Selection vs Control is a distinction I always point to when discussing optimization. Yet this is not the two takes on optimization I generally use. My favored ones are internal optimization (which is basically search/selection), and external optimization (optimizing systems from Alex Flint’s The ground of optimization). So I do without control, or at least without Abram’s exact definition of control. Why? Simply because the internal structure vs behavior distinction mentioned in this post seems more important than the actual definitions (which seem constrained by going back to Yudkowski’s optimization power). The big distinction is between doing internal search (like in optimization algorithms or mesa-optimizers) and acting as optimizing something. It is intuitive that you can do the second without the first, but before Alex Flint’s definition, I couldn’t put words on my intuition than the first implies the second. So my current picture of optimization is Internal Optimization (Internal Search/Selection) \subset External Optimization (Optimizing systems). This means that I think of this post as one of the first instances of grappling at this distinction, without agreeing completely with the way it ends up making that distinction.

In a field like alignment or embedded agency, it's useful to keep a list of one or two dozen ideas which seem like they should fit neatly into a full theory, although it's not yet clear how. When working on a theoretical framework, you regularly revisit each of those ideas, and think about how it fits in. Every once in a while, a piece will click, and another large chunk of the puzzle will come together. Selection vs control is one of those ideas. It seems like it should fit neatly into a full theory, but it's not yet clear what that will look like. I revisit the idea pretty regularly (maybe once every 3-4 months) to see how it fits with my current thinking. It has not yet had its time, but I expect it will (that's why it's on the list, after all). Bearing in mind that the puzzle piece has not yet properly clicked, here are some current thoughts on how it might connect to other pieces: * Selection and control have different type signatures. * A selection process optimizes for the values of variables in some model, which may or may not correspond anything in the real world. Human values seem to be like this - see Human Values Are A Function Of Humans' Latent Variables. * A control process, on the other hand, directly optimizes things in its environment. A thermostat, for instance, does not necessarily contain any model of the temperature a few minutes in the future; it just directly optimizes the value of the temperature a few minutes in the future. * The post basically says it, but it's worth emphasizing: reinforcement learning is a control process, expected utility maximization is a selection process. The difference in type signatures between RL and EU maximization is the same as the difference in type signatures between selection and control. * Inner and outer optimizers can have different type signatures: an outer controller (e.g. RL) can learn an inner selector (e.g. utility maximizer), or an outer selector (e.g. a human) can build an inner controller (e