Home > CSC-OpenAccess Library > Manuscript Information
EXPLORE PUBLICATIONS BY COUNTRIES |
EUROPE | |
MIDDLE EAST | |
ASIA | |
AFRICA | |
............................. | |
United States of America | |
United Kingdom | |
Canada | |
Australia | |
Italy | |
France | |
Brazil | |
Germany | |
Malaysia | |
Turkey | |
China | |
Taiwan | |
Japan | |
Saudi Arabia | |
Jordan | |
Egypt | |
United Arab Emirates | |
India | |
Nigeria |
Optical Approach Based Omnidirectional Thermal Visualization
Wai Kit Wong, Chu Kiong Loo , Way Soong Lim
Pages - 263 - 286 | Revised - 30-6-2010 | Published - 10-08-2010
Published in International Journal of Image Processing (IJIP)
MORE INFORMATION
KEYWORDS
Image processing , Image representation, Omnidirectional vision, Thermal imaging, Architecture for imaging and vision systems
ABSTRACT
In this paper, a new optical approach based omnidirectional thermal visualization system is proposed such that it will provides observer or image processing tool a 360 degree viewing of surrounding area using a single thermal camera. By applying the proposed omnidirectional thermal visualization system, surrounding area even in poor lighting condition is under proper surveillance and the surrounding heating machineries/items can be monitored indeed. Infrared(IR) reflected hyperbolic mirrors have been designed and custom made for the purpose of reflecting omnidirectional scenes in infrared range for the surrounding area to be captured on a thermal camera, thus producing omnidirectional thermal visualization images. Five cost effective and market commonly available IR reflected materials use to fabricate the designed hyperbolic mirror are studied, i.e. stainless steel, mild steel, aluminum, brass, and chromium. Among these materials, chromium gives the best in IR reflectivity, with . Specifically, we introduce log-polar mapping for unwarping the captured omnidirectional thermal image into a panoramic view, hence provided observers or image processing tools a complete wide angle of view. Three mapping techniques are proposed in this paper namely the point sample, mean sample and interpolation mapping techniques. Point sample mapping technique is with greatest interest due to its lower complexity and moderate out put image quality.
1 | Google Scholar |
2 | Academic Index |
3 | CiteSeerX |
4 | refSeek |
5 | iSEEK |
6 | Socol@r |
7 | Bielefeld Academic Search Engine (BASE) |
8 | Scribd |
9 | WorldCat |
10 | PDFCAST |
11 | PdfSR |
Answer Corporation (2009) redirected from http://www.answers.com/topic/mirror | |
C. Geyer and K. Daniilidis, “Catadioptric camera calibration”, Proc. IEEE 7th Int. Conf. Comput. Vis., p.p. 398-404, Sep, 1999. | |
D. P. Kuban, H. L. Martin, S. D. Zimmermann and N. Busico, “Omniview Motionless Camera Surveillance System“, United States Patent No. 5, 359, 363, Oct, 1994. | |
D. Scaramuzza, A. Martinelli and R. Siegwart, “A flexible technique for accurate omnidirectional camera calibration and structure from motion”, Proc. Fourth IEEE Int. Conf. Comput. Vis. Syst., 2006. | |
D. Strelow, J. Mishler, D. Koes and S. Singh, “Precise omnidirectional camera calibration”, Proc. IEEE Conf. Comput. Vis. Pattern Recognit. (CVPR 2001), Kauai, HI, p.p. 689-694, Dec, 2001. | |
Evaporated Coating Inc., “Mirror Coatings for Plastic Optical Components” | |
F. Berton, A brief introduction to log-polar mapping, Technical report, LIRA-Lab, University of Genova, 10 Feb 2006. | |
G. Scotti, L. Marcenaro, C. Coelho, F. Selvaggi, and C. S. Regazzoni, “Dual camera intelligent sensor for high definition 360 degrees surveillance”, IEE Proc. Vis. Image Signal Process., 152(2), p.p. 250-257, 2005. | |
H-C. Huang and Y. P. Hung, “Panoramic Stereo Imaging System with Automatic Disparity Warping and Seaming”, Graphical Models and Image Processing, Vol. 60, No. 3, p.p. 196-208, May 1998. | |
H. Araujo, J. M. Dias, “An Introduction To The Log-polar Mapping”, Proceedings of 2nd Workshop on Cybernetic Vision, p.p. 139-144, 1996. | |
