MOPSO transition

2026-01-15 20:33:19 +01:00
parent a6f84df680
commit 18c9fa43c3
2 changed files with 63 additions and 32 deletions
--- a/mopso.py
+++ b/mopso.py
@@ -1,20 +1,28 @@
+import random as rd
 from .particle import Particle

 class MOPSO():
-    def __init__(self, n, t, w, c1, c2, a_max, surrogate=False):
+    def __init__(self, f_weigths:list, A_max:float, price_mean:float, price_std:float, n:int, t:int, w:float, c1:float, c2:float, archive_size:int=10, nb_vehicles:int=10, delta_t:int=60, nb_of_ticks:int=72, x_min=-100, x_max=100, v_alpha=0.1, surrogate=False):
        # Constants
        self.n = n # Number of particles
-        self.t = t # Number of iterations
+        self.t = t # Number of simulation iterations
        self.w = w # Inertia (for exploration)
        self.c1 = c1 # Individual trust
        self.c2 = c2 # Social trust
-        self.a_max = a_max # Archive size
+        self.archive_size = archive_size # Archive size
+        self.f_weigths = f_weigths # Weigths for aggregation of all function objective

        self.surrogate = surrogate # Using AI calculation

-        self.particles = [] # Particles of the simulation
-        # Fonctions objectifs
-        # Limites variables de decision
+        # Initialisation of particle's global parameters
+        self.A_max = A_max # Network's power limit
+        self.socs, self.socs_req = self.generate_state_of_charges(nb_vehicles,nb_of_ticks)
+        self.times = self.generate_times(nb_vehicles, nb_of_ticks, delta_t)
+        self.prices = self.generates_prices(price_mean,price_std) #TODO: Use RTE France prices for random prices generation according to number of ticks
+
+        # Particles of the simulation
+        self.particles = [Particle(times=self.times,nb_vehicles=nb_vehicles, nb_of_ticks=nb_of_ticks, delta_t=delta_t, x_min=x_min, x_max=x_max, alpha=v_alpha) for _ in range(self.n)]
+        self.archive = []
    
    def iterate(self):
        nb_iter = 0
@@ -35,4 +43,45 @@ class MOPSO():
                # Checking boundaries
                # Evaluating particles
                # Update the archive
-                # Checking for best positions
+                # Checking for best positions
+    
+    # Generation of arriving and leaving times for every vehicle
+    def generate_times(self, nb_vehicles, nb_of_ticks, delta_t):
+        times = []
+        for _ in range(nb_vehicles):
+            # Minumun, we have one tick of charging/discharging during simulation
+            t_arrived = rd.randrange(0, (nb_of_ticks * delta_t - delta_t) +1, delta_t)
+            t_leaving = rd.randrange(t_arrived + delta_t, (nb_of_ticks * delta_t) +1, delta_t)
+            times.append((t_arrived,t_leaving))
+        return times
+    
+    # Genrates different prices in [mean - std, mean + std] range
+    def generates_prices(self,nb_of_ticks:int, mean:float, std:float):
+        prices = []
+        for _ in range(nb_of_ticks):
+            variation = rd.randrange(-(std*10), (std * 10) +1, 1) / 10 # Random float variation
+            prices.append(mean + variation)
+        return prices
+    
+    # Genrates the coordinated states of charges requested and initial (duplicated initially for other ticks)
+    def generate_state_of_charges(self, nb_vehicles:int, nb_of_ticks:int):
+        socs = []
+        socs_req = []
+        # We ensure soc_req is greater than what the soc_init is (percentage transformed into floats)
+        for _ in range(nb_vehicles):
+            soc_init = rd.randrange(0,100,1)
+            soc_req = rd.randrange(soc_init+1, 101,1)
+
+            # Creating states of charges for each tick in time
+            for _ in range(nb_of_ticks):
+                socs.append(soc_init/100)
+            
+            # Adding the requested state of charge
+            socs_req.append(soc_req/100)
+        return socs, socs_req
+
+    # Random uniform selection for a leader
+    def select_leader(self):
+        n = len(self.archive) # Archive length
+        rd_pos = rd.randrange(0, n, 1)
+        return self.archive[rd_pos]