Paper Info
Title
A surface topology and motion compensation system for microsurgery guidance and intervention based on common-path optical coherence tomography.
Abstract
A surface topology and motion compensation system for microsurgery guidance and intervention is developed based on common-path optical coherence tomography. A 1-D erosion-based edge-searching method and autoregressive predictor are applied to A-scan data for real-time depth tracking. Images using the topology and motion compensation technique are obtained. In addition, the motion compensation properties are studied. The system can be easily integrated with microsurgery tools and can be used for various clinical applications.
Year
DOI
Venue
2009
10.1109/TBME.2009.2024077
IEEE Trans. Biomed. Engineering
Keywords
Field
DocType
edge-searching method,optical tomography,motion compensation,surface topology,biomedical optical imaging,autoregressive predictor,surgical guidance and intervention,depth tracking,autoregressive processes,surface topology and motion compensation (stmc),microsurgery guidance,optical coherence tomography (oct),intervention,common-path optical coherence tomography,surgery,medical image processing,tomography,optical imaging,biomedical imaging,topology
Autoregressive model,Topology,Computer vision,Microsurgery,Optical coherence tomography,Computer science,Medical imaging,Motion compensation,Tomography,Artificial intelligence,Optical tomography,Optical imaging
Journal
Volume
Issue
ISSN
56
9
1558-2531
Citations 
PageRank 
References 
4
0.63
2
Authors
4
Name
Order
Citations
PageRank
Kang Zhang140.63
Weichao Wang250033.87
Jaeho Han340.97
Jin U. Kang46412.23