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Improvement of high-speed optical scanner performance based on reuse model |
LUO Ying1,ZHANG Tong1,2,LIU Lin1,SONG Yun-cen1,YE Yu-tang1,LIU Yong1 |
1.Lab of MOEMIL, University of Electronic Science and Technology of China, Chengdu, Sichuan 610054, China
2.Chengdu HOLDTECS Co. Ltd., Chengdu, Sichuan 610054, China |
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Abstract A JPEG image compression method based on FPGA and DDR II is proposed. The A3 high-speed scanner is designed and realized. The issue of mutual restraint between the hardware resource and the scanning speed in the high-speed scanner is solved. Basic principle is to build flexible, fast large amount of data storage and transmission mode while reducing the consumption of on-chip RAM through the internal and external storage type water reuse model. And using an efficient time-multiplexed data link to implement the JPEG image compression further improves the compression and transmission speed of hardware module. Theoretical analysis and experimental results show that using the A3 high-speed scanner designed with low-end FPGA chip, the speed of scanning A3 wide paper under a 300dpi resolution can reach 140 page per minute, scanning time delay is less than 1ms, peak signal noise ratio as high as 86.9dB before and after compression, and this fully meets the requirements of high-end high-speed scanners. The high-speed scanners for hardware resource requirements are greatly reduced under the implementation of the model, and this model can also be promoted to apply in other high-speed scanner with different format.
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Received: 14 January 2014
Published: 27 January 2016
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