Making Your First Choice: To Address Cold Start Problem in Vision Active Learning
This addresses a specific inefficiency in active learning for vision tasks, offering an incremental improvement to enhance annotation efficiency in domains like medical imaging.
The paper tackles the cold start problem in vision active learning, where initial queries are less efficient than random selection, by using contrastive learning to improve initial query selection, resulting in significant performance gains over existing strategies and random selection on datasets like CIFAR-10-LT and medical imaging datasets.
Active learning promises to improve annotation efficiency by iteratively selecting the most important data to be annotated first. However, we uncover a striking contradiction to this promise: active learning fails to select data as efficiently as random selection at the first few choices. We identify this as the cold start problem in vision active learning, caused by a biased and outlier initial query. This paper seeks to address the cold start problem by exploiting the three advantages of contrastive learning: (1) no annotation is required; (2) label diversity is ensured by pseudo-labels to mitigate bias; (3) typical data is determined by contrastive features to reduce outliers. Experiments are conducted on CIFAR-10-LT and three medical imaging datasets (i.e. Colon Pathology, Abdominal CT, and Blood Cell Microscope). Our initial query not only significantly outperforms existing active querying strategies but also surpasses random selection by a large margin. We foresee our solution to the cold start problem as a simple yet strong baseline to choose the initial query for vision active learning. Code is available: https://github.com/c-liangyu/CSVAL