Extensions to generalized disjunctive programming: hierarchical structures and first-order logic

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Hector D. Perez, Ignacio E. Grossmann
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引用次数: 0

Abstract

Optimization problems with discrete–continuous decisions are traditionally modeled in algebraic form via (non)linear mixed-integer programming. A more systematic approach to modeling such systems is to use generalized disjunctive programming (GDP), which extends the disjunctive programming paradigm proposed by Egon Balas to allow modeling systems from a logic-based level of abstraction that captures the fundamental rules governing such systems via algebraic constraints and logic. Although GDP provides a more general way of modeling systems, it warrants further generalization to encompass systems presenting a hierarchical structure. This work extends the GDP literature to address two major alternatives for modeling and solving systems with nested (hierarchical) disjunctions: explicit nested disjunctions and equivalent single-level disjunctions. We also provide theoretical proofs on the relaxation tightness of such alternatives, showing that explicitly modeling nested disjunctions is superior to the traditional approach discussed in literature for dealing with nested disjunctions.

Abstract Image

广义分解式程序设计的扩展:层次结构和一阶逻辑
具有离散-连续决策的优化问题传统上通过(非)线性混合整数编程以代数形式建模。对此类系统进行建模的一种更系统的方法是使用广义断分编程(GDP),它扩展了 Egon Balas 提出的断分编程范式,允许从基于逻辑的抽象层次对系统进行建模,通过代数约束和逻辑捕捉支配此类系统的基本规则。虽然 GDP 提供了一种更通用的系统建模方法,但仍有必要进一步推广,以涵盖具有层次结构的系统。本研究对 GDP 文献进行了扩展,解决了嵌套(分层)分节系统建模和求解的两个主要选择:显式嵌套分节和等效单层分节。我们还提供了关于这些替代方案松弛紧密性的理论证明,表明显式嵌套断点建模优于文献中讨论的处理嵌套断点的传统方法。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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