def LA_ue(factors, output):
'''
parametric study for computing equilibrium flows with different demand factors
'''
net, demand, node, geom = load_LA_3()
demand[:, 2] = demand[:, 2] / 4000.
single_class_parametric_study(factors, output, net, demand)
def LA_ue(factors, output):
'''
parametric study for computing equilibrium flows with different demand factors
'''
net, demand, node, geom = load_LA_3()
demand[:,2] = demand[:,2] / 4000.
single_class_parametric_study(factors, output, net, demand)
def LA_so(factors, output):
'''
parametric study for computing social optimum with different demand factors
'''
net, demand, node, geom = load_LA_3()
demand[:, 2] = demand[:, 2] / 4000.
net2 = net_with_marginal_cost(net)
single_class_parametric_study(factors, output, net2, demand)
def LA_so(factors, output):
'''
parametric study for computing social optimum with different demand factors
'''
net, demand, node, geom = load_LA_3()
demand[:,2] = demand[:,2] / 4000.
net2 = net_with_marginal_cost(net)
single_class_parametric_study(factors, output, net2, demand)
def LA_ue_K(factors, thres, cog_cost, output):
'''
parametric study for computing equilibrium flows with different demand factors
and cognitive cost
'''
net, demand, node, geom = load_LA_3()
demand[:, 2] = demand[:, 2] / 4000.
net2, small_capacity = multiply_cognitive_cost(net, geom, thres, cog_cost)
single_class_parametric_study(factors, output, net2, demand)
def LA_ue_K(factors, thres, cog_cost, output):
'''
parametric study for computing equilibrium flows with different demand factors
and cognitive cost
'''
net, demand, node, geom = load_LA_3()
demand[:,2] = demand[:,2] / 4000.
net2, small_capacity = multiply_cognitive_cost(net, geom, thres, cog_cost)
single_class_parametric_study(factors, output, net2, demand)