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The Development of Around View Monitoring System Pilot Type for Construction Equipment
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 Title & Authors
The Development of Around View Monitoring System Pilot Type for Construction Equipment
Yeom, Dong Jun; Seo, Jung Hoon; Yeom, Han Seung; Yoo, Hyun Seok; Kim, Young Suk;
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 Abstract
Recently, the interest on applying AVM(Around View Monitoring) systems in construction equipments have been increasing due to the demand for better control, work efficiency and safety. Most of the existing AVM systems have been developed focusing on the application in automobiles and only several AVM systems have been developed for construction equipments. However, the original technology of AVM remained the same as in the automobiles that failed to consider the main properties of construction equipments and suggest appropriate range of AVM display (Top-view). Therefore, the purpose of this study is to suggest a pilot type of AVM system for construction equipment. Accordingly, literature review, deduction of main consideration factors, selection of sensors, system design, algorithm development of a pilot type of AVM system for construction equipment have been conducted. A laboratory experiment has also been conducted for the deduction of further improvements. As a result, a minimum image refresh rate of 20 fps has been achieved that clearly reflects the actual situation of the equipment and also, the actual motions of Boom, Arm, Bucket have been displayed appropriately on the AVM system based on the angle data collected by sensors. However, the experiment results have also shown that the following tasks still remain for future work: 1)Improvement of AVM image interpolation, 2)Development of calibration module for variety construction equipment.
 Keywords
Construction Equipment;AVM(Around View Monitoring);Productivity;Safety;
 Language
Korean
 Cited by
 References
1.
Ahn, R. S., Luo, L. B. and Chong, J. W. (2010). "Realtime implementation of top-view system for camera on vehicle." Proceeding of the Institute of Electronics and Information Engineers Summer Conference, 33(1), pp. 1219-1222.

2.
Chae, M. J., Lee, G. W., Kim, J. R., Park, J. W., Yoo, H. S. and Cho, M. Y. (2009). "Development of the 3D imaging system and automatic registration algorithm for the intelligent excavation system (IES)" Korean Journal of Construction Engineering and Management, KICEM, 4(3), pp. 136-145.

3.
Cho, Y. J., Kim, S. H., Park, J. Y., Son, J. W., Lee, J. R . and Kim, M. H. (2010). "Image data loss minimized geometric correction for asymmetric distortion fish-eye lens." Journal of the Korea Society for Simulation, 19(1), pp. 23-31.

4.
Continental, "ProViu(R)ASL360", (Apr. 11, 2016).

5.
FUJITSU, "$360^{\circ}$ Wrap-Around Video Imaging Technology" (Apr. 11, 2016) .

6.
ImageNEXT, "OMNIVUE 3D VGA", (Apr. 11, 2016).

7.
Jo, Y. S., Display device for a construction machine. KR Patent, 10-2013-0088051, Aug. 07, 2013.

8.
Kim, J. H. and Seo, J. W. (2011). "BIM based intelligent excavation system." Journal of KIBIM, 1(1), pp. 1-5.

9.
Kim, J. I. and Kwon, G. R. (2014). "Perspective transformation using top-view parking assistance system." Journal of KIIT, 12(7), pp. 43-49.

10.
Kim, S. H. (2008). "Geometric correction of fisheye lens images for wide-angle view generation." Thesis, Ewha Womans University.

11.
KOSCA (2015). "statistical yearbook of contract performance in 2014", (Apr. 11, 2016).

12.
Lee, D. H.; Kim, T. H., Subsea installations, underwater-work-systems & underwater work methods. KR Patent, 10-2014-0013209, Feb. 05, 2015.

13.
Lee, K. J., Choi, Y. J. and Park, T. K. (2009). "Studies on the ways to improve usability of construction machinery for production efficience." Proceedings of Korea Institute of construction engineering and management Annual Conference for students, pp. 112-116.

14.
Ministry of Employment and Labor (2015). The analysis of industrial accident.

15.
Ministry of Land, Infrastructure, Transport and Tourism (2013). Technology development to utilize construction robot.

16.
PSVT, "VIRTUAL 360" (Apr. 11, 2016).

17.
Toda Construction Co., Ltd., Method and equipment for demolishing tower-like structure. JP Patent, 18097306, Apr. 13, 2006.

18.
Yoo, H. S., Park, J. Y., Choi, Y. N. and Kim, Y. S. (2011). "Object detection from 3D terrain data gender ated by laser scanner of intelligent excavating system(IEs)." Korean Journal of Construction Engineering and Management, KICEM, 12(6), pp. 130-141.