Assessing the Influence of Cardinality Constraints on the Simultaneous Optimization of Truss Sizing, Shape, and Topology
Nenad Petrović, Nenad Kostić, Nenad Marjanović, Ružica R. Nikolić, Robert Ulewicz

TL;DR
This study examines how cardinality constraints affect the optimal design of truss structures by minimizing weight while using a limited number of cross-sections.
Contribution
The study introduces the use of cardinality constraints to simultaneously optimize truss sizing, shape, and topology for practical engineering applications.
Findings
Cardinality constraints help achieve global optimal solutions with fewer cross-section types in truss design.
Weight savings trends are observed based on the number of cross-sections used relative to global optima.
Case studies show the practical applicability of cardinality constraints in real-world truss optimization.
Abstract
The influence of cardinality constraints on the simultaneous optimization of truss sizing, shape, and topology, when used for weight minimization, is explored in this study. By integrating precise cardinality constraints, the implications for achieving global optimal solutions for different numbers of different cross-sections were investigated. This research underscores the significance of these constraints in enhancing the practical applicability of optimization outcomes, particularly in complex structural configurations where traditional approaches may lead to excessive requirements of numerous different cross-sections. Comprehensive experimentation and comparative analysis, across various standard and practical truss examples, demonstrate the effectiveness of cardinality constraints in guiding optimal design configurations. Notably, the presented findings reveal a trend in weight…
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Taxonomy
TopicsTopology Optimization in Engineering · Building Energy and Comfort Optimization · Design Education and Practice
