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[Keyword] discrete wavelet transform(22hit)

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  • Blind Quality Index for Super Resolution Reconstructed Images Using First- and Second-Order Structural Degradation

    Jiansheng QIAN  Bo HU  Lijuan TANG  Jianying ZHANG  Song LIANG  

     
    PAPER-Image

      Vol:
    E102-A No:11
      Page(s):
    1533-1541

    Super resolution (SR) image reconstruction has attracted increasing attention these years and many SR image reconstruction algorithms have been proposed for restoring a high-resolution image from one or multiple low-resolution images. However, how to objectively evaluate the quality of SR reconstructed images remains an open problem. Although a great number of image quality metrics have been proposed, they are quite limited to evaluate the quality of SR reconstructed images. Inspired by this, this paper presents a blind quality index for SR reconstructed images using first- and second-order structural degradation. First, the SR reconstructed image is decomposed into multi-order derivative magnitude maps, which are effective for first- and second-order structural representation. Then, log-energy based features are extracted on these multi-order derivative magnitude maps in the frequency domain. Finally, support vector regression is used to learn the quality model for SR reconstructed images. The results of extensive experiments that were conducted on one public database demonstrate the superior performance of the proposed method over the existing quality metrics. Moreover, the proposed method is less dependent on the number of training images and has low computational cost.

  • Adaptive Directional Lifting Structure of Three Dimensional Non-Separable Discrete Wavelet Transform for High Resolution Volumetric Data Compression

    Fairoza Amira BINTI HAMZAH  Taichi YOSHIDA  Masahiro IWAHASHI  Hitoshi KIYA  

     
    PAPER-Digital Signal Processing

      Vol:
    E99-A No:5
      Page(s):
    892-899

    As three dimensional (3D) discrete wavelet transform (DWT) is widely used for high resolution volumetric data compression, and to further improve the performance of lossless coding, the adaptive directional lifting (ADL) structure based on non-separable 3D DWT with a (5,3) filter is proposed in this paper. The proposed 3D DWT has less lifting steps and better prediction performance compared to the existing separable 3D DWT with fixed filter coefficients. It also has compatibility with the conventional DWT defined by the JPEG2000 international standard. The proposed method shows comparable and better results with the non-separable 3D DWT and separable 3D DWT and it is effective for lossless coding of high resolution volumetric data.

  • A SoC Integrating ADC and 2DDWT for Video/Image Processing

    Chin-Fa HSIEH  Tsung-Han TSAI  Shu-Chung YI  

     
    PAPER-Electronic Circuits

      Vol:
    E99-C No:3
      Page(s):
    415-426

    The memory issue plays a very important role for the performance evaluation of a design of 2-Dimensional Discrete Wavelet Transform (2DDWT). A traditional 2DDWT architecture generally needs DRAM to store the input pixel and memory to store temporary results between the row and column processors. In this article, we present a system on a chip (SoC) for video/image processing. The chip integrates an analog-to-digital converter (ADC) with a highly efficient-memory 2DDWT. The latter one contains two main components only: a row processor and a column processor. With this integrated chip plus the use of feedback shift registers (FSR) in the column processor, the architecture we propose can disuse the DRAM and reduce the memory. The pipelined technique is also utilized in the proposed 2DDWT to shorten the critical path to an adder delay. Our architecture outperforms the existing architectures in that it uses less memory size and has low control complexity. It needs only a 2N register instead of a 3.5N register of traditional architectures for a one-level 2DDWT of the 5/3 Lifting-based Discrete Wavelet Transform (LDWT) in an N x N image. Our 2DDWT architecture is coded in VerilogHDL and the Synopsys Design Compiler is employed to synthesize the design with the standard-cell from TSMC 0.18 µm cell library for verification. The ADC is designed by a full-custom methodology, plays as an IP of the SoC. With the integrated SoC, based on the mix-mode design flow, the proposed work requires no external memory, which accordingly reduces the power consumption by memory access and 20 I/O PADs, it also reduces the printed circuit board (PCB) size. Moreover, the proposed SoC supports the resolution of 10 bits and can easily integrate further with the CMOS image sensor (CIS) or other IPs. This, then, completes a single chip and which is ready for a real-time wavelet-based video coding.

