A Novel Approach for Colorization of a Grayscale Image using Soft Computing Techniques
Pages 19 - 43
Abstract
Colorization of grayscale image is a process to convert a grayscale image into a color one. Few research works reported in literature on this but there is hardly any generalized method that successfully colorizes all types of grayscale image. This study proposes a novel grayscale image colorization method using a reference color image. It takes the grayscale image and the type of the query image as input. First, it selects reference image from color image database using histogram index of the query image and histogram index of luminance channel of color images of respective type. Once the reference image is selected, four features are extracted for each pixel of the luminance channel of the reference image. These extracted features as input and chrominance blueCb value as target value forms the training dataset for Cb channel. Similarly training dataset for chrominance redCr channel is also formed. These extracted features of the reference image and associated chrominance values are used to train two artificial neural networkANN-one for Cb and one for Cr channel. Then, for each pixel of the of query image, same four features are extracted and used as input to the trained ANN to predict the chrominance values of the query image. Thus predicted chrominance values along with the original luminance values of the query image are used to construct the colorized image. The experiment has been conducted on images collected from different standard image database i.e. FRAV2D, UCID.v2 and images captured using standard digital camera etc. These images are initially converted into grayscale images and then the colorization method was applied. For performance evaluation, PSNR between the original color image and newly colorized image is calculated. PSNR shows that the proposed method better colorizes than the recently reported methods in the literature. Beside this, "Colorization Turing test" was conducted asking human subject to choose the image closer to the original color image among the colorized images using proposed algorithm and recently reported methods. In 80% of cases colorized images using the proposed method got selected.
References
[1]
Omran, M. G., Engelbrecht, A. P., & Salman, A. 2005. A Color Image Quantization Algorithm Based on Particle Swarm Optimization. Informatica, 29, 261-269.
[2]
Alpaydin, E. 2012. Introduction to machine learning 2nd ed. New Delhi: PHI Learning Private Limited.
[3]
BarmanD.HasnatA.SarkarS.RahmanA. 2016. Color Image Quantization using Gaussian Particle Swarm Optimization CIQ-GPSO. Proc. of International Conference on Inventive Computation Technologies, Coimbatore, India. 10.1109/INVENTIVE.2016.7823295
[4]
Blasi, G. D., & Recupero, D. R. 2003. Fast Colorization of Gray Images.
[5]
Bugeau, A., Ta, V., & Papadakis, N. 2014. Variational Exemplar-Based Image Colorization. IEEE Transactions on Image Processing, 231, 298-307. 24235307
[6]
Celal, O., Emrah, H., & Dervis, K. 2014. Color Image Quantization: A short Review and an Application with Artificial Bee Colony Algorithm . INFORMATICA, 253, 485-503.
[7]
FRAV2D Database. 2004. Retrieved from http://www.frav.es/databases/frav2d/
[8]
Gan, G., Ma, C., & Wu, J. 2007. Data Clustering Theory, Algorithms and Applications. SIAM.
[9]
Gonzalez, R. C., & Woods, R. E. 2010. Digital Image Processing. Boston, MA, USA: Addison Wesley.
[10]
Gonzalez, R. C., Woods, R. E., & Eddins, S. L. 2010. Digital Image processing using MATLB. New Delhi, India. Tata: Mc-Graw Hill.
[11]
Haldankar, G., Tikare, A., & Patil, J. 2007. Converting Gray Scale Image to Color Image. Proceedings of the SPIT-IEEE Colloquium and International Conference Vol. 1, pp. 189-192.
[12]
Han, J., Kamber, M., & Pei, J. 2011. Data mining Concepts and Techniques 3rd ed. Waltham, USA: Morgan Kaufmann Publishers An imprint of Elsevier.
[13]
Hasnat, A., Halder, S., Bhattacharjee, D., & Nasipuri, M. 2017. A Proposed Grayscale Face Image Colorization System using Particle Swarm Optimization. International Journal of Virtual and Augmented Reality, 11, 72-89.
[14]
Haykin, S. 2001. Neural Networks A comprehensive foundation 2nd ed. New Delhi: Pearson Education.
[15]
Jain, A. K., & Dubes, R. C. 1988. Algorithms for Clustering Data. Upper Saddle River, NJ, USA: Prentice-Hall, Inc.
[16]
Kang, S. H., & March, R. 2007. Variational Models for Image Colorization via Chromaticity and Brightness Decomposition. IEEE Transactions on Image Processing, 169, 2251-2261. 17784599
[17]
Larsson, G., Maire, M., & Shakhnarovich, G. 2016. Learning Representations for Automatic Colorization. Proceedings of the European Conference on Computer Vision pp. 577-593. Springer International Publishing.
[18]
Levin, A., Lischinski, D., & Weiss, Y. 2004. Colorization using Optimization. ACM Transactions on Graphics, 233, 689-694.
[19]
Reinhard, E., Ashikhmin, M., Gooch, B., & Shirley, P. 2001. Color Transfer between Images. IEEE Computer Graphics and Applications, 215, 34-41.
[20]
Sathik, M. M., & Parveen, N. R. S. 2010. Feature Extraction on Colored X-Ray images by Bit-Plane Slicing Technique. International Journal of Engineering Science and Technology, 27, 2820-2824.
[21]
SchaeferG.StichM. 2004. UCID - An Uncompressed Colour Image Database. Proc. of SPIE, Storage and Retrieval Methods and Applications for Multimedia, San Jose pp. 472-480,
[22]
Ullah, I., Hussain, M., Muhammad, G., Aboalsamh, H., Bebis, G., & Mirza, A. M. 2012. Gender recognition from face images with local wld descriptor pp. 417-420. IWSSIP.
[23]
Umbaugh, S. E. 1998. Computer vision and image Processing. NJ, USA: Prentice Hall.
[24]
Welsh, T., Michael, A., & Klaus, M. 2002. Transferring Color to Greyscale Images. ACM Transactions on Graphics, 213, 277-280.
[25]
Yatziv, L., & Sapiro, G. 2006. Fast Image and Video Colorization Using Chrominance Blending. IEEE Transactions on Image Processing, 155, 1120-1129. 16671293
[26]
Zhang, R., Isola, P., & Efros, A. A. 2016. Colorful Image Colorization. Proceedings of the European Conference on Computer Vision pp. 649-666. Springer International Publishing.
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Published: 01 October 2017
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