Low-resolution Image Processing based on FPGA

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Low-resolution Image Processing based on FPGA

Aghania Mahshid

Author Affiliations

¹Kiau, Islamic Azad university of Karaj, IRAN

Res. J. Recent Sci., Volume 4, Issue (2), Pages 8-13, February,2 (2015)

Abstract

Today, development of different methods such as scanners and digital cameras for receiving discrete data has led to high application of image processing. Images resulted from the discrete data have some noise and the distance among samples within the image might seem blur and it decreases the resolution of image. Image processing refers to a set of operations and methods used to decrease disadvantages and increase visual quality of the image. The issue of evaluating quality of images is one of the most common issues related to image processing algorithms. Resolution recognition is a criterion for the image acceptability; it also declares efficiency and acceptability of many of the algorithms associated with the image. The present paper intends to study low- resolution image processing based on FPGA.

References

Torabzadeh Shima, Variety of FPGA architectures and the future generation, the 4th conference on vision device and image processing in Iran, (2009)
Zou W.W. and Yuen P.C., Learning the relationship between high and low resolution images in kernel space for face super resolution, in Proc. Int. Conf. Pattern Recognition., 1152-1155, (2010)
Glasner D., Bagon S. and Irani M., Super-resolution from a single image, in Proc. IEEE Int. Conf. Comput. Vis., (2009)
Zou W.W. and Yuen P.C., Learning the relationship between high and low resolution images in kernel space for face super resolution, in Proc. Int. Conf. Pattern Recognit., 1152-1155, (2010)
Glasner D., Bagon S. and Irani M., Super-resolution from a single image, in Proc. IEEE Int. Conf. Comput. Vis., (2009)
Jia K. and Gong S., Generalized face super-resolution, IEEE Trans, Image Process., 17(6), 873–886 (2008)
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[ref1] Torabzadeh Shima, Variety of FPGA architectures and the future generation, the 4th conference on vision device and image processing in Iran, (2009)

[ref2] Zou W.W. and Yuen P.C., Learning the relationship between high and low resolution images in kernel space for face super resolution, in Proc. Int. Conf. Pattern Recognition., 1152-1155, (2010)

[ref3] Glasner D., Bagon S. and Irani M., Super-resolution from a single image, in Proc. IEEE Int. Conf. Comput. Vis., (2009)

[ref4] Zou W.W. and Yuen P.C., Learning the relationship between high and low resolution images in kernel space for face super resolution, in Proc. Int. Conf. Pattern Recognit., 1152-1155, (2010)

[ref5] Glasner D., Bagon S. and Irani M., Super-resolution from a single image, in Proc. IEEE Int. Conf. Comput. Vis., (2009)

[ref6] Jia K. and Gong S., Generalized face super-resolution, IEEE Trans, Image Process., 17(6), 873–886 (2008)

[ref7] van Ouwerkerk J., Image super-resolution survey, Image Vis. Comput., 24(10), 1039–1052 (2006)

[ref8] Wang X. and Tang X., Face hallucination and recognition, in Audio-and Video-Based Biometric Person Authentication, New York : Springer-Verlag, 1054–1054, (2003)

[ref9] X. Wang and X. Tang, “Hallucinating face by eigentransformation,” IEEE Trans. Syst., Man, Cybern. C, Appl. Rev., 35(3), 425–434 (2005)