  • Packetization and Unequal Erasure Protection for Transmission of SPIHT-Encoded Images

    Kuen-Tsair LAY  Lee-Jyi WANG  

     
    PAPER-Multimedia Systems for Communications

      Vol:
    E97-B No:1
      Page(s):
    226-237

    Coupled with the discrete wavelet transform, SPIHT (set partitioning in hierarchical trees) is a highly efficient image compression technique that allows for progressive transmission. One problem, however, is that its decoding can be extremely sensitive to bit errors in the code sequence. In this paper, we address the issue of transmitting SPIHT-encoded images via noisy channels, wherein errors are inevitable. The communication scenario assumed in this paper is that the transmitter cannot get any acknowledgement from the receiver. In our scheme, the original SPIHT code sequence is first segmented into packets. Each packet is classified as either a CP (critical packet) or an RP (refinement packet). For error control, cyclic redundancy check (CRC) is incorporated into each packet. By checking the CRC check sum, the receiver is able to tell whether a packet is correctly received or not. In this way, the noisy channel can be effectively modeled as an erasure channel. For unequal error protection (UEP), each of those packets are repeatedly transmitted for a few times, as determined by a process called diversity allocation (DA). Two DA algorithms are proposed. The first algorithm produces a nearly optimal decoded image (as measured in the expected signal-to-noise ratio). However, its computation cost is extremely high. The second algorithm works in a progressive fashion and is naturally compatible with progressive transmission. Its computation complexity is extremely low. Nonetheless, its decoded image is nearly as good. Experimental results show that the proposed scheme significantly improves the decoded images. They also show that making distinction between CP and RP results in wiser diversity allocation to packets and thus produces higher quality in the decoded images.

  • Joint Feature Based Rain Detection and Removal from Videos

    Xinwei XUE  Xin JIN  Chenyuan ZHANG  Satoshi GOTO  

     
    PAPER

      Vol:
    E96-A No:6
      Page(s):
    1195-1203

    Adverse weather, such as rain or snow, can cause difficulties in the processing of video streams. Because the appearance of raindrops can affect the performance of human tracking and reduce the efficiency of video compression, the detection and removal of rain is a challenging problem in outdoor surveillance systems. In this paper, we propose a new algorithm for rain detection and removal based on both spatial and wavelet domain features. Our system involves fewer frames during detection and removal, and is robust to moving objects in the rain. Experimental results demonstrate that the proposed algorithm outperforms existing approaches in terms of subjective and objective quality.

  • Two Dimensional Non-separable Adaptive Directional Lifting Structure of Discrete Wavelet Transform

    Taichi YOSHIDA  Taizo SUZUKI  Seisuke KYOCHI  Masaaki IKEHARA  

     
    PAPER-Digital Signal Processing

      Vol:
    E94-A No:10
      Page(s):
    1920-1927

    In this paper, we propose a two dimensional (2D) non-separable adaptive directional lifting (ADL) structure for discrete wavelet transform (DWT) and its image coding application. Although a 2D non-separable lifting structure of 9/7 DWT has been proposed by interchanging some lifting, we generalize a polyphase representation of 2D non-separable lifting structure of DWT. Furthermore, by introducing the adaptive directional filteringingto the generalized structure, the 2D non-separable ADL structure is realized and applied into image coding. Our proposed method is simpler than the 1D ADL, and can select the different transforming direction with 1D ADL. Through the simulations, the proposed method is shown to be efficient for the lossy and lossless image coding performance.

  • Improvement of Detection Performance in DWT-Based Image Watermarking under Specified False Positive Probability

    Masayoshi NAKAMOTO  Kohei SAYAMA  Mitsuji MUNEYASU  Tomotaka HARANO  Shuichi OHNO  

     
    PAPER-Digital Signal Processing

      Vol:
    E94-A No:2
      Page(s):
    661-670

    For copyright protection, a watermark signal is embedded in host images with a secret key, and a correlation is applied to judge the presence of watermark signal in the watermark detection. This paper treats a discrete wavelet transform (DWT)-based image watermarking method under specified false positive probability. We propose a new watermarking method to improve the detection performance by using not only positive correlation but also negative correlation. Also we present a statistical analysis for the detection performance with taking into account the false positive probability and prove the effectiveness of the proposed method. By using some experimental results, we verify the statistical analysis and show this method serves to improve the robustness against some attacks.

  • Error-Resilient 3-D Wavelet Video Coding with Duplicated Lowest Sub-Band Coefficients and Two-Step Error Concealment Method

    Sunmi KIM  Hirokazu TANAKA  Takahiro OGAWA  Miki HASEYAMA  

     
    PAPER

      Vol:
    E93-A No:11
      Page(s):
    2173-2183

    In this paper, we propose a two-step error concealment algorithm based on an error resilient three-dimensional discrete wavelet transform (3-D DWT) video coding scheme. The proposed scheme consists of an error-resilient encoder duplicating the lowest sub-band bit-streams for dispersive grouped frames and an error concealment decoder. The error concealment method of this decoder is decomposed of two steps, the first step is replacement of erroneous coefficients in the lowest sub-band by the duplicated coefficients, and the second step is interpolation of the missing wavelet coefficients by minimum mean square error (MMSE) estimation. The proposed scheme can achieve robust transmission over unreliable channels. Experimental results provide performance comparisons in terms of peak signal-to-noise ratio (PSNR) and demonstrate increased performances compared to state-of-the-art error concealment schemes.

