Robust optimization. A term given to an approach to deal with uncertainty, similar to the recourse model of stochastic programming, except that feasibility for all possible realizations (called scenarios) is replaced by a penalty function in the objective. As such, the approach integrates goal programming with a scenario-based description of problem data. To illustrate, consider the LP:
Min cx + dy: Ax=b, Bx + Cy = e, x, y >= 0,
where d, B, C and e are random variables with possible realizations {(d(s), B(s), C(s), e(s): s in {1,...,N}} (N = number of scenarios). The robust optimization model for this LP is:
Min f(x, y(1), ..., y(N)) + wP(z(1), ..., z(N)): Ax=b, x >= 0,
B(s)x + C(s)y(s) + z(s) = e(s), and y(s) >= 0, for all s = 1,...,N,
where f is a function that measures the cost of the policy, P is a penalty function, and w > 0 (a parameter to trade off the cost of infeasibility). One example of f is the expected value: f(x, y) = cx + Sum_s{d(s)y(s)p(s)}, where p(s) = probability of scenario s. In a worst-case model, f(x,y) = Max_s{d(s)y(s)}. The penalty function is defined to be zero if (x, y) is feasible (for all scenarios) -- i.e., P(0)=0. In addition, P satisfies a form of monotonicity: worse violations incur greater penalty. This often has the form P(z) = U(z^+) + V(-z^-) -- i.e., the "up" and "down" penalties, where U and V are strictly increasing functions.
The above makes robust optimization similar (at least in the model) to a goal program. Recently, the robust optimization community defines it differently – it optimizes for the worst-case scenario. Let the uncertain MP be given by
min f(x; s): x in X(s), where S is some set of scenarios (like parameter values). The robust optimization model (according to this more recent definition) is:
minx {maxs in S f(x; s)} x in X(t) for all t in S, The policy (x) is required to be feasible no matter what parameter value (scenario) occurs; hence, it is requied to be in the intersection of all possible X(s). The inner maximization yields the worst possible objective value among all scenarios. There are variations, such as "adjustability" (i.e., recourse).
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