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A Novel Hybrid Portfolio Optimization Framework: Integrating HRP with MEREC and WEDBA Methods
Pub. online: 11 February 2026      Type: Research Article      Open accessOpen Access

This study was produced from the PhD thesis titled “Portfolio Optimization with Hierarchical Risk Parity and Multi-Criteria Decision Making: BIST 100 Application”.
Received
1 July 2025
Accepted
1 January 2026
Published
11 February 2026

Abstract

This research presents a novel hybrid portfolio optimization framework that combines the Hierarchical Risk Parity (HRP) algorithm with two Multi-Criteria Decision-Making (MCDM) methods, MEREC and WEDBA, specifically to overcome fundamental shortcomings in the standard HRP model. The central goal is to alleviate the chaining problem and resolve HRP’s difficulty in identifying the optimal number of clusters, issues known to negatively affect portfolio diversification and risk allocation. To achieve this structural improvement, the Elbow method is integrated directly into the HRP process, ensuring a robust cluster structure is defined before any weight allocation occurs. The MEREC method is then utilized to calculate objective criterion weights, while the WEDBA approach is employed to assess the financial performance of individual assets within each cluster generated by HRP. This HRP–MCDM algorithm is tested using daily closing price data for stocks on the BIST 100 Index covering the 2018–2022 period. The performance of portfolios generated across seven distinct linkage methods (Ward, single, complete, average, weighted, centroid, and median) is rigorously benchmarked against the outcomes from the traditional HRP approach. Findings demonstrate that the HRP–MCDM framework significantly boosts both return levels and risk-adjusted metrics, especially when using the single and Ward linkage method, thereby surpassing the standard HRP algorithm in the majority of test cases. By strategically blending machine-learning-based risk clustering with objective, multi-criteria evaluation, this study makes a vital methodological contribution to the portfolio optimization domain, equipping investors with a more stable, transparent, and performance-focused asset allocation instrument.

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Biographies

Katranci Ali
https://orcid.org/0000-0002-7586-1169
akatranci@pau.edu.tr

A. Katrancı works at Pamukkale University, Türkiye. He received his PhD in business administration-quantitative methods from Pamukkale University. His research interests include multi-criteria decision-making, fuzzy decision models, optimization techniques, portfolio optimization, and machine learning-based decision models.

Kundakci Nilsen
https://orcid.org/0000-0002-7283-320X
nilsenk@pau.edu.tr

N. Kundakcı is a professor in the Department of Business Administration at Pamukkale University, Denizli, Türkiye. She received her PhD in business administration-quantitative methods from Pamukkale University. She has authored and co-authored more than 70 publications in international and national peer-reviewed journals and conference proceedings. Her research interests include fuzzy logic, multi-criteria decision-making methods, and heuristic algorithms.


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© 2026 Vilnius University
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Keywords
machine learning multi-criteria decision making (MCDM) MEREC WEDBA

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