Model-Based Recognition in Robot Vision

Roland T. Chin; Charles R. Dyer

doi:10.1145/6462.6464

Model-Based Recognition in Robot Vision

Roland T. Chin, Charles R. Dyer

Research output: Contribution to journal › Journal Article › peer-review

425 Citations (Scopus)

Abstract

This paper presents a comparative study and survey of model-based object-recognition algorithms for robot vision. The goal of these algorithms is to recognize the identity, position, and orientation of randomly oriented industrial parts. In one form this is commonly referred to as the “bin-picking” problem, in which the parts to be recognized are presented in a jumbled bin. The paper is organized according to 2-D, 2½-D, and 3-D object representations, which are used as the basis for the recognition algorithms. Three central issues common to each category, namely, feature extraction, modeling, and matching, are examined in detail. An evaluation and comparison of existing industrial part-recognition systems and algorithms is given, providing insights for progress toward future robot vision systems.

Original language	English
Pages (from-to)	67-108
Number of pages	42
Journal	ACM Computing Surveys
Volume	18
Issue number	1
DOIs	https://doi.org/10.1145/6462.6464
Publication status	Published - 1 Mar 1986
Externally published	Yes

Keywords

2&D
2-D
3-D
Bin picking
computer vision
feature extraction
industrial part recognition
matching
model-based image understanding
modeling
representations
robot vision

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10.1145/6462.6464

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title = "Model-Based Recognition in Robot Vision",

abstract = "This paper presents a comparative study and survey of model-based object-recognition algorithms for robot vision. The goal of these algorithms is to recognize the identity, position, and orientation of randomly oriented industrial parts. In one form this is commonly referred to as the “bin-picking” problem, in which the parts to be recognized are presented in a jumbled bin. The paper is organized according to 2-D, 2½-D, and 3-D object representations, which are used as the basis for the recognition algorithms. Three central issues common to each category, namely, feature extraction, modeling, and matching, are examined in detail. An evaluation and comparison of existing industrial part-recognition systems and algorithms is given, providing insights for progress toward future robot vision systems.",

keywords = "2\&D, 2-D, 3-D, Bin picking, computer vision, feature extraction, industrial part recognition, matching, model-based image understanding, modeling, representations, robot vision",

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year = "1986",

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doi = "10.1145/6462.6464",

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TY - JOUR

T1 - Model-Based Recognition in Robot Vision

AU - Chin, Roland T.

AU - Dyer, Charles R.

PY - 1986/3/1

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N2 - This paper presents a comparative study and survey of model-based object-recognition algorithms for robot vision. The goal of these algorithms is to recognize the identity, position, and orientation of randomly oriented industrial parts. In one form this is commonly referred to as the “bin-picking” problem, in which the parts to be recognized are presented in a jumbled bin. The paper is organized according to 2-D, 2½-D, and 3-D object representations, which are used as the basis for the recognition algorithms. Three central issues common to each category, namely, feature extraction, modeling, and matching, are examined in detail. An evaluation and comparison of existing industrial part-recognition systems and algorithms is given, providing insights for progress toward future robot vision systems.

AB - This paper presents a comparative study and survey of model-based object-recognition algorithms for robot vision. The goal of these algorithms is to recognize the identity, position, and orientation of randomly oriented industrial parts. In one form this is commonly referred to as the “bin-picking” problem, in which the parts to be recognized are presented in a jumbled bin. The paper is organized according to 2-D, 2½-D, and 3-D object representations, which are used as the basis for the recognition algorithms. Three central issues common to each category, namely, feature extraction, modeling, and matching, are examined in detail. An evaluation and comparison of existing industrial part-recognition systems and algorithms is given, providing insights for progress toward future robot vision systems.

KW - 2&D

KW - 2-D

KW - 3-D

KW - Bin picking

KW - computer vision

KW - feature extraction

KW - industrial part recognition

KW - matching

KW - model-based image understanding

KW - modeling

KW - representations

KW - robot vision

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DO - 10.1145/6462.6464

M3 - Journal Article

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VL - 18

SP - 67

EP - 108

JO - ACM Computing Surveys

JF - ACM Computing Surveys

IS - 1

ER -

Model-Based Recognition in Robot Vision

Abstract

Keywords

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