Milestone Methods, SOTA(Meta-Heuristics), Benchmark Problems
版本 1.2.3 (441.6 KB) 作者:
Hamdi Tolga KAHRAMAN
Thirty most used global optimization problems in the literature and best hybrid MHS Algorithms on Real World Optimization Problems
"New Hypotheses for designing meta-heuristic search algorithms (MHSs)", "Competitive SOTA Algorithms" and "Classic Test Problems Benchmark Suite"
A) Milestone methods in the design of meta-heuristic search algorithms (MHSs) and studies in which they are introduced
1) Fitness-distance balance (FDB) : "Guidance mechanism design method for MHSs"
- Kahraman, Hamdi Tolga; ARAS, Sefa; GEDIKLI, Eyüp. Fitness-distance balance (FDB): a new selection method for meta-heuristic search algorithms. Knowledge-Based Systems, 2020, 190: 105169.
2) Natural Survivor Method (NSM) : "Update mechanism design method for MHSs"
- Kahraman, H. T., Katı, M., Aras, S., & Taşci, D. A. (2023). Development of the Natural Survivor Method (NSM) for designing an updating mechanism in metaheuristic search algorithms. Engineering Applications of Artificial Intelligence, 122, 106121.
3) Fitness-Distance-Constraint (FDC) : "Guidance mechanism design method for MHSs"
- Ozkaya, B., Kahraman, H. T., Duman, S., & Guvenc, U. (2023). Fitness-Distance-Constraint (FDC) based guide selection method for constrained optimization problems. Applied Soft Computing, 110479.
4) dynamic Fitness-Distance Balance (dFDB) : "Guidance mechanism design method for MHSs"
- Kahraman, H. T., Bakir, H., Duman, S., Katı, M., Aras, S., & Guvenc, U. (2022). Dynamic FDB selection method and its application: modeling and optimizing of directional overcurrent relays coordination. Applied Intelligence, 52(5), 4873-4908.
5) Adaptive fitness-distance balance (AFDB) : "Guidance mechanism design method for MHSs"
- Duman, S., Kahraman, H. T., & Kati, M. (2023). Economical operation of modern power grids incorporating uncertainties of renewable energy sources and load demand using the adaptive fitness-distance balance-based stochastic fractal search algorithm. Engineering Applications of Artificial Intelligence, 117, 105501.
B) Milestone methods in the design of multi-objective evolutionary algorithms (MOEAs) and studies in which they are introduced
Dear researchers, please check this link to learn DSC (Dynamic Switched Crowding) is based on a new theory developed for the design of multi-objective optimization algorithms. The source codes of two recent MOEA algorithms DSC-MOAGDE and DSC-MOSOS designed using the DSC method are also available at this link.
C)Links for source codes of the most up-to-date and competitive sigle objective SOTA algorithms in the literature:
Here are a few SOTA algorithms that demonstrate competitive search performance on classic single-objective optimization problems suites, IEEE CEC benchmark problems suites, and real-world constrained engineering optimization problems:
1) AFDB-ARO
- Ozkaya, B., Duman, S., Kahraman, H. T., & Guvenc, U. (2024). Optimal solution of the combined heat and power economic dispatch problem by adaptive fitness-distance balance based artificial rabbits optimization algorithm. Expert Systems with Applications, Volume 238, Part F, 122272.
2) dFDB-SFS
- Kahraman, H. T., Hassan, M. H., Katı, M., Tostado-Véliz, M., Duman, S., & Kamel, S. (2023). Dynamic-fitness-distance-balance stochastic fractal search (dFDB-SFS algorithm): an effective metaheuristic for global optimization and accurate photovoltaic modeling. Soft Computing, 1-28.
3) FDB-AGSK
- Bakır, H., Duman, S., Guvenc, U., & Kahraman, H. T. (2023). Improved adaptive gaining-sharing knowledge algorithm with FDB-based guiding mechanism for optimization of optimal reactive power flow problem. Electrical Engineering, 1-40.
4) FDB-TLABC
- Duman, S., Kahraman, H. T., Sonmez, Y., Guvenc, U., Kati, M., & Aras, S. (2022). A powerful meta-heuristic search algorithm for solving global optimization and real-world solar photovoltaic parameter estimation problems. Engineering Applications of Artificial Intelligence, 111, 104763.
5) FDB-AEO
- Sonmez, Y., Duman, S., Kahraman, H. T., Kati, M., Aras, S., & Guvenc, U. (2022). Fitness-distance balance based artificial ecosystem optimisation to solve transient stability constrained optimal power flow problem. Journal of Experimental & Theoretical Artificial Intelligence, 1-40.
