There are numerous ways to evolve neural networks. You can evolve topologies, weights or both (this is done especially in reinforcement learning domains, see EANT or NEAT).
You said you should evolve the weights of your network. Generally you can apply any optimization algorithm for this. But there are different categories of problems and optimization algorithms. In supervised learning it usually makes sense to calculate an error on your training set and the gradient of the error function with respect to the weights. Optimization algorithms that use gradient information are usually faster than genetic algorithms (e. g. Backprop, Quickprop, RProp, Conjugate Gradient, Levenberg-Marquardt...).
As you said, you don't have a training set and thus you don't have an error function so you cannot calculate a gradient. Well, what you need to evolve the weights of your neural networks is some kind of fitness function. If you don't have any fitness function, you will not be able to improve anything by adjusting your weights. So, basically you have a function F(w), where w is your continuous weight vector you have to optimize with respect to F. Your algorithm should do something like this:
- initialize neural network
- generate N weight vectors
- calculate fitness values of weight vectors
- repeat 2.-4. until some stopping criterion is satisfied
From your description I guess that you probably have to solve some kind of reinforcement learning problem. In this case you could e. g. take the accumulated reward of an episode as a fitness value. If you are interested in this topic: there is some recent research about applying genetic algorithms on neural networks to solve reinforcement learning problems (this is called neuroevolution). Usually people use genetic algorithms like CMA-ES (CMA-NeuroES) or CoSyNE.
I hope I could help.