rechargedList = [] after_recharge= np.zeros([number_of_nodes,5]) g_queue = np.zeros([number_of_nodes]) #e_queue = np.zeros([number_of_nodes]) dead_list = [] total_distance_covered_by_MC = [] position= np.zeros([number_of_nodes, 2]) # Array contains the x and y coordinates of the Nodes ## Get coordinates for each nodes. xy_coordinates = Coordinates() x, y = xy_coordinates.setCoordinates5Clusters(3) # <- The number represets the cluster number. for i in range(number_of_nodes): position[i,0] = x[i] position[i,1] = y[i] print("Postions: ", position) ##--------------------Sensor-------------------------------------------------------##
energy_lost_for_charging = 6000 # Joules queue = np.zeros([number_of_nodes,3]) rechargedList = [] after_recharge= np.zeros([number_of_nodes,5]) g_queue = np.zeros([number_of_nodes]) e_queue = np.zeros([number_of_nodes]) dead_list = [] position= np.zeros([number_of_nodes, 2]) # Array contains the x and y coordinates of the Nodes ## Get coordinates for each nodes. xy_coordinates = Coordinates() x, y = xy_coordinates.setCoordinates5Clusters(3) for i in range(number_of_nodes): position[i,0] = x[i] position[i,1] = y[i] print("Postions: ", position) total_distance_covered_by_MC = [] ##--------------------Sensor-------------------------------------------------------##
rechargedList = [] after_recharge = np.zeros([number_of_nodes, 5]) g_queue = np.zeros([number_of_nodes]) #e_queue = np.zeros([number_of_nodes]) dead_list = [] total_distance_covered_by_MC = [] position = np.zeros([number_of_nodes, 2]) # Array contains the x and y coordinates of the Nodes ## Get coordinates for each nodes. xy_coordinates = Coordinates() x, y = xy_coordinates.setCoordinates5Clusters( 3) # <- The number represets the cluster number. for i in range(number_of_nodes): position[i, 0] = x[i] position[i, 1] = y[i] print("Postions: ", position) ##--------------------Sensor-------------------------------------------------------## def Sensor(num): ''' The Sensor(node_ID) function creates a node and takes a parameter 'node_ID' which is the ID of the node.