Unlike a maximiser, that will attempt to squeeze the universe to every drop of utility that it can, a satisficer will be content when it reaches a certain level expected utility (a satisficer that is content with a certain level of utility is simply a maximiser with a bounded utility function).
Does it make sense to to claim that a satisficer will be content when it reaches a certain level of expected utility though? Some satisficers may work that way, but they don’t all need to work that way. Expected utility is somewhat arbitrary.
Instead, you could have a satisficer which tries to maximize the probability that the utility is above a certain value. This leads to different dynamics than maximizing expected utility. What do you think?
Instead, you could have a satisficer which tries to maximize the probability that the utility is above a certain value. This leads to different dynamics than maximizing expected utility. What do you think?
If U is the utility and u is the value that it needs to be above, define a new utility V, which is 1 if and only if U>u and is 0 otherwise. This is a well-defined utility function, and the design you described is exactly equivalent with being an expected V-maximiser.
Does it make sense to to claim that a satisficer will be content when it reaches a certain level of expected utility though? Some satisficers may work that way, but they don’t all need to work that way. Expected utility is somewhat arbitrary.
Instead, you could have a satisficer which tries to maximize the probability that the utility is above a certain value. This leads to different dynamics than maximizing expected utility. What do you think?
Related post on utility functions here: https://colekillian.com/posts/sbf-and-pascals-mugging/
If U is the utility and u is the value that it needs to be above, define a new utility V, which is 1 if and only if U>u and is 0 otherwise. This is a well-defined utility function, and the design you described is exactly equivalent with being an expected V-maximiser.