Relevant bibliographies by topics / Timing errors

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Timing errors'

Author: Grafiati
Published: 4 June 2021
Last updated: 3 February 2022

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Journal articles on the topic "Timing errors"

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Deeg, Hans J. "A Modified Kwee–Van Woerden Method for Eclipse Minimum Timing with Reliable Error Estimates." Galaxies 9, no. 1 (December 22, 2020): 1. http://dx.doi.org/10.3390/galaxies9010001.

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The Kwee–van Woerden (KvW) method used for the determination of eclipse minimum times has been a staple in eclipsing binary research for decades, due its simplicity and the independence of external input parameters, which also makes it well-suited to obtaining timings of exoplanet transits. However, its estimates of the timing error have been known to have a low reliability. During the analysis of very precise photometry of CM Draconis eclipses from TESS space mission data, KvW’s original equation for the timing error estimate produced numerical errors, which evidenced a fundamental problem in this equation. This contribution introduces an improved approach for calculating the timing error with the KvW method. A code that implements this improved method, together with several further updates of the original method, are presented. An example of the application to CM Draconis light curves from TESS is given. The eclipse minimum times are derived with the KvW method’s three original light curve folds, but also with five and seven folds. The use of five or more folds produces minimum timings with a substantially better precision. The improved method of error calculation delivers consistent timing errors which are in excellent agreement with error estimates obtained by other means. In the case of TESS data from CM Draconis, minimum times with an average precision of 1.1 s are obtained. Reliable timing errors are also a valuable indicator for evaluating if a given scatter in an O-C diagram is caused by measurement errors or by a physical period variation.
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Yang, Kai, and Kwang-Ting Cheng. "Silicon Debug for Timing Errors." IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems 26, no. 11 (November 2007): 2084–88. http://dx.doi.org/10.1109/tcad.2007.906479.

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Ding, Mingzhou, Yanqing Chen, and J. A. Scott Kelso. "Statistical Analysis of Timing Errors." Brain and Cognition 48, no. 1 (February 2002): 98–106. http://dx.doi.org/10.1006/brcg.2001.1306.

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Hart, Melanie A., and T. Gilmour Reeve. "A Preliminary Comparison of Stimulus Presentation Methods with the Bassin Anticipation Timing Task." Perceptual and Motor Skills 85, no. 1 (August 1997): 344–46. http://dx.doi.org/10.2466/pms.1997.85.1.344.

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The Bassin Anticipation Timing Task was used to compare response performance when the stimulus terminated at the target location to when the stimulus continued past the target location. Two conditions (terminating and continuing) were tested by measuring timing errors on the task. Analyses indicated no significant differences in absolute error and variable error between the conditions. However, analysis of constant error showed a significant effect, with the timing errors being fewer on the terminating condition. These results suggest that the two stimulus presentation methods with the Bassin Anticipation Task differentially influence timing performance.
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Seibert, Simon Paul, Uwe Ehret, and Erwin Zehe. "Disentangling timing and amplitude errors in streamflow simulations." Hydrology and Earth System Sciences 20, no. 9 (September 12, 2016): 3745–63. http://dx.doi.org/10.5194/hess-20-3745-2016.

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Abstract. This article introduces an improvement in the Series Distance (SD) approach for the improved discrimination and visualization of timing and magnitude uncertainties in streamflow simulations. SD emulates visual hydrograph comparison by distinguishing periods of low flow and periods of rise and recession in hydrological events. Within these periods, it determines the distance of two hydrographs not between points of equal time but between points that are hydrologically similar. The improvement comprises an automated procedure to emulate visual pattern matching, i.e. the determination of an optimal level of generalization when comparing two hydrographs, a scaled error model which is better applicable across large discharge ranges than its non-scaled counterpart, and "error dressing", a concept to construct uncertainty ranges around deterministic simulations or forecasts. Error dressing includes an approach to sample empirical error distributions by increasing variance contribution, which can be extended from standard one-dimensional distributions to the two-dimensional distributions of combined time and magnitude errors provided by SD. In a case study we apply both the SD concept and a benchmark model (BM) based on standard magnitude errors to a 6-year time series of observations and simulations from a small alpine catchment. Time–magnitude error characteristics for low flow and rising and falling limbs of events were substantially different. Their separate treatment within SD therefore preserves useful information which can be used for differentiated model diagnostics, and which is not contained in standard criteria like the Nash–Sutcliffe efficiency. Construction of uncertainty ranges based on the magnitude of errors of the BM approach and the combined time and magnitude errors of the SD approach revealed that the BM-derived ranges were visually narrower and statistically superior to the SD ranges. This suggests that the combined use of time and magnitude errors to construct uncertainty envelopes implies a trade-off between the added value of explicitly considering timing errors and the associated, inevitable time-spreading effect which inflates the related uncertainty ranges. Which effect dominates depends on the characteristics of timing errors in the hydrographs at hand. Our findings confirm that Series Distance is an elaborated concept for the comparison of simulated and observed streamflow time series which can be used for detailed hydrological analysis and model diagnostics and to inform us about uncertainties related to hydrological predictions.
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Ahn, Jee Seon, Jun Ho Yoon, Jae-Jin Kim, and Jin Young Park. "Movement-Related Potentials Associated with Motor Timing Errors as Determined by Internally Cued Movement Onset." Psychiatry Investigation 18, no. 7 (July 25, 2021): 670–78. http://dx.doi.org/10.30773/pi.2020.0434.

