
Population main_pop = new Population(count_populate, count_child, result.Count_Vars, result.Learn_Samples_set);
main_pop.init_first(result.Rulles_Database_Set[0], rand, type_init);
for (int i = 0; i < count_iterate; i++)
{
double inparam = 0;
switch (alg_cross)
{
case Individ.Alg_crossover.Унифицированный: inparam = param_crossover; break;
case Individ.Alg_crossover.Многоточечный: inparam = count_Multipoint; break;
}
main_pop.select_parents_and_crossover(rand, alg_cross, inparam);
main_pop.mutate_all(rand, coef_t1, coef_t2, type_mutate, b_ro);
main_pop.union_parent_and_child();
main_pop.Calc_Error(result);
main_pop.select_global();
}
result.Rulles_Database_Set[0] = main_pop.get_best_database();
GC.Collect();
return(result);
}
