Efficient and accurate segmentation of unseen objects is crucial for robotic
manipulation. However, it remains challenging due to over- or
under-segmentation. Although existing refinement methods can enhance the
segmentation quality, they fix only minor boundary errors or are not
sufficiently fast. In this work, we propose INSTAnce Boundary Explicit Error
Estimation and Refinement (INSTA-BEEER), a novel refinement model that allows
for adding and deleting instances and sharpening boundaries. Leveraging an
error-estimation-then-refinement scheme, the model first estimates the
pixel-wise boundary explicit errors: true positive, true negative, false
positive, and false negative pixels of the instance boundary in the initial
segmentation. It then refines the initial segmentation using these error
estimates as guidance. Experiments show that the proposed model significantly
enhances segmentation, achieving state-of-the-art performance. Furthermore,
with a fast runtime (less than 0.1 s), the model consistently improves
performance across various initial segmentation methods, making it highly
suitable for practical robotic applications.Comment: 8 pages, 5 figure