  • Memory-Efficient and High-Performance Two-Dimensional Discrete Wavelet Transform Architecture Based on Decomposed Lifting Algorithm

    Peng CAO  Chao WANG  Longxing SHI  

     
    PAPER-Digital Signal Processing

      Vol:
    E92-A No:8
      Page(s):
    2000-2008

    The line-based method has been one of the most commonly-used methods of hardware implementation of two-dimensional (2D) discrete wavelet transform (DWT). However, data buffer is required between the row DWT processor and the column DWT processor to solve the data flow mismatch, which increases the on-chip memory size and the output latency. Since the incompatible data flow is induced from the intrinsic property of adopted lifting-based algorithm, a decomposed lifting algorithm (DLA) is presented by rearranging the data path of lifting steps to ensure that image data is processed in raster scan manner in row processor and column processor. Theoretical analysis indicates that the precision issue of DLA outperforms other lifting-based algorithms in terms of round-off noise and internal word-length. A memory-efficient and high-performance line-based architecture is proposed based on DLA without the implementation of data buffer. For an N M image, only 2N internal memory is required for 5/3 filter and 4N of that is required for 9/7 filter to perform 2D DWT, where N and M indicate the width and height of an image. Compared with related 2D DWT architectures, the size of on-chip memory is reduced significantly under the same arithmetic cost, memory bandwidth and timing constraint. This design was implemented in SMIC 0.18 µm CMOS logic fabrication with 32 kbits dual-port RAM and 20 K equivalent 2-input NAND gates in a 1.00 mm 1.00 mm die, which can process 512 512 image under 100 MHz.

  • A Block-Based Architecture for Lifting Scheme Discrete Wavelet Transform

    Chung-Hsien YANG  Jia-Ching WANG  Jhing-Fa WANG  Chi-Wei CHANG  

     
    PAPER-Image

      Vol:
    E90-A No:5
      Page(s):
    1062-1071

    Two-dimensional discrete wavelet transform (DWT) for processing image is conventionally designed by line-based architectures, which are simple and have low complexity. However, they suffer from two main shortcomings - the memory required for storing intermediate data and the long latency of computing wavelet coefficients. This work presents a new block-based architecture for computing lifting-based 2-D DWT coefficients. This architecture yields a significantly lower buffer size. Additionally, the latency is reduced from N2 down to 3N as compared to the line-based architectures. The proposed architecture supports the JPEG2000 default filters and has been realized in ARM-based ALTERA EPXA10 Development Board at a frequency of 44.33 MHz.

  • Optimization Design of Biorthogonal Wavelets for Embedded Image Coding

    Zaide LIU  Nanning ZHENG  Yuehu LIU  Huub VAN DE WETERING  

     
    PAPER-Image Processing and Video Processing

      Vol:
    E90-D No:2
      Page(s):
    569-578

    We present here a simple technique for parametrization of popular biorthogonal wavelet filter banks (BWFBs) having vanishing moments (VMs) of arbitrary multiplicity. Given a prime wavelet filter with VMs of arbitrary multiplicity, after formulating it as a trigonometric polynomial depending on two free parameters, we prove the existence of its dual filter based on the theory of Diophantine equation. The dual filter permits perfect reconstruction (PR) and also has VMs of arbitrary multiplicity. We then give the complete construction of two-parameter families of 17/11 and 10/18 BWFBs, from which any linear-phase 17/11 and 10/18 BWFB possessing desired features could be derived with ease by adjusting the free parameters. In particular, two previously unpublished BWFBs for embedded image coding are constructed, both have optimum coding gains and rational coef ficients. Extensive experiments show that our new BWFBs exhibit performance equal to Winger's W-17/11 and Villasenor's V-10/18 (superior to CDF-9/7 by Cohen et al. and Villasenor's V-6/10) for image compression, and yet require slightly lower computational costs.

