| 21 | A fully spiking coupled model of a deep neural network and a recurrent attractor explains dynamics of decision making in an object recognition task | Naser Sadeghnejad, Mehdi Ezoji, Reza Ebrahimpour, Mohamad Qodosi, Sajjad Zabbah | Journal of Neural Engineering | 2024 |
| 22 | Coarse-to-fine underwater image enhancement with lightweight CNN and attention-based refinement | Ali Khandouzi, Mehdi Ezoji | JOURNAL OF VISUAL COMMUNICATION AND IMAGE REPRESENTATION | 2024 |
| 23 | A fully spiking coupled model of a deep neural network and a recurrent attractor explains dynamics of decision making in an object recognition task | Naser Sadeghnejad, Mehdi Ezoji, Reza Ebrahimpour, Mohamad Qodosi, Sajjad Zabbah | Journal of Neural Engineering | 2024 |
| 24 | Coarse-to-fine underwater image enhancement with lightweight CNN and attention-based refinement | Ali Khandouzi, Mehdi Ezoji | JOURNAL OF VISUAL COMMUNICATION AND IMAGE REPRESENTATION | 2024 |
| 25 | EEG-based Feature Space for Supporting Deep Neural Networks in Image Classification | Shiva Jahanaray, Mehdi Ezoji, Zahra Imani | International Journal of Engineering | 2024 |
| 26 | Coarse-to-fine underwater image enhancement with lightweight CNN and attention-based refinement | Ali Khandouzi, Mehdi Ezoji | JOURNAL OF VISUAL COMMUNICATION AND IMAGE REPRESENTATION | 2024 |
| 27 | Coarse-to-fine underwater image enhancement with lightweight CNN and attention-based refinement | Ali Khandouzi, Mehdi Ezoji | JOURNAL OF VISUAL COMMUNICATION AND IMAGE REPRESENTATION | 2024 |
| 28 | LSTM-based framework for predicting point defect percentage in semiconductor materials using simulated XRD patterns | Mehran Motamedi, Reza Shidpour, Mehdi Ezoji | Scientific Reports | 2024 |
| 29 | A fully spiking coupled model of a deep neural network and a recurrent attractor explains dynamics of decision making in an object recognition task | Naser Sadeghnejad, Mehdi Ezoji, Reza Ebrahimpour, Mohamad Qodosi, Sajjad Zabbah | Journal of Neural Engineering | 2024 |
| 30 | EEG-based Feature Space for Supporting Deep Neural Networks in Image Classification | Shiva Jahanaray, Mehdi Ezoji, Zahra Imani | International Journal of Engineering | 2024 |
| 31 | LSTM-based framework for predicting point defect percentage in semiconductor materials using simulated XRD patterns | Mehran Motamedi, Reza Shidpour, Mehdi Ezoji | Scientific Reports | 2024 |
| 32 | Multi-level brain-guided fusion to reinforce spiking neural network in image classification | Zahra Imani, Mehdi Ezoji | MULTIMEDIA TOOLS AND APPLICATIONS | 2024 |
| 33 | Multi-level brain-guided fusion to reinforce spiking neural network in image classification | Zahra Imani, Mehdi Ezoji | MULTIMEDIA TOOLS AND APPLICATIONS | 2024 |
| 34 | A fully spiking coupled model of a deep neural network and a recurrent attractor explains dynamics of decision making in an object recognition task | Naser Sadeghnejad, Mehdi Ezoji, Reza Ebrahimpour, Mohamad Qodosi, Sajjad Zabbah | Journal of Neural Engineering | 2024 |
| 35 | Multi-level brain-guided fusion to reinforce spiking neural network in image classification | Zahra Imani, Mehdi Ezoji | MULTIMEDIA TOOLS AND APPLICATIONS | 2024 |
| 36 | Coarse-to-fine underwater image enhancement with lightweight CNN and attention-based refinement | Ali Khandouzi, Mehdi Ezoji | JOURNAL OF VISUAL COMMUNICATION AND IMAGE REPRESENTATION | 2024 |
| 37 | LSTM-based framework for predicting point defect percentage in semiconductor materials using simulated XRD patterns | Mehran Motamedi, Reza Shidpour, Mehdi Ezoji | Scientific Reports | 2024 |
| 38 | EEG-based Feature Space for Supporting Deep Neural Networks in Image Classification | Shiva Jahanaray, Mehdi Ezoji, Zahra Imani | International Journal of Engineering | 2024 |
| 39 | LSTM-based framework for predicting point defect percentage in semiconductor materials using simulated XRD patterns | Mehran Motamedi, Reza Shidpour, Mehdi Ezoji | Scientific Reports | 2024 |
| 40 | Coarse-to-fine underwater image enhancement with lightweight CNN and attention-based refinement | Ali Khandouzi, Mehdi Ezoji | JOURNAL OF VISUAL COMMUNICATION AND IMAGE REPRESENTATION | 2024 |
