Programmable Device Circuits and Systems

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FPGA Implementation of Low Power Image Scaling Processor Using Bilinear Interpolation


Affiliations
1 Department of VLSI Design, Sethu Institute of Technology, Kariapatti-626106, Tamilnadu, India
2 Department of ECE, Sethu Institute of Technology, Kariapatti- 626106, Tamilnadu, India
3 VLSI Design, Sethu Institute of Technology, Kariapatti- 626106, Tamilnadu, India
     

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VLSI architecture of resource efficient the image scaling processor is proposed in this project. The filter combining, hardware sharing, and reconfigurable techniques had been used to reduce hardware cost. This image Scaling Processor consists of a sharpening spatial filter, a clamp filter, bilinear and a nearest neighborhood interpolation. To reduce the blurring and aliasing artifacts produced by the bilinear interpolation, the sharpening spatial and clamp filters are added as prefilters. To minimize the memory buffers and computing resources for the proposed image processor design, a T-model and inversed T-model convolution kernels are created for realizing the sharpening spatial and clamp filters. Compared with previous low-complexity techniques, this architecture requires only a one-line-buffer memory. For achieve more quality images the orthogonal decoder is proposed. This proposed system is designed using verilog HDL, simulated using Modelsim Software and synthesized using Xilinx Project Navigator.

Keywords

Bilinear Interpolation, Clamp Filter, Sharpening Spatial Filter, Reconfigurable Calculation Unit (RCU).
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  • FPGA Implementation of Low Power Image Scaling Processor Using Bilinear Interpolation

Abstract Views: 324  |  PDF Views: 3

Authors

J. Jeba Priya
Department of VLSI Design, Sethu Institute of Technology, Kariapatti-626106, Tamilnadu, India
M. Annalakshmi
Department of ECE, Sethu Institute of Technology, Kariapatti- 626106, Tamilnadu, India
R. Ganesan
VLSI Design, Sethu Institute of Technology, Kariapatti- 626106, Tamilnadu, India

Abstract


VLSI architecture of resource efficient the image scaling processor is proposed in this project. The filter combining, hardware sharing, and reconfigurable techniques had been used to reduce hardware cost. This image Scaling Processor consists of a sharpening spatial filter, a clamp filter, bilinear and a nearest neighborhood interpolation. To reduce the blurring and aliasing artifacts produced by the bilinear interpolation, the sharpening spatial and clamp filters are added as prefilters. To minimize the memory buffers and computing resources for the proposed image processor design, a T-model and inversed T-model convolution kernels are created for realizing the sharpening spatial and clamp filters. Compared with previous low-complexity techniques, this architecture requires only a one-line-buffer memory. For achieve more quality images the orthogonal decoder is proposed. This proposed system is designed using verilog HDL, simulated using Modelsim Software and synthesized using Xilinx Project Navigator.

Keywords


Bilinear Interpolation, Clamp Filter, Sharpening Spatial Filter, Reconfigurable Calculation Unit (RCU).