  • VLSI Implementation of a Modified Efficient SPIHT Encoder

    Win-Bin HUANG  Alvin W. Y. SU  Yau-Hwang KUO  

     
    PAPER-VLSI Architecture

      Vol:
    E89-A No:12
      Page(s):
    3613-3622

    Set Partitioning in Hierarchical Trees (SPIHT) is a highly efficient technique for compressing Discrete Wavelet Transform (DWT) decomposed images. Though its compression efficiency is a little less famous than Embedded Block Coding with Optimized Truncation (EBCOT) adopted by JPEG2000, SPIHT has a straight forward coding procedure and requires no tables. These make SPIHT a more appropriate algorithm for lower cost hardware implementation. In this paper, a modified SPIHT algorithm is presented. The modifications include a simplification of coefficient scanning process, a 1-D addressing method instead of the original 2-D arrangement of wavelet coefficients, and a fixed memory allocation for the data lists instead of a dynamic allocation approach required in the original SPIHT. Although the distortion is slightly increased, it facilitates an extremely fast throughput and easier hardware implementation. The VLSI implementation demonstrates that the proposed design can encode a CIF (352288) 4:2:0 image sequence with at least 30 frames per second at 100-MHz working frequency.

  • An IP Synthesizer for Limited-Resource DWT Processor

    Lan-Rong DUNG  

     
    PAPER-System Level Design

      Vol:
    E87-A No:12
      Page(s):
    3047-3056

    This paper presents a VLSI design methodology for the MAC-level DWT/IDWT processor based on a novel limited-resource scheduling algorithm. The r-split Fully-specified Signal Flow Graph (FSFG) of limited-resource FIR filtering has been developed for the scheduling of the MAC-level DWT/IDWT signal processing. Given a set of architecture constraints and DWT parameters, the scheduling algorithm can generate four scheduling matrices that drive the data path to perform the DWT computation. Because the memory for the inter-octave is considered with the register of FIR filter, the memory size is less than the traditional architecture. Besides, based on the limited-resource scheduling algorithm, an automated DWT processor synthesizer has been developed and generates constrained DWT processors in the form of silicon intelligent property (SIP). The DWT SIP can be embedded into a SOC or mapped to program codes for commercial off-the-shelf (COTS) DSP processors with programmable devices. As a result, it has been successfully proven that a variety of DWT SIPs can be efficiently realized by tuning the parameters and applied for signal processing applications.

  • An Efficient VLSI Architecture of 1-D Lifting Discrete Wavelet Transform

    Pei-Yin CHEN  Shung-Chih CHEN  

     
    LETTER-Integrated Electronics

      Vol:
    E87-C No:11
      Page(s):
    2009-2014

    An efficient VLSI architecture for 1-D lifting DWT is proposed in this paper. To achieve higherhardware utilization and higher throughput, the computations of all resolution levels are folded to both the same high-pass and low-pass filters. Besides, the number of registers in the folded architecture is minimized by using the generalized lifetime analysis. Owing to its regular and flexible structure, the design can be extended easily into different resolution levels, and its area is independent of the length of the 1-D input sequence. Compared with other known architectures, our design requires the least computing time for 1-D lifting DWT.

  • Efficient Architectures for the Biorthogonal Wavelet Transform by Filter Bank and Lifting Scheme

    Yeu-Horng SHIAU  Jer Min JOU  Chin-Chi LIU  

     
    PAPER-VLSI Systems

      Vol:
    E87-D No:7
      Page(s):
    1867-1877

    In this paper, two efficient VLSI architectures for biorthogonal wavelet transform are proposed. One is constructed by the filter bank implementation and another is constructed by the lifting scheme. In the filter bank implementation, due to the symmetric property of biorthogonal wavelet transform, the proposed architecture uses fewer multipliers than the orthogonal wavelet transform. Besides, the polyphase decomposition is adopted to speed up the processing by a factor of 2. In the lifting scheme implementation, the pipeline-scheduling technique is employed to optimize the architecture. Both two architectures are with advantages of lower implementation complexity and higher throughput rate. Moreover, they can also be applied to realize the inverse DWT efficiently. Based on the above properties, the two architectures can be applied to time-critical image compressions, such as JPEG2000. Finally, the architecture constructed by the lifting scheme is implemented into a single chip on 0.35 µm 1P4M CMOS technology, and its area and working performance are 5.005 5.005 mm2 and 50 MHz, respectively.

  • VLSI Architecture for 2-D 3-Level Lifting-Based Discrete Wavelet Transform

    Pei-Yin CHEN  

     
    LETTER-VLSI Design Technology and CAD

      Vol:
    E87-A No:1
      Page(s):
    275-279

    Discrete wavelet transform has been successfully used in many image processing applications. In this paper, we present an efficient VLSI architecture for 2-D 3-level lifting-based discrete wavelet transform using the (5, 3) filter. All three-level coefficients are computed interlacingly and periodically to achieve higher hardware utilization and better throughput. In comparison with other VLSI architectures, our architecture requires less size of storage and faster computation speed.

