References
1. Zhao J H, Gao H B, Liu Y C, et al. Speech recognition algorithm based on neural network and hidden Markov model. Journal of China Universities of Posts and Telecommunications, 2018, 25(4): 28 -37
2. Gao H B, Cheng B, Wang J Q, et al. Object classification using CNN-based fusion of vision and LIDAR in autonomous vehicle environment. IEEE Transactions on Industrial Informatics, 2018, 14(9): 4224 -4231
3. Coates A, Huval B, Wang T, et al. Deep learning with COTS HPC systems. 30th International Conference on Machine Learning, June 16 -21, 2013, Atlanta, 2013: 1337 -1345
4. Wang Y X, Zhao S H, Yu Y Y, et al. Speech bandwidth extension based on restricted boltzmann machines. Journal of Electronics and Information Technology, 2016, 38(7): 1717 -1723
5. Wen W, Xu C, Yan F, et al. Terngrad: ternary gradients to reduce communication in distributed deep learning. 31st Annual Conference on Neural Information Processing Systems, Dec 4 -9, 2017, Long Beach, CA, USA, 2017: 1510 -1520
6. Campos V, Sastre F, Yagues M, et al. Distributed training strategies for a computer vision deep learning algorithms on a distributed GPU cluster. 18th IEEE/ACM International Conference on Computational Science, June 12 -14, 2017, Zurich, 2017: 315 -324
7. Ren Y, Wu X, Zhang L, et al. IRDMA: efficient use of RDMA in distributed deep learning systems. 19th IEEE Intl Conference on High Performance Computing and Communications, Dec 18 -20, 2017, Bangkok, 2018: 231 -238
8. Ichinose A, Nakada H, Takefusa A, et al. Pipeline-based processing of the deep learning framework caffe. 11th International Conference on Ubiquitous Information Management and Communication, Jan 5 -7, 2017, Beppu, 2017: 1 -8
9. Ma T, Wang F, Tian Y S, et al. A novel ensemble forecasting algorithm based on distributed deep learning network. International Journal of Performability Engineering, 2019, 15(11): 2927 -2935
10. Gao H B, Xie G T, Liu H Z, et al. Lateral control of autonomous vehicle based on learning driver behaviour via cloud model. Journal of China Universities of Posts and Telecommunications, 2017, 24(2): 10 -17
11. Zhou Q, Zhou W A, Yang B, et al. Deep cycle autoencoder for unsupervised domain adaptation with generative adversarial networks. IET Computer Vision, 2019, 13(7): 659 -665
12. Gao H B, Zhang X Y, Zhang T L, et al. Research of intelligent vehicle variable granularity evaluation based on cloud model. Acta Electronica Sinica, 2016, 44(2): 365 -374 (in Chinese)
13. Li D Y, Gao H B. A hardware platform framework for an intelligent vehicle based on a driving brain. Engineering, 2018, 4(4): 464 -470
14. Li M, Andersen D G, Smola A, et al. Communication efficient distributed machine learning with the parameter server. 28th Annual Conference on Neural Information Processing Systems 2014, Dec 8 -13, 2014, Montreal, 2014: 19 -27
15. Khumoyun A, Cui Y, Hanku L. Spark based distributed deep learning framework for big data applications. 2016 International Conference on Information Science and Communications Technologies, Nov 2 -4, 2016, Tashkent, Uzbekistan, 2016: 1 -5
16. Langer M, Hall A, He Z, et al. MPCA SGD-a method for distributed training of deep learning models on spark. IEEE Transactions on Parallel and Distributed Systems, 2018, 29(11):
2540 -2556
17. Mikyoung L, Sungho S, Seungkyun H, et al. BAIPAS: distributed deep learning platform with data locality and shuffling. 2017 European Conference on Electrical Engineering and Computer Science, Nov 17 -19, 2017, Bern, 2017: 5 -8
18. Guo Q, Liu Q L, Wang W M. Fast SqueezeNet algorithm with application in metro crowd density estimation. Control Theory and Applications, 2019, 36(7): 1036 -1046 (in Chinese) |
