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- | <WRAP centeralign><fs large>** NSF/ECCS-1811497: Enabling Spectrum and Energy-Efficient Dynamic Spectrum Access Wireless Networks using Neuromorphic Computing**</fs>\\ | + | <fs large>**NSF/ECCS-1811497: Enabling Spectrum and Energy-Efficient Dynamic Spectrum Access Wireless Networks using Neuromorphic Computing**</fs> |
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* C. Sahin, L. Liu, E. Perrins, and L. Ma, "Delay-Sensitive Communications over IR-HARQ: Modulation, Coding Latency, and Reliability", Special Issue on Ultra-Reliable Low-Latency Communications in Wireless Networks, //IEEE J. Sel. Area Commun.//, vol. 37, no. 4, pp. 749 - 764, April 2019. | * C. Sahin, L. Liu, E. Perrins, and L. Ma, "Delay-Sensitive Communications over IR-HARQ: Modulation, Coding Latency, and Reliability", Special Issue on Ultra-Reliable Low-Latency Communications in Wireless Networks, //IEEE J. Sel. Area Commun.//, vol. 37, no. 4, pp. 749 - 764, April 2019. | ||
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+ | * First release of our code on Brain-Inspired Computing Meets MIMO-OFDM can be found [[https://github.com/JohnJohnZhou/ESN_MIMO_v1|here]].\\ | ||
* H. Jiang, H. He, L. Liu and Y. Yi, "Q-Learning for Non-Cooperative Channel Access Game of Cognitive Radio Networks," 2018 //Intl Joint Conf. on Neural Netw.// (IJCNN), Rio de Janeiro, 2018, pp. 1-7. | * H. Jiang, H. He, L. Liu and Y. Yi, "Q-Learning for Non-Cooperative Channel Access Game of Cognitive Radio Networks," 2018 //Intl Joint Conf. on Neural Netw.// (IJCNN), Rio de Janeiro, 2018, pp. 1-7. |