6) FDB-LFD
- Bakir, H., Guvenc, U., Kahraman, H. T., & Duman, S. (2022). Improved Lévy flight distribution algorithm with FDB-based guiding mechanism for AVR system optimal design. Computers & Industrial Engineering, 168, 108032.
7) FDB-AGDE
- Guvenc, U., Duman, S., Kahraman, H. T., Aras, S., & Katı, M. (2021). Fitness–Distance Balance based adaptive guided differential evolution algorithm for security-constrained optimal power flow problem incorporating renewable energy sources. Applied Soft Computing, 108, 107421.
8) LRFDB-COA
- Duman, S., Kahraman, H. T., Guvenc, U., & Aras, S. (2021). Development of a Lévy flight and FDB-based coyote optimization algorithm for global optimization and real-world ACOPF problems. Soft Computing, 25(8), 6577-6617.
9) FDB-SFS
- Aras, S., Gedikli, E., & Kahraman, H. T. (2021). A novel stochastic fractal search algorithm with fitness-Distance balance for global numerical optimization. Swarm and Evolutionary Computation, 61, 100821.
10) FDB-CHOA
Bakir, H., Kahraman, H. T., Temel, S., Duman, S., Guvenc, U., & Sonmez, Y. (2023). Development of an FDB-Based Chimp Optimization Algorithm for Global Optimization and Determination of the Power System Stabilizer Parameters. In Smart Applications with Advanced Machine Learning and Human-Centred Problem Design (pp. 337-365). Cham: Springer International Publishing.
11) FDB-PPSO
Duman, S., Kahraman, H. T., Korkmaz, B., Bakir, H., Guvenc, U., & Yilmaz, C. (2023). Improved Phasor Particle Swarm Optimization with Fitness Distance Balance for Optimal Power Flow Problem of Hybrid AC/DC Power Grids. In The International Conference on Artificial Intelligence and Applied Mathematics in Engineering (pp. 307-336). Springer, Cham.
12) dFDB-GBO
Taşci, D. A., Kahraman, H. T., Kati, M., & Yilmaz, C. (2023). Improved Gradient-Based Optimizer with Dynamic Fitness Distance Balance for Global Optimization Problems. In The International Conference on Artificial Intelligence and Applied Mathematics in Engineering (pp. 247-269). Springer, Cham.
13) FDB-AOA
Yenipinar, B., Şahin, A., Sönmez, Y., Yilmaz, C., & Kahraman, H. T. (2023). Design Optimization of Induction Motor with FDB-Based Archimedes Optimization Algorithm for High Power Fan and Pump Applications. In The International Conference on Artificial Intelligence and Applied Mathematics in Engineering (pp. 409-428).
D) A new Routing Algorithm and TSP-D Problem Codes
E)Global Optimization Problems Classic Benchmark Suite:
Finally, a benchmarking package is presented in the appendix. This benchmark suite consists of the most commonly used test problems in the literature to test and verify the performance of metaheuristic search algorithms. This benchmark suite includes thirty test problems whose problem size can be changed dynamically. This benchmark suite was used to develop SOTA algorithms from the literature and compare their performance.
引用格式
Kahraman, Hamdi Tolga; ARAS, Sefa; GEDIKLI, Eyüp. Fitness-distance balance (FDB): a new selection method for meta-heuristic search algorithms. Knowledge-Based Systems, 2020, 190: 105169.
MATLAB 版本兼容性
创建方式
R2022b
兼容任何版本
平台兼容性
Windows macOS Linux标签
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!| 版本 | 已发布 | 发行说明 | |
|---|---|---|---|
| 1.2.3 | new studies added |
||
| 1.2.2 | Image Updated |
||
| 1.2.1 | Image updated |
||
| 1.2.0 | dFDB-SFS algorithm added |
||
| 1.1.0 | Description updated |
||
| 1.0.9 | citiation corrected |
||
| 1.0.8 | Title Updated |
||
| 1.0.7 | New methods and algorithms are added |
||
| 1.0.6 | New algorithms added |
||
| 1.0.5 | Algorithm has been added |
||
| 1.0.4 | title and summary were updated |
||
| 1.0.3 | New SOTA algorithms added |
||
| 1.0.2 | Citation updated |
||
| 1.0.1 | image update |
||
| 1.0.0 |
您也可以从以下列表中选择网站:
美洲
- América Latina (Español)
- Canada (English)
- United States (English)
欧洲
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)
亚太
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)