Comparar métodos

Examine os métodos selecionados lado a lado; as linhas que diferem ficam destacadas.

	Programação Inteira Estocástica ×	Programação Inteira Mista ×
Área	Simulação	Simulação
Família	Process / pipeline	Process / pipeline
Ano de origem≠	1990s–2000s	1958–1960
Autor original≠	Birge, J. R.; Louveaux, F.; Sen, S.	Ralph Gomory (branch-and-bound cuts, 1958); Land & Doig (branch-and-bound, 1960)
Tipo≠	Stochastic optimization model	Mathematical optimization
Fonte seminal≠	Birge, J. R., & Louveaux, F. (1997). Introduction to Stochastic Programming. Springer Series in Operations Research. New York: Springer. ISBN: 9780387982175	Nemhauser, G. L., Wolsey, L. A. (1988). Integer and Combinatorial Optimization. Wiley-Interscience, New York. ISBN: 9780471359432
Outros nomes	SMIP, Stochastic MIP, Mixed-Integer Stochastic Programming, SMILP	MIP, Mixed-Integer Linear Programming, MILP, Integer Programming
Relacionados≠	5	6
Resumo≠	Stochastic Mixed-Integer Programming (SMIP) is an optimization framework that finds the best mix of binary, integer, and continuous decisions when key parameters — costs, demands, capacities — are uncertain and modeled as probability distributions over a set of scenarios. It extends classical MIP by embedding scenario trees or expected-value objectives that hedge against uncertainty while respecting combinatorial constraints.	Mixed-Integer Programming (MIP) is a mathematical optimization framework in which some decision variables must take integer values while others may be continuous. It generalizes linear programming and is widely used in operations research, logistics, scheduling, resource allocation, and engineering design, where indivisibility constraints — such as yes/no decisions or whole-unit quantities — arise naturally.
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