| Optimized design of two-dimensional structures using a genetic algorithm C Camp, S Pezeshk, G Cao Journal of structural engineering 124 (5), 551-559, 1998 | 452 | 1998 |
| Design of space trusses using ant colony optimization CV Camp, BJ Bichon Journal of structural engineering 130 (5), 741-751, 2004 | 393 | 2004 |
| Design of space trusses using big bang–big crunch optimization CV Camp Journal of Structural Engineering 133 (7), 999-1008, 2007 | 367 | 2007 |
| Design of nonlinear framed structures using genetic optimization S Pezeshk, CV Camp, D Chen Journal of structural engineering 126 (3), 382-388, 2000 | 357 | 2000 |
| Design of steel frames using ant colony optimization CV Camp, BJ Bichon, SP Stovall Journal of structural engineering 131 (3), 369-379, 2005 | 308 | 2005 |
| Flexural design of reinforced concrete frames using a genetic algorithm CV Camp, S Pezeshk, H Hansson Journal of structural engineering 129 (1), 105-115, 2003 | 283 | 2003 |
| Design of space trusses using modified teaching–learning based optimization CV Camp, M Farshchin Engineering Structures 62, 87-97, 2014 | 248 | 2014 |
| On the application of machine learning techniques to derive seismic fragility curves J Kiani, C Camp, S Pezeshk Computers & Structures 218, 108-122, 2019 | 212 | 2019 |
| Design of retaining walls using big bang–big crunch optimization CV Camp, A Akin Journal of Structural Engineering 138 (3), 438-448, 2012 | 198 | 2012 |
| CO2 and cost optimization of reinforced concrete frames using a big bang-big crunch algorithm CV Camp, F Huq Engineering Structures 48, 363-372, 2013 | 158 | 2013 |
| Multi-class teaching–learning-based optimization for truss design with frequency constraints M Farshchin, CV Camp, M Maniat Engineering Structures 106, 355-369, 2016 | 115 | 2016 |
| CO 2 and cost optimization of reinforced concrete footings using a hybrid big bang-big crunch algorithm CV Camp, A Assadollahi Structural and Multidisciplinary Optimization 48 (2), 411-426, 2013 | 86 | 2013 |
| Optimal design of truss structures for size and shape with frequency constraints using a collaborative optimization strategy M Farshchin, CV Camp, M Maniat Expert Systems with Applications 66, 203-218, 2016 | 69 | 2016 |
| School based optimization algorithm for design of steel frames M Farshchin, M Maniat, CV Camp, S Pezeshk Engineering Structures 171, 326-335, 2018 | 65 | 2018 |
| Population-based optimization in structural engineering: a review AR Kashani, CV Camp, M Rostamian, K Azizi, AH Gandomi Artificial Intelligence Review, 1-108, 2022 | 59 | 2022 |
| State of the art on the use of genetic algorithms in design of steel structures S Pezeshk, CV Camp Recent advances in optimal structural design, 55, 2002 | 52 | 2002 |
| Seismic performance-based design optimization considering direct economic loss and direct social loss S Saadat, CV Camp, S Pezeshk Engineering Structures 76, 193-201, 2014 | 46 | 2014 |
| Overhauser elements in boundary element analysis CV Camp, GS Gipson Mathematical and Computer Modelling 15 (3-5), 59-69, 1991 | 46 | 1991 |
| GIS procedure for developing three-dimensional subsurface profile CV Camp, MC Brown Journal of Computing in Civil Engineering 7 (3), 296-309, 1993 | 45 | 1993 |
| Geophysical log interpretation using neural network S Pezeshk, CV Camp, S Karprapu Journal of computing in civil engineering 10 (2), 136-142, 1996 | 43 | 1996 |
Shahram PezeshkThe University of Memphis在 memphis.edu 的电子邮件经过验证
Shahram PezeshkThe University of Memphis在 memphis.edu 的电子邮件经过验证