H. Ishiguro, M. Yamamoto, and S. Tsuji, “Omni-Directional Stereo”, IEEE Trans. Pattern Analysis and Machine Intelligence, Vol. 14, No. 2, p.p. 257-262, Feb 1992. | |
H. Shum, and R. Szeliski, “Stereo Reconstruction from Multi-perspective Panoramas”, Proc. Seventh Int. Conf. Computer Vision, p.p. 14-21, Sep 1999. | |
http://www.flirthermography.com | |
J. Chahl, and M. Srinivasan, “Reflective surfaces for panoramic imaging”, Applied Optics, 36(31), p.p. 8275-85, Nov, 1997. | |
J. Chahl, and M. Srinivasan, “Reflective surfaces for panoramic imaging”, Applied Optics, 36(31), p.p. 8275-85, Nov, 1997. | |
J. D. Wolfe, “Durable silver mirror with ultra-violet thru far infra-red reflection” Agent: James S. Tak Attorney For Applicant - Livermore, CA, US USPTO Application #: 20060141272 | |
J. Kumar, and M. Bauer, “Fisheye lens design and their relative performance”, Proc. SPIE, Vol. 4093, p.p. 360-369, 2000. | |
J. M. Enoch, “History of Mirrors Dating Back 8000 Years”, Optometry and Vision Science, Vol. 83, Issue 10, p.p. 775-781, 2006. | |
J. Mohelnikova, “Materials for reflective coatings of window glass applications”, Construction and Building Materials, Elsevier, Vol. 23, Issue 5, p.p. 1993-1998, 2009. | |
L. R. Burden and J. D. Faires, “ Numerical analysis”, Brooks cole, Belmont, C. A., 2000, 7th edition, ISBN: 0534382169. | |
P. Hadsund, “The Tin-Mercury Mirror: Its Manufacturing Technique and Deterioration Processes”, Studies in Conservation, Vol. 38, No. 1, p.p. 3-16, 1993. | |
S. E. Chen, “Quick Time VR: An Image-Based Approach to virtual Environment Navigation”, Proc. of the 22nd Annual ACM Conf. on Computer Graphics, p.p. 29-38, 1995. | |
S. Gachter, “Mirror Design for an Omnidirectional Camera with a Uniform Cylindrical Projection When Using the SVAVISCA Sensor”, Research Reports of CMP, OMNIVIEWS Project, Czech Technical University in Prague, No. 3, 2001. Redirected from: http://cmp.felk.cvut.cz/projects/omniviews/ | |
S. Gachter, “Mirror Design for an Omnidirectional Camera with a Uniform Cylindrical Projection When Using the SVAVISCA Sensor”, Research Reports of CMP, OMNIVIEWS Project, Czech Technical University in Prague, No. 3, 2001. Redirected from: http://cmp.felk.cvut.cz/projects/omniviews/ | |
S. J. Oh, and E. L. Hall, “Guidance of a Mobile Robot Using an Omnidirectional Vision Navigation System”, Proc. of the Society of Photo-Optical Instrumentation Engineers, SPIE, 852, p.p. 288-300, Nov, 1987. | |
S. Peleg, and M. Ben-Ezra, “Stereo Panorama with a Single Camera”, Proc. IEEE Conf. Computer Vision and Pattern Recognition, p.p. 395-401, June 1999. | |
S. W. Jeng, and W. H. Tsai, “Using pano-mapping tables for unwarping of omni-images into panoramic and perspective-view images”, IET Image Process., 1(2), p.p. 149-155, 2007. | |
T. Kawanishi, K. Yamazawa, H. Iwasa, H. Takemura and N. Yokoya, “Generation of High-resolution Stereo Panoramic Images by Omnidirectional Imaging Sensor Using Hexagonal Pyramidal Mirrors”, Proc. 14th Int. Conf. in Pattern Recognition, Vol. 1, p.p. 485-489, Aug, 1998. | |
T. Mashita, Y. Iwai and M. Yachida, “Calibration method for misaligned catadioptric camera”, IEICE Trans. Inf. Syst., E89D, (7), p.p. 1984-1993, 2006 | |
T. Padjla and H. Roth, “Panoramic Imaging with SVAVISCA Camera- Simulations and Reality”, Research Reports of CMP, Czech Technical University in Prague, No. 16, 2000. | |
T. Svoboda, “Central Panoramic Cameras Design, Geometry, Egomotion”, PhD Thesis, Center of Machine Perception, Czech Technical University in Prague, 1999. | |
V. Nalwa, “A True Omnidirecdtional Viewer”, Technical Report, Bell Laboratories, Homdel, NJ07733, USA, Feb 1996. | |
W. C. Robertson, “Stop Faking It! Light”, National Science Teacher Association Press, 2003. | |
X. H. Ying and Z. Y. Hu, “Catadioptric camera calibration using geometric invariants”, IEEE Trans. Pattern Anal. Mach. Intell., 26(10), p.p. 1260-1271, 2004. | |
Mr. Wai Kit Wong
Multimedia University - Malaysia
wkwong@mmu.edu.my
Associate Professor Chu Kiong Loo
Multimedia University - Malaysia
Dr. Way Soong Lim
Multimedia University - Malaysia
|
|
|
|
View all special issues >> | |
|
|