Neural Architecture Search
Neural Architecture Search (NAS) automates the design of optimal neural network architectures, aiming to replace the time-consuming and often suboptimal process of manual design. Current research focuses on improving efficiency, exploring various search algorithms (including reinforcement learning, evolutionary algorithms, and gradient-based methods), and developing effective zero-cost proxies to reduce computational demands. This field is significant because it promises to accelerate the development of high-performing models across diverse applications, from image recognition and natural language processing to resource-constrained environments like microcontrollers and in-memory computing.
Papers
Multilingual Speech Emotion Recognition With Multi-Gating Mechanism and Neural Architecture Search
Zihan Wang, Qi Meng, HaiFeng Lan, XinRui Zhang, KeHao Guo, Akshat Gupta
Automated Dominative Subspace Mining for Efficient Neural Architecture Search
Yaofo Chen, Yong Guo, Daihai Liao, Fanbing Lv, Hengjie Song, James Tin-Yau Kwok, Mingkui Tan