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A phase-equilibrium outranking method with hysteresis-banded thresholds for robust multi-criteria decision making: PEOM

Mehmet Akif Yerlikaya, Yunus Sayan, Murat BİNİCİ, Emin El, Faruk Oral, Hatef Javadi, Nicola Epicoco
July 1, 2026
Published Date

Research Abstract & Technology Focus

Real-world decisions often combine non-compensatory "must-meet" constraints with compensatory trade-offs. Classical Multi-Criteria Decision Making (MCDM) methods (e.g., TOPSIS, VIKOR, PROMETHEE) are mainly compensatory and may rank alternatives highly even when a critical requirement fails. This paper proposes the Phase-Equilibrium Outranking Method (PEOM), a novel hybrid framework that treats hard and soft thresholds as critical frontiers. PEOM integrates: (i) hysteresis-banded thresholds to model strict elimination and gradual penalty zones; (ii) an AND/OR process-aware structure that separates non-compensatory from compensatory criteria; (iii) shrinkage-based weight adjustment to mitigate distortions from correlated indicators; and (iv) a net-flow outranking mechanism for stable, interpretable rankings. PEOM is demonstrated on two energy case studies: wind turbine siting (capacity factor as a veto criterion) and PEM fuel cell hydrogen supply (ISO/SAE purity compliance as a gate). Results show early removal of infeasible options, robustness under correlated criteria, and rankings consistent with engineering intuition, with applicability across domains requiring both constraints and trade-offs.
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A phase-equilibrium outranking method with hysteresis-banded thresholds for robust multi-criteria decision making: PEOM

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What is the core focus of the research titled 'A phase-equilibrium outranking method with hysteresis-banded thresholds for robust multi-criteria decision making: PEOM'?

This literature focuses on: Real-world decisions often combine non-compensatory "must-meet" constraints with compensatory trade-offs. Classical Multi-Criteria Decision Making (MCDM) methods (e.g., TOPSIS, VIKOR, PROMETHEE) are mainly compensatory and may rank alternatives hi...

What other academic literature is closely related to 'A phase-equilibrium outranking method with hysteresis-banded thresholds for robust multi-criteria decision making: PEOM'?

Yes, highly correlated activity was mapped. An entry titled 'A phase-equilibrium outranking method with hysteresis-banded thresholds for robust multi-criteria decision making: PEOM' discusses this: Real-world decisions often combine non-compensatory "must-meet" constraints with compensatory trade-offs. Classical Multi-Criteria Decision Making ...

Are there commercial applications of 'A phase-equilibrium outranking method with hysteresis-banded thresholds for robust multi-criteria decision making: PEOM' in market news publications?

Yes, highly correlated activity was mapped. An entry titled 'A Sc2C2@C88-cluster-based ultra-compact multilevel probabilistic bit for matrix multiplication' discusses this: Electric-field-controllable, stochastic alteration of multiple conductance states in a Sc2C2@C88 cluster is observed. A matrix-chain multiplication...

Are there commercial applications of 'A phase-equilibrium outranking method with hysteresis-banded thresholds for robust multi-criteria decision making: PEOM' in GitHub?

Yes, highly correlated activity was mapped. An entry titled 'Engineering findings: K/V norm disparity + MSE > Prod + outlier mixed precision' discusses this: This issue presents critical engineering findings for TurboQuant, revealing significant opportunities for optimization. The 'K/V norm disparity' ne...

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