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Objective Accurate motor timing is critical for efficient motor control of behaviors; however, the effect of motor timing abilities on movement-related neural activities has rarely been investigated. The current study aimed to examine the electrophysiological correlates of motor timing errors.Methods Twenty-two healthy volunteers performed motor timing tasks while their electroencephalographic and electromyographic (EMG) activities were simultaneously recorded. The average of intervals between consecutive EMG onsets was calculated separately for each subject. Motor timing error was calculated as an absolute discrepancy value between the subjects’ produced and given time interval. A movement-related potential (MRP) analysis was conducted using readings from Cz electrode.Results Motor timing errors and MRPs were significantly correlated. Our principal finding was that only Bereitschaftpotential (BP) and motor potential (MP), not movement monitoring potential, were significantly attenuated in individuals with motor timing errors. Motor timing error had a significant effect on the amplitude of the late BP and MP.Conclusion The findings provide electrophysiological evidence that motor timing errors correlate with the neural processes involved in the generation of self-initiated voluntary movement. Alterations in MRPs reflect central motor control processes and may be indicative of motor timing deficits.
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Fairhead, L. "Systematic Astrometric Errors in Pulsar Timing." Symposium - International Astronomical Union 141 (1990): 205–12. http://dx.doi.org/10.1017/s007418090008685x.

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A new analysis of the timing data acquired on the fast pulsar PSR1937+214 is presented. Parameters are evaluated with various models based on two ephemerides, two atomic time scales and two TT—TB time transformations. Comparisons are carried out with results from other programs. We provide evidence that systematic errors induced by the model adopted are 5 to 10 times larger than the formal uncertainties calculated by the fitting procedure. Great care must thus be taken when using results from different millisecond pulsars timing programs for accurate astrometric purposes.
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Irie, Hidetsugu, Ken Sugimoto, Masahiro Goshima, and Shuich Sakai. "Preventing timing errors on register writes." ACM SIGARCH Computer Architecture News 35, no. 5 (December 2007): 25–31. http://dx.doi.org/10.1145/1360464.1360473.

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Gordon, A. J., and R. A. Finkel. "Handling timing errors in distributed programs." IEEE Transactions on Software Engineering 14, no. 10 (October 1988): 1525–35. http://dx.doi.org/10.1109/32.6197.

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Minvielle-Moncla, Joëlle, Michel Audiffren, Françoise Macar, and Cécile Vallet. "Overproduction Timing Errors in Expert Dancers." Journal of Motor Behavior 40, no. 4 (July 2008): 291–300. http://dx.doi.org/10.3200/jmbr.40.4.291-300.

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Dissertations / Theses on the topic "Timing errors"

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Santos, Osmar Marchi dos. "Run time detection of timing errors in real-time systems." Thesis, University of York, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.495893.

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Bates, Lakesha. "ANALYSIS OF TIME SYNCHRONIZATION ERRORS IN HIGH DATA RATE ULTRAWIDEBAN." Master's thesis, University of Central Florida, 2004. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/2582.

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Emerging Ultra Wideband (UWB) Orthogonal Frequency Division Multiplexing (OFDM) systems hold the promise of delivering wireless data at high speeds, exceeding hundreds of megabits per second over typical distances of 10 meters or less. The purpose of this Thesis is to estimate the timing accuracies required with such systems in order to achieve Bit Error Rates (BER) of the order of magnitude of 10-12 and thereby avoid overloading the correction of irreducible errors due to misaligned timing errors to a small absolute number of bits in error in real-time relative to a data rate of hundreds of megabits per second. Our research approach involves managing bit error rates through identifying maximum timing synchronization errors. Thus, it became our research goal to determine the timing accuracies required to avoid operation of communication systems within the asymptotic region of BER flaring at low BERs in the resultant BER curves. We propose pushing physical layer bit error rates to below 10-12 before using forward error correction (FEC) codes. This way, the maximum reserve is maintained for the FEC hardware to correct for burst as well as recurring bit errors due to corrupt bits caused by other than timing synchronization errors.
M.S.E.E.
Department of Electrical and Computer Engineering
Engineering and Computer Science
Electrical Engineering
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Parker, Peter A., and Melina Lake. "Signal Emitter Localization Using Telemetry Assets." International Foundation for Telemetering, 2013. http://hdl.handle.net/10150/579671.