  • A High-Performance Tree-Block Pipelining Architecture for Separable 2-D Inverse Discrete Wavelet Transform

    Yeu-Horng SHIAU  Jer Min JOU  

     
    PAPER

      Vol:
    E86-D No:10
      Page(s):
    1966-1975

    In this paper, a high-performance pipelining architecture for 2-D inverse discrete wavelet transform (IDWT) is proposed. We use a tree-block pipeline-scheduling scheme to increase computation performance and reduce temporary buffers. The scheme divides the input subbands into several wavelet blocks and processes these blocks one by one, so the size of buffers for storing temporal subbands is greatly reduced. After scheduling the data flow, we fold the computations of all wavelet blocks into the same low-pass and high-pass filters to achieve higher hardware utilization and minimize hardware cost, and pipeline these two filters efficiently to reach higher throughput rate. For the computations of N N-sample 2-D IDWT with filter length of size K, our architecture takes at most (2/3)N2 cycles and requires 2N(K-2) registers. In addition, each filter is designed regularly and modularly, so it is easily scalable for different filter lengths and different levels. Because of its small storage, regularity, and high performance, the architecture can be applied to time-critical image decompression.

  • Lifting Architecture of Invertible Deinterlacing

    Tatsuumi SOYAMA  Takuma ISHIDA  Shogo MURAMATSU  Hisakazu KIKUCHI  Tetsuro KUGE  

     
    PAPER

      Vol:
    E86-A No:4
      Page(s):
    779-786

    Several lifting implementation techniques for invertible deniterlacing are proposed in this paper. Firstly, the invertible deinterlacing is reviewed, and an efficient implementation is presented. Next, two deinterlacer-embedded lifting architectures of discrete wavelet transforms (DWT) is proposed. Performances are compared among several architectures of deinterlacing with DWT. The performance evaluation includes dual-multiplier and single-multiplier architectures. The number of equivalent gates shows that the deinterlacing-embedded architectures require less resources than the separate implementaion. Our experimental evaluation of the dual-multiplier architecture results in 0.8% increase in the gate count, whereas the separate implementation of deinterlacing and DWT requires 6.1% increase from the normal DWT architecture. For the proposed single-multiplier architecture, the gate count is shown to result in 4.5% increase, while the separate counterpart yields 10.7% increase.

  • VLSI Implementation of Lifting Discrete Wavelet Transform Using the 5/3 Filter

    Pei-Yin CHEN  

     
    PAPER-VLSI Systems

      Vol:
    E85-D No:12
      Page(s):
    1893-1897

    In this paper, a VLSI architecture for lifting-based discrete wavelet transform (LDWT) is presented. Our architecture folds the computations of all resolution levels into the same low-pass and high-pass units to achieve higher hardware utilization. Due to the regular and flexible structure of the design, its area is independent of the length of the 1-D input sequence, and its latency is independent of the number of resolution levels. For the computations of analysis process of N-sample 1-D 3-level LDWT, our design takes about N clock cycles and requires 2 multipliers, 4 adders, and 22 registers. It is fabricated with TSMC 0.35-µm cell library and has a die size of 1.21.2 mm2. The power dissipation of the chip is about 0.4 W at the clock rate of 80 MHz.

  • An Embedded Zerotree Wavelet Video Coding Algorithm with Reduced Memory Bandwidth

    Roberto Y. OMAKI  Gen FUJITA  Takao ONOYE  Isao SHIRAKAWA  

     
    PAPER-Image

      Vol:
    E85-A No:3
      Page(s):
    703-713

    A wavelet based algorithm for scalable video compression is described, with the main focus put on memory bandwidth reduction and efficient VLSI implementation. The proposed algorithm adopts a modified 2-D subband decomposition scheme in conjunction with a partial zerotree search for efficient Embedded Zerotree Wavelet coding. The experiment with the performance of the proposed algorithm in comparison with that of conventional DWT, MPEG-2, and JPEG demonstrates that the image quality of the proposed algorithm is consistently superior to that of JPEG, and our scheme can even outperform MPEG-2 in some cases, although it does not exploit the inter-frame redundancy. In spite of the performance inferiority to the conventional DWT, the proposed algorithm attains significant reduction of DWT memory requirements, enhancing a reasonable balance between implementation cost and image quality.

1-20hit(22hit)