Sjedinjavanje kolor i monohromatskih slika uz isticanje ivica

  • Rade M. Pavlović Ministarstvo odbrane, Vojnotehnički institut
  • Vladimir S. Petrović
Ključne reči: imaging||, ||obrada slike, fusion||, ||sjedinjavanje, Encoding||, ||kodiranje, colour||, ||boja,

Sažetak


U ovom radu predložena je nova metoda za sjedinjavanje kolor i monohromatskih slika. Prvo se kolor slika transformiše u lαβ kolor sistem, a zatim se vrši sjedinjavanje monohromatske slike sa jednim od kanala kolor slike dobijenom lαβ kolor transformacijom. Inverznom transformacijom u RGB kolor sistem dobija se sjedinjena kolor i monohromatska slika. Sjedinjavanjem novom metodom zadržava se prirodnost i visoka rezolucija kolor slike, dok su informacije iz monohromatske slike jasne i vidljive. Isticanje objekata iz monohromatske slike vrši se tako što se pre sjedinjavanja vrednostima piksela monohromatske slike dodaju vrednosti jačine ivica.

 

Reference

Aguilar, M., Fay, D. A., Ross, W. D., Waxman, A. M., Ireland, D. B., Racamato, J. P., 1988, Real-time fusion of low-light CCD and uncooled IR imagery for color night vision, pp. 124-135, Enhanced and Synthetic Vision, Orlando, FL, US, July 30.

Burt, P., Adelson, E., 1983, The Laplacian pyramid as a compact image code, IEEE Transactions on Communication, Volume 31(4), pp. 532-540.

Guangxin, L., Shuyan, X., 2009, An Efficient Color Transfer Method for Fusion of Multiband Nightvision Images, International Conference on Information Engineering and Computer Science, Wuhan, China, December 19-20.

Hogervorst, M. A., Toet, A., 2007, Fast and true-to-life application of daytime colours to night-time imagery, pp.1-8, Information Fusion, 2007 10th International Conference on, Quebec, QC, Canada, July 9-12.

Hogervorst, M. A., Toet, A., 2010, Fast natural color mapping for night-time imagery, Information Fusion, Volume 11(2), pp. 69-77.

Huang, M., Leng, J., Xiang, C., 2008, A Study on IHS+WT and HSV+WT Methods of Image Fusion, pp. 665-668, International Symposium on Information Science and Engieering, Shanghai, China, December 20-22.

Jang, J. H., Ra, J. B., 2008, Pseudo-Color Image Fusion Based on Intensity-Hue-Saturation Color Space, pp. 366-371, IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems, Seoul, Korea, August 20 – 22.

McDaniel, R. V., Scribner, D. A., Krebs, W. K., Warren, P., McCarley J., 1998, Image fusion for tactical applications, Infrared Technology and Applications, Volume 3436, pp. 685-695.

Petrović, V., 2001, Multisensor pixel-level image fusion,

PhD Thesis, University of Manchester, UK.

Petrović, V., Xydeas, C., 1999, Computationally efficient pixel-level image fusion, pp. 177-184 Proceedings of Eurofusion99, Stanford-upon-Avon, October.

Petrović, V., Xydeas, C., 2004, Gradient Based Multiresolution Image Fusion, IEEE Transactions on Image Processing, Volume 13(2), pp. 228-237.

Petrović, V., Zrnić, B., 2001, Multisenzorsko sjedinjavanje informacija za otkrivanje, praćenje i identifikaciju ciljeva, TELFOR 2001, Beograd, Novembar 20-22.

Reinhard, E., Ashikhmin, M., Gooch, B., Shirley, P., 2001, Color transfer between images, IEEE Computer Graphics and Applications, Volume 21(5), pp. 34-41.

Ruderman, A., Joubert, O. R., Fabre-Thorpe, M., 1988, Statistics of cone responses to natural images: implications for visual coding, Journal of the Optical Society of America, Volume 15(8), pp. 2036-2045.

Shiming, S., Lingxue, W., Wei-qi, J., Yuanmeng, Z., 2007, Color night vision based on color transfer in YUV color space, International Symposium on Photoelectronic Detection and Imaging 2007: Image Processing, Beijing, China, September 09.

Sonka, M., Hlavac, V., Boyle, R., 1998, Image Processing, Analysis and Machine Vision, PWS Publishing, Pacific Grove.

The Online Resource for Research in Image Fusion, [Internet], Dostupno na: <http://www.imagefusion.org>, Preuzeto: 08.03.2012. godine.

Toet, A., 1989, Image fusion by a ratio of low-pass pyramid, Pattern Recognition Letters, Volume 9, pp. 245-253.

Toet, A., 2003a, Color the night: Applying Daytime Colors to Nighttime Imagery, pp. 168-178 Enhanced and Sinthetic Vision, Orlando, FL, September 23.

Toet, A., 2003b, Natural colour mapping for multiband nightvision imagery, Information fusion, Volume 4(3), pp. 155-166.

Toet, A., 2003c, Color Image Fusion for Concealed Weapon Detection, pp.372-379, Sensors, and Command, Control, Communications, and Intelligence (C3I) Technologies for Homeland Defense and Law Enforcement II, Orlando, FL, September 23..

Toet, A., Hogervorst, M. A., 2009, Towards an Optimal Color. Representation for Multiband Nightvision Systems, pp. 1417 – 1423, 12th International Conference on Information Fusion, Seattle, WA, USA, July 6-9.

Toet, A., Walraven,, 1996, New false color mapping for image fusion, Optical Engineering, Volume 35(3), pp.650-658.

Waxman, A. M., Aguilar, M., Baxter, R. A., Fay, D. A., Ireland, D. B., Racamato, J. P., Ross, W. D., 1998a, Opponent-color fusion of multi-sensor imagery: visible, IR and SAR, Proceedings of IRIS Passive Sensors, Volume 1, pp. 43-61.

Waxman, A. M., Aguilar, M., Baxter, R. A., Fay, D. A., Ireland, D. B., Racamato, J. P., Ross, W. D., 1998b, Solid-state color night vision: fusion of low-light visible and thermal infrared imagery, Lincoln Laboratory Journal, Volume 11(1), pp. 41-60.

Yhang, J., Han, Y., Chan, B., Yuan, Y., Qian, Y., Qiu, Y., 2009, Real-time Color Image Fusion for Infrared and Low-light-level Cameras, International Synposium on Photoelectronic Detection and Imaging, Beijing, China, August 04.

Zhiyun, X., Rick, S. B., 2003, Concealed Weapon Detection Using Color Image Fusion”, pp. 622-627, Information Fusion, 2003. Proceedings of the Sixth International Conference, Cairns, Queensland, Australia, July 08-11.

Objavljeno
2013/10/17
Rubrika
Originalni naučni radovi