Compressed look-up-table based real-time rectification hardware

Akın, Abdulkadir; Baz, Ipek; Gaemperle, Luis Manuel; Schmid, Alexandre; Leblebici, Yusuf

doi:10.1109/vlsi-soc.2013.6673288

Cited by 18 publications

(13 citation statements)

References 10 publications

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“…Complex 1-to-N and N -to-1 mappings occur when destination and source frames are oversampled, respectively. A possible real-time solution for 1-to-N mapping is suggested in [8]. However, a real-time solution with high PSNR has not yet been presented for N -to-1 mapping.…”

Section: Estimation Algorithmmentioning

confidence: 99%

“…However, the most common ones are twodimensional (planar) and three-dimensional (spherical and cylindrical) projections. Besides changing the perspective view, planar homography is used for camera calibration [4], stereo camera rectification [5]- [8], and object tracking and focusing [9], [10]. Applications of 3D homography vary from estimation of 3D scene models [11] and volume [12] to generating cylindrical and spherical panoramas [13], [14].…”

Section: Introductionmentioning

confidence: 99%

“…The image processing systems can hardly meet the real-time constraints of 25-30 frames per second (fps) when reconstructing high resolution images. Forward homography is suggested as a possible solution to this problem in stereo image rectification systems [6]- [8], where the same real-time constraints apply.…”

Section: Introductionmentioning

confidence: 99%

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Reconfigurable forward homography estimation system for real-time applications

Popović

Leblebici

2014

2014 22nd International Conference on Very Large Scale Integration (VLSI-SoC)

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Abstract-Image processing and computer vision algorithms extensively use projections, such as homography, as one of the processing steps. Systems for homography calculation usually observe homography as an inverse problem and provide an exact solution. However, the systems processing larger resolution images cannot meet inherently tight real-time constraints. Look-up table based systems provide an option for forward homography solutions, but they require large memory availability. Recent compressed look-up table methods reduce the memory requirements at the expense of lower peak signal-to-noise-ratio. In this work, we present a forward homography estimation algorithm which provides higher image quality than compressed look-up table methods. The algorithm is based on bounding the homography error, and neglecting the pixels out of the determined bound. The presented FPGA implementation of the estimation system requires a small amount of hardware, and no memory storage. The prototype system project an image frame onto a spherical surface at 295 Mpixels/s rate which is, up to our knowledge, currently the fastest homography system.

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Section: Estimation Algorithmmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Reconfigurable forward homography estimation system for real-time applications

Popović

Leblebici

2014

2014 22nd International Conference on Very Large Scale Integration (VLSI-SoC)

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“…However, since they assigned two bits to store the magnitude of the difference value, a large number of errors were occurred if the difference value exceeds three. Another approach, such as our former work [18], uses a combination of differential coding and binary coding to resolve a limitation of the difference value. However, this approach has 22.34% average ICR, which is still higher than other coding methods using run-length coding.…”

Section: Introductionmentioning

confidence: 99%

Efficient Hardware Implementation of Real-time Rectification using Adaptively Compressed LUT

Kim

Oh³

et al. 2016

JSTS:Journal of Semiconductor Technology and Science

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Abstract-Rectification is used as a preprocessing to reduce the computation complexity of disparity estimation. However, rectification also requires a complex computation. To minimize the computing complexity, rectification using a lookup-table (R-LUT) has been introduced. However, since, the R-LUT consumes large amount of memory, rectification with compressed LUT (R-CLUT) has been introduced. However, the more we reduce the memory consumption, the more we need decoding overhead. Therefore, we need to attain an acceptable trade-off between the size of LUT and decoding overhead. In this paper, we present such a trade-off by adaptively combining simple coding methods, such as differential coding, modified run-length coding (MRLE), and Huffman coding. Differential coding is applied to transform coordinate data into a differential form in order to further improve the coding efficiency along with Huffman coding for better stability and MRLE for better performance. Our experimental results verified that our coding scheme yields high performance with maintaining robustness. Our method showed about ranging from 1 % to 16 % lower average inverse of compression ratio than the existing methods. Moreover, we maintained low latency with tolerable hardware overhead for realtime implementation.

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“…One of the loss compression methods subsamples rectification mapping data and reconstructs using interpolation as in [9], [10]. Another recent research uses the run-length encoding technique with different order as in [11]. Although the loss compression method has much higher compression ratio than the lossless compression method, it also has distortion, and could be critical for the performance of disparity estimation process.…”

Section: Introductionmentioning

confidence: 99%

A real-time rectification using an adaptive differential encoding for high-resolution video

Kim

Kang

et al. 2014

16th International Conference on Advanced Communication Technology

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Abstract-Previously, various rectification methods using compressed lookup table have been studied for real-time hardware stereo vision system. These loss compression methods may occur distortion that could corrupt disparity estimation process. Differentially encoded lookup table method which is lossless compression has no distortion with reasonable compression ratio. However, the method is limited to lowresolution and low warping movement. In this paper, we propose an adaptively differential encoding method. Our proposed algorithm has approximately 18~26% compression ratio which is comparable to the previous method and tolerates high-resolution video.

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Compressed look-up-table based real-time rectification hardware

Cited by 18 publications

References 10 publications

Reconfigurable forward homography estimation system for real-time applications

Reconfigurable forward homography estimation system for real-time applications

Efficient Hardware Implementation of Real-time Rectification using Adaptively Compressed LUT

A real-time rectification using an adaptive differential encoding for high-resolution video

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