Yang, S., Deng, B., Wang, J., Li, H., Lu, M., Che, Y., Wei, X., & Loparo, K. A.(2020).Scalable Digital Neuromorphic Architecture for Large-Scale Biophysically Meaningful Neural Network with Multi-Compartment Neurons.IEEE Transactions on Neural Networks and Learning Systems,31(1),148-162.
Lu, M., Wei, X., Che, Y., Wang, J., & Loparo, K. A.(2020).Comments and Corrections Corrections to “Application of Reinforcement Learning to Deep Brain Stimulation in a Computational Model of Parkinson’s Disease”.IEEE Transactions on Neural Systems and Rehabilitation Engineering,28(3),766--766.
Lu, M., Wei, X., Che, Y., Wang, J., & Loparo, K. A.(2020).Application of Reinforcement Learning to Deep Brain Stimulation in a Computational Model of Parkinson's Disease.IEEE Transactions on Neural Systems and Rehabilitation Engineering,28(1),339-349.
Lu, M., Wei, X., Che, Y., Wang, J., & Loparo, K. A.(2020).Erratum: Application of reinforcement learning to deep brain stimulation in a computational model of Parkinson's disease (IEEE Transactions on Neural Systems and Rehabilitation Engineering (2020) 28: 1 (339-349.IEEE Transactions on Neural Systems and Rehabilitation Engineering,28(3),9027068.
Yang, S., Deng, B., Wang, J., Li, H., Lu, M., Che, Y., Wei, X., & Loparo, K. A.(2019).Scalable Digital Neuromorphic Architecture for Large-Scale Biophysically Meaningful Neural Network With Multi-Compartment Neurons.IEEE transactions on neural networks and learning systems.
