1 A. Baghlani, "Weight Optimization of Truss Structures by a New Feasible Boundary Search Technique Hybridized with Firefly Algorithm" 대한토목학회 18 (18): 1105-1118, 2014
2 Mohammad Yassami, "Using Fuzzy Genetic, Artificial Bee Colony (ABC) and Simple Genetic Algorithm for the Stiffness Optimization of Steel Frames with Semi-rigid Connections" 대한토목학회 19 (19): 1366-1374, 2015
3 Liu, F., "Topology optimization of truss structure based on improved group search optimization algorithm" 4 : 22-28, 2010
4 Yuji Miyazu, "Topology optimization of supporting structure for seismic response reduction of an arch" Springer Science and Business Media LLC 59 (59): 852-861, 2016
5 Jianhongyu Li, "Topology optimization of continuum structure with dynamic constraints using mode identification" 대한기계학회 29 (29): 1407-1412, 2015
6 Tang, W. Y., "The improved genetic algorithm is used to solve the topology optimization of truss" 25 (25): 78-84, 2008
7 Alessandra Fiore, "Structural Optimization of Hollow-section Steel Trusses by Differential Evolution Algorithm" 한국강구조학회 16 (16): 411-423, 2016
8 Shyue-Jian Wu, "Steady-state genetic algorithms for discrete optimization of trusses" Elsevier BV 56 (56): 979-991, 1995
9 Bin Yang, "Solving Truss Topological Optimization via Swarm Intelligence" 대한토목학회 19 (19): 1962-1972, 2015
10 Mridula Sarkar, "Optimization of Welded Beam Structure Using Neutrosophic Optimization Technique: A Comparative Study" Springer Science and Business Media LLC 20 (20): 847-860, 2018
1 A. Baghlani, "Weight Optimization of Truss Structures by a New Feasible Boundary Search Technique Hybridized with Firefly Algorithm" 대한토목학회 18 (18): 1105-1118, 2014
2 Mohammad Yassami, "Using Fuzzy Genetic, Artificial Bee Colony (ABC) and Simple Genetic Algorithm for the Stiffness Optimization of Steel Frames with Semi-rigid Connections" 대한토목학회 19 (19): 1366-1374, 2015
3 Liu, F., "Topology optimization of truss structure based on improved group search optimization algorithm" 4 : 22-28, 2010
4 Yuji Miyazu, "Topology optimization of supporting structure for seismic response reduction of an arch" Springer Science and Business Media LLC 59 (59): 852-861, 2016
5 Jianhongyu Li, "Topology optimization of continuum structure with dynamic constraints using mode identification" 대한기계학회 29 (29): 1407-1412, 2015
6 Tang, W. Y., "The improved genetic algorithm is used to solve the topology optimization of truss" 25 (25): 78-84, 2008
7 Alessandra Fiore, "Structural Optimization of Hollow-section Steel Trusses by Differential Evolution Algorithm" 한국강구조학회 16 (16): 411-423, 2016
8 Shyue-Jian Wu, "Steady-state genetic algorithms for discrete optimization of trusses" Elsevier BV 56 (56): 979-991, 1995
9 Bin Yang, "Solving Truss Topological Optimization via Swarm Intelligence" 대한토목학회 19 (19): 1962-1972, 2015
10 Mridula Sarkar, "Optimization of Welded Beam Structure Using Neutrosophic Optimization Technique: A Comparative Study" Springer Science and Business Media LLC 20 (20): 847-860, 2018
11 Yang, X. S., "Nature Inspired Cooperative Strategies for Optimization (NICSO 2010)" Springer 65-74, 2010
12 Sonia Goyal, "Modified Bat Algorithm for Localization of Wireless Sensor Network" Springer Science and Business Media LLC 86 (86): 657-670, 2016
13 Kumari, U. R., "Microelectronics, Electromagnetics and Telecommunications" Springer 547-557, 2016
14 Pingzhang Zhou, "Interval analysis based robust truss optimization with continuous and discrete variables using mix-coded genetic algorithm" Springer Science and Business Media LLC 56 (56): 353-370, 2017
15 Shen-yan Chen, "Improved genetic algorithm with two-level approximation using shape sensitivities for truss layout optimization" Springer Science and Business Media LLC 55 (55): 1365-1382, 2017
16 Yousef Hosseinzadeh, "Hybridizing electromagnetism-like mechanism algorithm with migration strategy for layout and size optimization of truss structures with frequency constraints" Springer Science and Business Media LLC 27 (27): 953-971, 2016
17 Tsai, P. W., "Genetic and Evolutionary Computing" Springer 3-9, 2016
18 Forest Flager, "Fully Constrained Design: A general and scalable method for discrete member sizing optimization of steel truss structures" Elsevier BV 140 : 55-65, 2014
19 S. Kazemzadeh Azad, "Discrete sizing optimization of steel trusses under multiple displacement constraints and load cases using guided stochastic search technique" Springer Science and Business Media LLC 52 (52): 383-404, 2015
20 Gong, Y. B., "Computational Methods in Engineering and Science" Springer 301-301, 2006
21 Wang, Y., "Application of number theory in approximate analysis" 3 : 72-78, 1980
22 Jonas Mockus, "Application of Reduced-set Pareto-Lipschitzian Optimization to truss optimization" Springer Science and Business Media LLC 67 (67): 425-450, 2017
23 O. Hasançebi, "A bat-inspired algorithm for structural optimization" Elsevier BV 128 : 77-90, 2013