Example #1
0
def buildSimulation(alpha, gamma, lambdaa, importance,expName='test0',indNo=1):
	net=nef.Network('HandWired parameters of RL node to bias')
	net.add_to_nengo()  

	#rl = rl_sarsa.qlambda("RL", noStateVars=2, noActions=4, noValues=20, logPeriod=2000)
	rl = rl_sarsa.qlambdaMOO("RL", noStateVars=2, noActions=4, noValues=20, logPeriod=2000)
	world = gridworld.benchmarkA("map_20x20","BenchmarkGridWorldNodeC",10000);
	net.add(rl)									    # place them into the network
	net.add(world)

	# connect them together
	net.connect(world.getOrigin(QLambda.topicDataIn), rl.newTerminationFor(QLambda.topicDataIn))
	net.connect(rl.getOrigin(QLambda.topicDataOut), world.getTermination(QLambda.topicDataOut))

	# define the parameter sources (controllable from the simulation window)
	net.make_input('alpha',[alpha])
	net.make_input('gamma',[gamma])
	net.make_input('lambda',[lambdaa])
	net.make_input('importance',[importance])

	# connect signal sources to the RL node
	net.connect('alpha', rl.getTermination(QLambda.topicAlpha))
	net.connect('gamma', rl.getTermination(QLambda.topicGamma))
	net.connect('lambda', rl.getTermination(QLambda.topicLambda))
	net.connect('importance', rl.getTermination(QLambda.topicImportance))
	
	if(indNo==0):
	    saver = net.add(ProsperitySaver(expName+'.txt'))
	    net.connect(rl.getOrigin(QLambda.topicProsperity),saver.getTermination("data"));
	    
	return net
Example #2
0
def buildSimulation(alpha, gamma, lambdaa, importance, expName='test0'):
	net=nef.Network('HandWired parameters of RL node to bias')
	net.add_to_nengo()  

	#rl = rl_sarsa.qlambda("RL", noStateVars=2, noActions=4, noValues=20, logPeriod=2000)
	rl = rl_sarsa.qlambdaMOO("RL", noStateVars=2, noActions=4, noValues=20, logPeriod=2000)
	world = gridworld.benchmarkA("map_20x20","BenchmarkGridWorldNodeC",10000);
	net.add(rl)									    # place them into the network
	net.add(world)

	# connect them together
	net.connect(world.getOrigin(QLambda.topicDataIn), rl.newTerminationFor(QLambda.topicDataIn))
	net.connect(rl.getOrigin(QLambda.topicDataOut), world.getTermination(QLambda.topicDataOut))

	# define the parameter sources (controllable from the simulation window)
	net.make_input('alpha',[alpha])
	net.make_input('gamma',[gamma])
	net.make_input('lambda',[lambdaa])
	net.make_input('importance',[importance])

	# connect signal sources to the RL node
	net.connect('alpha', rl.getTermination(QLambda.topicAlpha))
	net.connect('gamma', rl.getTermination(QLambda.topicGamma))
	net.connect('lambda', rl.getTermination(QLambda.topicLambda))
	net.connect('importance', rl.getTermination(QLambda.topicImportance))
	
	saver = net.add(ProsperitySaver('data_'+expName+'.txt'))
	net.connect(rl.getOrigin(QLambda.topicProsperity),saver.getTermination("data"));
	return net