Discriminative learning based visual servoing across object instances
Pages 3447 - 3454
Abstract
Classical visual servoing approaches use visual features based on geometry of the object such as points, lines, region, etc. to attain the desired camera pose. However, geometrical features are not suited for visual servoing across different object instances due to large variations in appearance and shape. In this paper, we present a new framework for visual servoing across object instances. Our approach is based on a discriminative learning framework where the desired pose is estimated using previously seen examples. Specifically, we learn a binary classifier that separates the desired pose from all other poses for that object category. The classification error is then used to control the end-effector so that the desired pose is attained. We present controllers for linear, kernel and exemplar Support Vector Machine (SVM) and empirically discuss their performance in the visual servoing context. To address large intra-category variation in appearance, we propose a modified version of Histogram of Oriented Gradients (HOG) features for visual servoing. We show effective servoing across diverse instances over 3 object categories with zero terminal velocity and acceptable camera pose error at termination.
References
[1]
F. Chaumette and S. Hutchinson, “Visual servo control. i. basic approaches,” in RAM, 2006.
[2]
H. Pandya, K. M. Krishna, and C. V. Jawahar, “Servoing across object instances: Visual servoing for object category,” in ICRA, 2015.
[3]
H. T. S. Asa Ben-Hur, David Horn and V. Vapnik, “Support vector clustering,” in JMLR, 2002.
[4]
N. Dalal and B. Triggs, “Histograms of oriented gradients for human detection,” in CVPR, 2005.
[5]
T. Malisiewicz, A. Gupta, and A. A. Efros, “Ensemble of exemplar-svms for object detection and beyond,” in ICCV, 2011.
[6]
L. Bourdev and J. Malik, “Poselets: Body part detectors trained using 3d human pose annotations,” in ICCV, 2009.
[7]
P. F. Felzenszwalb, R. B. Girshick, D. McAllester, and D. Ramanan, “Object detection with discriminatively trained part based models,” in PAMI, 2010.
[8]
C. Collewet and É. Marchand, “Photometric visual servoing,” in TRO, 2011.
[9]
A. Dame and É. Marchand, “Mutual information-based visual servoing,” in TRO, 2011.
[10]
Q. Bateux and É. Marchand, “Direct visual servoing based on multiple intensity histograms,” in ICRA, 2015.
[11]
É Marchand and C. Collewet, “Using image gradient as a visual feature for visual servoing,” in IROS, 2010.
[12]
E. Marchand, F. Spindler, and F. Chaumette, “Visp for visual servoing: a generic software platform with a wide class of robot control skills,” in RAM, 2005.
[13]
R. Diankov and J. Kuffner, “Openrave: A planning architecture for autonomous robotics,” Robotics Institute, Tech. Rep., 2008.
[14]
C.-C. Chang and C.-J. Lin, “Libsvm: A library for support vector machines,” in TIST, 2011.
Index Terms
- Discriminative learning based visual servoing across object instances
Index terms have been assigned to the content through auto-classification.
Recommendations
Photometric visual servoing for omnidirectional cameras
2D visual servoing consists in using data provided by a vision sensor for controlling the motions of a dynamic system. Most of visual servoing approaches has relied on the geometric features that have to be tracked and matched in the image acquired by ...
Tracking with the CAD Model of Object for Visual Servoing
2019 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM)Tracking the 3D pose between the object and the camera is a very important research subject in position-based visual servoing (PBVS). The tracking requirements are extremely fast and accurate. In order to solve these problems, a real time and efficient ...
Image-based Visual Servoing with Central Catadioptric Cameras
This paper presents an image-based visual servoing strategy for the autonomous navigation of a mobile holonomic robot from a current towards a desired pose, specified only through a current and a desired image acquired by the on-board central ...
Comments
Information & Contributors
Information
Published In
4849 pages
Copyright © 2016.
Publisher
IEEE Press
Publication History
Published: 01 May 2016
Qualifiers
- Research-article
Contributors
Other Metrics
Bibliometrics & Citations
Bibliometrics
Article Metrics
- 0Total Citations
- 0Total Downloads
- Downloads (Last 12 months)0
- Downloads (Last 6 weeks)0
Reflects downloads up to 25 Oct 2024
Other Metrics
Citations
View Options
View options
Get Access
Login options
Check if you have access through your login credentials or your institution to get full access on this article.
Sign in