I'm looking for ideas/experiences/references/keywords regarding an **adaptive-parameter-control** of **search algorithm** parameters (**online-learning**) in combinatorial-optimization.

A bit more detail:

I have a framework, which is responsible for optimizing a hard combinatorial-optimization-problem. This is done with the help of some "small heuristics" which are used in an iterative manner (large-neighborhood-search; ruin-and-recreate-approach). Every algorithm of these "small heuristics" is taking some external parameters, which are controlling the heuristic-logic in some extent (at the moment: just random values; some kind of noise; diversify the search).

Now i want to have a control-framework for choosing these parameters in a convergence-improving way, as general as possible, so that later additions of new heuristics are possible without changing the parameter-control.

There are at least two general decisions to make:

- A: Choose the algorithm-pair (one destroy- and one rebuild-algorithm) which is used in the next iteration.
- B: Choose the random parameters of the algorithms.

The only feedback is an evaluation-function of the new-found-solution. That leads me to the topic of **reinforcement-learning**. Is that the right direction?

Not really a learning-like-behavior, but the simplistic ideas at the moment are:

- A: A roulette-wheel-selection according to some performance-value collected during the iterations (near past is more valued than older ones). So if heuristic 1 did find all the new global best solutions -> high probability of choosing this one.
- B: No idea yet. Maybe it's possible to use some non-uniform random values in the range (0,1) and i'm collecting some momentum of the changes.
So if heuristic 1 last time used alpha = 0.3 and found no new best solution, then used 0.6 and found a new best solution -> there is a momentum towards 1
-> next random value is likely to be bigger than 0.3. Possible problems:
*oscillation*!

Things to remark: - The parameters needed for good convergence of one specific algorithm can change dramatically -> maybe more diversify-operations needed at the beginning, more intensify-operations needed at the end. - There is a possibility of good synergistic-effects in a specific pair of destroy-/rebuild-algorithm (sometimes called: coupled neighborhoods). How would one recognize something like that? Is that still in the reinforcement-learning-area? - The different algorithms are controlled by a different number of parameters (some taking 1, some taking 3).

Any ideas, experiences, references (papers), keywords (ml-topics)?

If there are ideas regarding the decision of (b) in a **offline-learning**-manner. Don't hesitate to mention that.

Thanks for all your input.

Sascha