Tunnel Cross-Section Measurement System Using a Mobile  Mapping System

Kiichiro Ishikawa; Jun-ichi Takiguchi; Yoshiharu Amano; Takumi Hashizume; Takashi Fujishima

doi:10.20965/jrm.2009.p0193

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JRM Vol.21 No.2 pp. 193-199

doi: 10.20965/jrm.2009.p0193

(2009)

Paper:

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Tunnel Cross-Section Measurement System Using a Mobile Mapping System

Kiichiro Ishikawa^*, Jun-ichi Takiguchi^**, Yoshiharu Amano^,
Takumi Hashizume^, and Takashi Fujishima^***

^*Waseda University, 17 Kikui-cho, Shinjyuku-ku, Tokyo 162-0044, Japan

^**Mitsubishi Electric Corporation, Kamakura Works, 325 Kamimachiya, Kamakura-shi, Kanagawa 247-8520, Japan

^***Japan Construction Method and Machinery Research Institute, 3154 Oofuchi, Fuji-shi, Shizuoka

Received:

October 20, 2008

Accepted:

January 17, 2009

Published:

April 20, 2009

Keywords:

GPS, mobile mapping system, 3D modeling, road management

Abstract

This paper describes a tunnel cross-section measurement system using a mobile mapping system (MMS). The MMS features a GPS/ Dead Reckoning (DR) combined navigation system, a three-axis GPS-Gyro/ Inertial Measurement Unit (IMU), laser scanners, cameras, and the Network-based Positioning Augmentation Services (PAS). As GPS cannot be used in the tunnel, so the position estimation is done using IMU and Odometer. In this paper the result of comparison between the conventional tunnel cross-section measurement methods using 3D laser scanner and total station, and the proposed method using the MMS is described. And the examination result of the MMS's positioning accuracy that doesn't use GPS is described. The evaluation result proves that the tunnel cross-section measurement accuracy using the MMS is 7.0 mm, the MMS's measurement accuracy is not different from conventional method using a 3D laser scanner and a total station. The MMS tunnel measurement efficiency is also confirmed in this paper.

Cite this article as:

K. Ishikawa, J. Takiguchi, Y. Amano, T. Hashizume, and T. Fujishima, “Tunnel Cross-Section Measurement System Using a Mobile Mapping System,” J. Robot. Mechatron., Vol.21 No.2, pp. 193-199, 2009.

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References

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This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] F. Leberl, M. Gruber, M. Ponticelli, S. Bernoegger, and R. Perko, “The Ultracam Large Format Aerial Digital Camera System,” Proc. of the ASPRS Annual Convention, Anchorage, USA, nur auf CD erschienen, 2003.

[2] [2] S. Ono, H,Kawasaki, K. Hirahara, M, Kagesawa, and K. Ikeuchi, et al, “3D Modeling of Urban Spaces by Ego-motion Estimation Using Horizontal Range Scanning,” Proc. of ITS Symposium, December 2003.

[3] [3] T. Asai, M. Kambara, and N. Yokoya, “Modeling Real World by Using Omnidirectional Range Finder for Walk-through,” FIT2003 pp. 639-640, 2003.

[4] [4] K. Yamazaki, M. Tomono, T. Tsubouchi, and S. Yuta, “3-D Object Modeling by a Camera Equipped on a Mobile Robot,” Proc. of the 2004 IEEE Int. Conf. on Robotics and Automation (ICRA2004), pp. 1399-1405, April 2004.

[5] [5] D. Hanandhar and R. Shibasaki, “VEHICLE-BORNE LASER MAPPING SYSTEM (VLMS) FOR 3-D GIS, Geoscience and Remote Sensing Symposium,” 2001, IGARSS '01, IEEE 2001 Int., pp. 2073-2075, 2001.

[6] [6] C. Frueh, S. Jain, and A. Zakhor, “Data Processing Algorithms for Generating Textured 3D Building Facade Meshes from Laser Scans and Camera Images,” Int. Journal of Computer Vision 64(2), pp. 159-184, 2005.

[7] [7] K. Ishikawa, R. Muraishi, Y. Amano, T. Hashizume, Y. Shima, J. Takiguchi, and S. Shimizu, “3D Urban Space Reconstruction and Walk-through System Using a Mobile Mapping System and G-Viz,” 13th ROBOTICS Symposia, pp. 186-191, 2008 (in Japanease).

[8] [8] K. Ohno, T. Nomura, and S. Tadokoro, “Real-Time Robot Trajectory Estimation and 3D Map Construction using 3D Camera,” IEEE/RSJ Int. Conf. on Intelligent Robots and Systems, 2006.

[9] [9] K. Ikeuchi, T. Oishi, and J. Takamatsu, “Digital Bayon Temple -e-monumentalization of large-scale cultural-heritage objects-,” Proc. ASIAGRAPH 2007, Vol.1, No.2, pp. 99-106, 2007.

[10] [10] K. Ishii, M. Nakamura, C. Inaba, and N. Nagata, “The Digital Topographical Surveying from the Aircraft The Case of the Change of Ground Level at Usu Volcano,” Journal of the Japan Socierty of Engineering Geology, Vol.42, No.6, pp. 380-385, 2002.

[11] [11] F. Takashi, S. Masato, K. Ichiro, H. Akihiko, and H. Taishi “A New Method to Progress Control of Working Form in Paving Work by using Information Technology,” Journal of Applied Computing in Civil Engineering, Vol.14, pp. 231-238, 2005 (in Japanease).

[12] [12] JTA maintenance committee, “New methods to tunnel check using various devices (3)-II. A tunnel surface check method (2),” Tunnel and underground, No.37-6, pp. 67-72, 2006 (in Japanease).

[13] [13] K. Ishikawa, J. Takigushi, T. Fujishima, and Y. Tanaka, “Development of vehicle-mounted road surface 3D measurement system,” 23rd Int. Symposium on Automation and Robotics in Construction, 2006, Japan.

[14] [14] J. Meguro, J. Takiguchi, R. Kurosaki, and T. Hashizume, “Development of an Autonomous Mobile Surveillance System Using a Network-based RTK-GPS,” IEEE Int. Conf. on Robotics and Automation (ICRA2005), April 2005.

Tunnel Cross-Section Measurement System Using a Mobile Mapping System

Kiichiro Ishikawa*, Jun-ichi Takiguchi**, Yoshiharu Amano*, Takumi Hashizume*, and Takashi Fujishima***

Kiichiro Ishikawa^*, Jun-ichi Takiguchi^**, Yoshiharu Amano^,
Takumi Hashizume^, and Takashi Fujishima^***