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ITC/USA 2013 Conference Proceedings / The Forty-Ninth Annual International Telemetering Conference and Technical Exhibition / October 21-24, 2013 / Bally's Hotel & Convention Center, Las Vegas, NV
Telemetry ground stations spread over geographically diverse areas are well suited for use in passively locating the source of a distant transmitted signal. In a favorable positioning of receive sites, the accuracy of these passive localization techniques can compete with the accuracy of radars. In these cases, use of receive only assets is a less expensive alternative than the use of a radar's scarce resources. Until recently, the major technical challenge to implementation of the passive localization techniques of time-difference of arrival (TDOA) and frequency-difference of arrival (FDOA) has been the frequency and time stability of geographically separated receivers. Advances in GPS based timing and frequency references has made the implementation of TDOA and FDOA feasible. This paper shows how these limitations have been overcome using the current telemetry assets at the Reagan Test Site in Kwajalein Atoll.
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Cochrane, Angela J. "When to correct errors when teaching a new task to children with autism." Thesis, University of North Texas, 2016. https://digital.library.unt.edu/ark:/67531/metadc955059/.

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The purpose of this experiment was to investigate Tosti's proposal about the timing of feedback. The study examined whether it is better to correct immediately after the error occurs or whether it is better to wait until immediately before the next opportunity to respond. In addition, it aimed to determine whether corrections delivered at different times produced different learner affects. Four children with autism were taught to label two sets of pictures under the two different conditions. Results showed that the timing of the feedback yields similar results in regards to number of correct responses and total trial count. However, in regards to time spent in teaching and learner affect, correcting errors before the next opportunity to respond showed to be the more efficient procedure and produced more favorable affect.
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Zimpeck, Alexandra Lackmann. "Timing vulnerability factor analysis in master-slave D flip-flops." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2016. http://hdl.handle.net/10183/134459.

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O dimensionamento da tecnologia trouxe consequências indesejáveis para manter a taxa de crescimento exponencial e levanta questões importantes relacionadas com a confiabilidade e robustez dos sistemas eletrônicos. Atualmente, microprocessadores modernos de superpipeline normalmente contêm milhões de dispositivos com cargas nos nós cada vez menores. Esse fator faz com que os circuitos sejam mais sensíveis a variabilidade ambiental e aumenta a probabilidade de um erro transiente acontecer. Erros transientes em circuitos sequenciais ocorrem quando uma única partícula energizada deposita carga suficiente perto de uma região sensível. Flip-Flops mestreescravo são os circuitos sequencias mais utilizados em projeto VLSI para armazenamento de dados. Se um bit-flip ocorrer dentro deles, eles perdem a informação prévia armazenada e podem causar um funcionamento incorreto do sistema. A fim de proporcionar sistemas mais confiáveis que possam lidar com os efeitos da radiação, este trabalho analisa o Fator de Vulnerabilidade Temporal (Timing Vulnerability Factor - TVF) em algumas topologias de flip-flops mestre-escravo em estágios de pipeline sob diferentes condições de operação. A janela de tempo efetivo que o bit-flip ainda pode ser capturado pelo próximo estágio é definido com janela de vulnerabilidade (WOV). O TVF corresponde ao tempo que o flip-flop é vulnerável a erros transientes induzidos pela radiação de acordo com a WOV e a frequência de operação. A primeira etapa deste trabalho determina a dependência entre o TVF com a propagação de falhas até o próximo estágio através de uma lógica combinacional com diferentes atrasos de propagação e com diferentes modelos de tecnologia, incluindo também as versões de alto desempenho e baixo consumo. Todas as simulações foram feitas sob as condições normais pré-definidas nos arquivos de tecnologia. Como a variabilidade se manifesta com o aumento ou diminuição das especificações iniciais, onde o principal problema é a incerteza sobre o valor armazenado em circuitos sequenciais, a segunda etapa deste trabalho consiste em avaliar o impacto que os efeitos da variabilidade ambiental causam no TVF. Algumas simulações foram refeitas considerando variações na tensão de alimentação e na temperatura em diferentes topologias e configurações de flip-flops mestre-escravo. Para encontrar os melhores resultados, é necessário tentar diminuir os valores de TVF, pois isso significa que eles serão menos vulneráveis a bit-flips. Atrasos de propagação entre dois circuitos sequenciais e frequências de operação mais altas ajudam a reduzir o TVF. Além disso, estas informações podem ser facilmente integradas em ferramentas de EDA para ajudar a identificar os flip-flops mestre-escravo mais vulneráveis antes de mitigar ou substituí-los por aqueles tolerantes a radiação.
Technology scaling has brought undesirable issues to maintain the exponential growth rate and it raises important topics related to reliability and robustness of electronic systems. Currently, modern super pipelined microprocessors typically contain many millions of devices with ever decreasing load capacitances. This factor makes circuits more sensitive to environmental variations and it is increased the probability to induce a soft error. Soft errors in sequential circuits occur when a single energetic particle deposits enough charge near a sensitive node. Master-slave flip-flops are the most adopted sequential elements to work as registers in pipeline and finite state machines. If a bit-flip happens inside them, they lose the previous stored information and may cause an incorrect system operation. To provide reliable systems that can cope with radiation effects, this work analysis the Timing Vulnerability Factor (TVF) of some master-slave D flip-flops topologies in pipeline stages under different operating conditions. The effective time window, which the bit-flip can still be captured by the next stage, is defined as Window of Vulnerability (WOV). TVF corresponds to the time that a flip-flop is vulnerable to radiation-induced soft errors according to WOV and clock frequency. In the first step of this work, it is determined the dependence between the TVF with the fault propagation to the next stage through a combinational logic with different propagation delays and with different nanometer technological models, including also high performance and low power versions. All these simulations were made under the pre-defined nominal conditions in technology files. The variability manifests with an increase or decreases to initial specification, where the main problem is the uncertainty about the value stored in sequential. In this way, the second step of this work evaluates the impact that environmental variability effect causes in TVF. Some simulations were redone considering supply voltage and temperature variations in different master-slave D flip-flop topologies configurations. To achieve better results, it is necessary to try to decrease the TVF values to reduce the vulnerability to bit-flips. The propagation delay between two sequential elements and higher clock frequencies collaborates to reduce TVF values. Moreover, all the information can be easily integrated into Electronic Design Automation (EDA) tools to help identifying the most vulnerable master-slave flip-flops before mitigating or replacing them by radiation hardened ones.
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Dunsmure, Louise C. ""Can I trust you with my medicines?" A grounded theory study of patients with Parkinson's disease perceptions of medicines management." Thesis, University of Bradford, 2012. http://hdl.handle.net/10454/5649.

