A review of Visual Inertial Odometry for object tracking and measurement
This paper aims to explore the use of Visual Inertial Odometry (VIO) for tracking and measurement. The evolution of VIO is first discussed, followed by the overview of monocular Visual Odometry (VO) and the Inertial Measurement Unit (IMU). Next, the related measurement approaches and the use of VIO...
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International Journal of Scientific and Technology Research
2020
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my.utm.909052021-05-31T13:28:39Z http://eprints.utm.my/id/eprint/90905/ A review of Visual Inertial Odometry for object tracking and measurement Ismail, Nor Azman Tan, Chun Wen Salam, Md. Sah Mohd. Nawi, Abdullah Mohamed, Su Elya Namira QA75 Electronic computers. Computer science This paper aims to explore the use of Visual Inertial Odometry (VIO) for tracking and measurement. The evolution of VIO is first discussed, followed by the overview of monocular Visual Odometry (VO) and the Inertial Measurement Unit (IMU). Next, the related measurement approaches and the use of VIO for measurement have also been discussed. Visual Inertial Odometry is the combination of IMU in the VO system in which the visual information and inertial measurements are combined to achieve an accurate measurement. The algorithm of VO system contains four components, which are camera calibration algorithm, the feature tracker algorithm (usually the KLT algorithm), the rigid motion estimation algorithm, and the algorithm that matches a description of the features points (typically RANSAC algorithm). The IMU is the combination of accelerometer, gyroscopes and magnetometer that measures the linear and angular motion. To fuse the visual and inertial measurements data, there are two different approaches based on when and how they were fused. Tightly coupled and loosely coupled are the approaches for when the measurements are fused, while filtering and optimization based are the approaches for how they were fused. Studies on related measurement approaches can be summarized as three methods which are using the time-of-flight camera, dual cameras (stereovision), or the single camera known as monovision. This review shows that the technique that utilizes the VIO to get visual information and inertial motion has been used widely for measurement lately especially for the field related to Augmented Reality. International Journal of Scientific and Technology Research 2020-02 Article PeerReviewed Ismail, Nor Azman and Tan, Chun Wen and Salam, Md. Sah and Mohd. Nawi, Abdullah and Mohamed, Su Elya Namira (2020) A review of Visual Inertial Odometry for object tracking and measurement. International Journal of Scientific and Technology Research, 9 (2). pp. 355-361. ISSN 2277-8616 https://www.ijstr.org/research-paper-publishing.php?month=feb2020 |
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QA75 Electronic computers. Computer science Ismail, Nor Azman Tan, Chun Wen Salam, Md. Sah Mohd. Nawi, Abdullah Mohamed, Su Elya Namira A review of Visual Inertial Odometry for object tracking and measurement |
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This paper aims to explore the use of Visual Inertial Odometry (VIO) for tracking and measurement. The evolution of VIO is first discussed, followed by the overview of monocular Visual Odometry (VO) and the Inertial Measurement Unit (IMU). Next, the related measurement approaches and the use of VIO for measurement have also been discussed. Visual Inertial Odometry is the combination of IMU in the VO system in which the visual information and inertial measurements are combined to achieve an accurate measurement. The algorithm of VO system contains four components, which are camera calibration algorithm, the feature tracker algorithm (usually the KLT algorithm), the rigid motion estimation algorithm, and the algorithm that matches a description of the features points (typically RANSAC algorithm). The IMU is the combination of accelerometer, gyroscopes and magnetometer that measures the linear and angular motion. To fuse the visual and inertial measurements data, there are two different approaches based on when and how they were fused. Tightly coupled and loosely coupled are the approaches for when the measurements are fused, while filtering and optimization based are the approaches for how they were fused. Studies on related measurement approaches can be summarized as three methods which are using the time-of-flight camera, dual cameras (stereovision), or the single camera known as monovision. This review shows that the technique that utilizes the VIO to get visual information and inertial motion has been used widely for measurement lately especially for the field related to Augmented Reality. |
| format |
Article |
| author |
Ismail, Nor Azman Tan, Chun Wen Salam, Md. Sah Mohd. Nawi, Abdullah Mohamed, Su Elya Namira |
| author_facet |
Ismail, Nor Azman Tan, Chun Wen Salam, Md. Sah Mohd. Nawi, Abdullah Mohamed, Su Elya Namira |
| author_sort |
Ismail, Nor Azman |
| title |
A review of Visual Inertial Odometry for object tracking and measurement |
| title_short |
A review of Visual Inertial Odometry for object tracking and measurement |
| title_full |
A review of Visual Inertial Odometry for object tracking and measurement |
| title_fullStr |
A review of Visual Inertial Odometry for object tracking and measurement |
| title_full_unstemmed |
A review of Visual Inertial Odometry for object tracking and measurement |
| title_sort |
review of visual inertial odometry for object tracking and measurement |
| publisher |
International Journal of Scientific and Technology Research |
| publishDate |
2020 |
| url |
http://eprints.utm.my/id/eprint/90905/ https://www.ijstr.org/research-paper-publishing.php?month=feb2020 |
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1702169618367381504 |