Spelling suggestions: "subject:"designal processing -- 4digital techniques"" "subject:"designal processing -- deigital techniques""
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Algorithms and architectures for low-density parity-check codecs / Chris Howland.Howland, Chris (Christopher John) January 2001 (has links)
"October 10th, 2001." / Errata included. / Bibliography: p. 179-185. / xii, 185 p. : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Looks at algorithms and architectures for implementing low-density parity-check codes to achieve reliable communication of digital data over an unreliable channel. Shows that published methods of finding LDPC codes do not result in good codes. Derives a cost metric for measuring short cycles in a graph due to an edge and proposes an algorithm for constructing codes through the minimisation of the cost metric. An encoding algorithm is derived by considering the parity check matrix as a set of linear simultaneous equations. A parallel architecture for implementing LDPC decoders is proposed and the advantages in terms of throughput and power reduction of this architecture are demonstrated through the implementation of 2 LSPC decoders in a 1.5V 0.16[mu]m CMOS process. / Thesis (Ph.D.)--University of Adelaide, Dept. of Electrical and Electronic Engineering, 2002
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High-performance delta-sigma analog-to-digital convertersda Silva, Jose Barreiro 14 July 2004 (has links)
Graduation date: 2005
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Signal estimation from short-time spectral magnitudeJanuary 1982 (has links)
Syed Hamid Nawab. / Originally published as thesis (Dept. of Electrical Engineering and Computer Science, Ph.D., 1982). / Bibliography: p. 90-91. / Supported in part by the Advanced Research Projects Agency monitored by ONR under Contract N00014-81-K-0742 NR 049-506 Supported in part by the National Science Foundation under Grant ECS80-07102
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Jitter measurement of high-speed digital signals using low-cost signal acquisition hardware and associated algorithmsChoi, Hyun 06 July 2010 (has links)
This dissertation proposes new methods for measuring jitter of high-speed digital signals. The proposed techniques are twofold. First, a low-speed jitter measurement environment is realized by using a jitter expansion sensor. This sensor uses a low-frequency reference signal as compared to high-frequency reference signals required in standard high-speed signal jitter measurement instruments. The jitter expansion sensor generates a low-speed signal at the output, which contains jitter content of the original high-speed digital signal. The low-speed sensor output signal can be easily acquired with a low-speed digitizer and then analyzed for jitter. The proposed low-speed jitter measurement environment using the jitter expansion sensor enhances the reliability of current jitter measurement approaches since low-speed signals used as a reference signal and a sensor output signal can be generated and applied to measurement systems with reduced additive noise. The second approach is direct digitization without using a sensor, in which a high-speed digital signal with jitter is incoherently sub-sampled and then reconstructed in the discrete-time domain by using digital signal reconstruction algorithms. The core idea of this technique is to remove the hardware required in standard sampling-based jitter measurement instruments for time/phase synchronization by adopting incoherent sub-sampling as compared to coherent sub-sampling and to reduce the need for a high-speed digitizer by sub-sampling a periodic signal over its many realizations. In the proposed digitization technique, the signal reconstruction algorithms are used as a substitute for time/phase synchronization hardware. When the reconstructed signal is analyzed for jitter in digital post-processing, a self-reference signal is extracted from the reconstructed signal by using wavelet denoising methods. This digitally generated self-reference signal alleviates the need for external analog reference signals. The self-reference signal is used as a timing reference when timing dislocations of the reconstructed signal are measured in the discrete-time domain. Various types of jitter of the original high-speed reference signals can be estimated using the proposed jitter analysis algorithms.
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Accuracy-energy tradeoffs in digital image processing using embedded computing platformsKim, Se Hun 14 November 2011 (has links)
As more and more multimedia applications are integrated in mobile devices, a significant amount of energy is devoted to digital signal processing (DSP). Thus, reducing energy consumption for DSP systems has become an important design goal for battery operated mobile devices. Since supply voltage scaling is one of the most effective methods to reduce power/energy consumption, this study examines aggressive voltage scaling to achieve significant energy savings by allowing some output quality degradation for error tolerant image processing system. The objective of proposed research is to explore ultra-low energy image processing system design methodologies based on efficient accuracy (quality)-energy tradeoffs.
This dissertation presents several new analyses and techniques to achieve significant energy savings without noticeable quality degradation under aggressive voltage scaling. In the first, this work starts from accurate error analysis and a model based on input sequence dependent delay estimation. Based on the analysis, we explain the dependence of voltage scalability on input image types, which may be used for input dependent adaptive control for optimal accuracy-energy tradeoffs. In addition, this work includes the system-level analysis of the impact of aggressive voltage scaling on overall energy consumption and a low-cost technique to reduce overall energy consumption. Lastly, this research exploits an error concealment technique to improve the efficiency of accuracy-energy tradeoffs. For an image compression system, the technique minimizes the impact of delay errors on output quality while allowing very low voltage operations for significant energy reduction.
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VLSI macromodeling and signal integrity analysis via digital signal processing techniquesLei, Chi-un, 李志遠 January 2011 (has links)
published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy
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Efficient design and realization of digital IFs and time-interleaved analog-to-digital converters for software radio receiversTsui, Kai-man, 徐啟民 January 2008 (has links)
published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy
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Chaos-based secure communication and systems design.Owuor, Dennis Luke. January 2012 (has links)
M. Tech. Electrical Engineering. / This dissertation presents encryption and decryption of digital message signal and image data based on Qi hyper chaos system. The field of telecommunication has grown rapidly especially with the introduction of mobile phone and internet networks. Associated with this growth, there is a vital need to have a secure communication of information.
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Mixed-signal signature analysis for systems-on-a-chipRoh, Jeongjin, 1966- 04 April 2011 (has links)
Not available / text
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BIST-based performance characterization of mixed-signal circuitsYu, Hak-soo, 1966- 01 August 2011 (has links)
Not available / text
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