Towards active annotation for detection of numerous and scattered objects

Abstract

Object detection is an active study area in the field of computer vision and image understanding. In this paper, we propose an active annotation algorithm by addressing the detection of numerous and scattered objects in a view, e.g., hundreds of cells in microscopy images. In particular, object detection is implemented by classifying pixels into specific classes with graph-based semi-supervised learning and grouping neighboring pixels with the same label. Sample or seed selection is conducted based on a novel annotation criterion that minimizes the expected prediction error. The most informative samples are therefore annotated actively, which are subsequently propagated to the unlabeled samples via a pairwise affinity graph. Experimental results conducted on two real world datasets validate that our proposed scheme quickly reaches high quality results and reduces human efforts significantly.