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| | Ημερομηνία Έκδοσης | Τίτλος | Συγγραφέας |
| 41 | 1-Μαΐ-2021 | New fundamental period formulae for soil-reinforced concrete structures interaction using machine learning algorithms and ANNs | Gravett, Dewald Z. ; Mourlas, Christos ; Taljaard, Vicky Lee ; Bakas, Nikolaos P. ; Markou, George ; Papadrakakis, Manolis |
| 42 | 10-Μαρ-2021 | Enhanced dynamic simulation approach towards the efficient mining thermal energy supply with improved operational flexibility | Rosado-Tamariz, Erik ; Genco, Filippo ; Campos-Amezcua, Alfonso ; Markou, George ; Batres, Rafael |
| 43 | 17-Ιαν-2021 | Finite element modelling of plain and reinforced concrete specimens with the Kotsovos and Pavlovic material model, smeared crack approach and fine meshes | Markou, George ; Roeloffze, Wynand |
| 44 | 1-Ιαν-2021 | Predicting the shear capacity of reinforced concrete slender beams without stirrups by applying artificial intelligence algorithms | Spijkerman, Zelda ; Bakas, Nikolaos P. ; Markou, George ; Papadrakakis, Manolis |
| 45 | 1-Ιαν-2021 | Links of aesthetic value of multi-curvature artifacts, with their structural behavior, utilizing machine learning algorithms | Bakas, Nikolaos P. ; Christofi, Neofytos ; Bellos, John ; Antoniou, Dimitris ; Markou, George |
| 46 | 1-Ιαν-2021 | Performance and scalability of deep learning models trained on a hybrid supercomputer: Application in the prediction of the shear strength of slender RC beams | Bakas, Nikolaos P. ; Markou, George ; Charmpis, Dimos C. ; Hadjiyiannakou, Kyriakos |
| 47 | 1-Ιαν-2021 | Development of a new fundamental period formula by considering soil-structure interaction with the use of machine learning algoritms | Taljaard, Vicky Lee ; Gravett, Dewald Z. ; Mourlas, Christos ; Markou, George ; Bakas, Nikolaos P. ; Papadrakakis, Manolis |
| 48 | 1-Ιαν-2021 | A new parallel algorithm for the optimum embedded rebar mesh generation for large-scale reinforced concrete structures | Gravett, Dewald Z. ; Markou, George |
| 49 | 2021 | Developing reinforced concrete structures through AI algorithms and large-scale modelling | Markou, George ; Bakas, Nikolaos P. |
| 50 | 1-Δεκ-2020 | Effect of Soil-Structure Interaction on Nonlinear Dynamic Response of Reinforced Concrete Structures | Mourlas, Christos ; Khabele, Neo ; Bark, Hussein A. ; Karamitros, Dimitris ; Taddei, Francesca ; Markou, George ; Papadrakakis, Manolis |
| 51 | 2020 | Predicting the behaviour of reinforced concrete structures | Markou, George ; Bakas, Nikolaos P. |
| 52 | 2020 | Reconan FEA, User's Manual, v2.00 | Markou, George ; Mourlas, Christos |
| 53 | 1-Νοε-2019 | Implementation of a Nonlinear Soil Material Model into a FEA Framework for the Simulation of the Seismic Soil-Structure Interaction | Bark, Ali |
| 54 | 1-Φεβ-2019 | Computationally Efficient and Robust Nonlinear 3D Cyclic Modeling of RC Structures Through a Hybrid Finite Element Model (HYMOD) | Markou, George ; Mourlas, Christos ; Papadrakakis, Manolis |
| 55 | Φεβ-2019 | Seismic assessment of small modular reactors: NuScale case study for the 8.8 Mw earthquake in Chile | Markou, George ; Genco, Filippo |
| 56 | 1-Ιαν-2019 | Numerical performance of a new algorithm for performing modal analysis of full-scale reinforced concrete structures that are Dιscrεtized with the HYMOD approach | Gravett, Dewald Z. ; Mourlas, Christos ; Markou, George ; Papadrakakis, Manolis |
| 57 | 1-Ιαν-2019 | Cyclic nonlinear modeling of severely damaged and retrofitted reinforced concrete structures | Markou, George ; Mourlas, Christos ; Garcia, Reyes ; Pilakoutas, Kypros ; Papadrakakis, Manolis |
| 58 | 1-Ιαν-2019 | Accurate and computationally efficient nonlinear static and dynamic analysis of reinforced concrete structures considering damage factors | Mourlas, Christos ; Markou, George ; Papadrakakis, Manolis |
| 59 | 1-Ιαν-2019 | 3D detailed modeling of reinforced concrete frames considering accumulated damage during static cyclic and dynamic analysis – New validation case studies | Mourlas, Christos ; Markou, George ; Papadrakakis, Manolis |
| 60 | 2019 | Artificial Intelligence (A.I.) Reinforced Concrete. Algorithms predict concrete strength without training on experimental data | Markou, George ; Bakas, Nikolaos P. |