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Introduction: People with Parkinson's disease require individualised medication regimens to achieve symptomatic control whilst managing complications of the treatments and the underlying disease. Patients should continue to receive their individualised regimen when they are admitted to hospital but studies have highlighted that this may not happen. There is a paucity of research about patients' perceptions of the management of anti-parkinsonian medicines during a hospital admission and the aim of this study was to explore the perceptions of Parkinson's disease patients admitted to Leeds Teaching Hospitals about the management of their anti-parkinsonian medications.Method: Grounded theory methodology was used to allow detailed exploration of patients' perceptions and to generate theory about this under-researched area. Face to face, semi-structured interviews were conducted with 13 Parkinson's disease patients during their hospital admission, fully transcribed and analysed using the constant comparative approach. Results: Categories contributing to the core category of 'patient anxiety' were identified as 'maintaining usual medication routine', 'access to anti-parkinsonian medications', 'accuracy and consistency', 'trust in healthcare professionals' and 'staff knowledge about Parkinson's disease'. Strategies used to manage the anxiety were related to the categories 'utilising expertise' in Parkinson's disease and 'patient involvement' in their care. Discussion: The theory suggests that some patients have negative perceptions about the management of their medicines during a hospital admission. Areas for practice development are presented along with areas for future research. Conclusion: This study provides new insight into the perceptions of patients with Parkinson's disease about the management of their medicines during a hospital admission.
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Dunsmure, Louise Charlotte. ""Can I trust you with my medicines?" : a grounded theory study of patients with Parkinson's disease perceptions of medicines management." Thesis, University of Bradford, 2012. http://hdl.handle.net/10454/5649.

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Introduction: People with Parkinson's disease require individualised medication regimens to achieve symptomatic control whilst managing complications of the treatments and the underlying disease. Patients should continue to receive their individualised regimen when they are admitted to hospital but studies have highlighted that this may not happen. There is a paucity of research about patients' perceptions of the management of antiparkinsonian medicines during a hospital admission and the aim of this study was to explore the perceptions of Parkinson's disease patients admitted to Leeds Teaching Hospitals about the management of their antiparkinsonian medications.Method: Grounded theory methodology was used to allow detailed exploration of patients' perceptions and to generate theory about this under-researched area. Face to face, semi-structured interviews were conducted with 13 Parkinson's disease patients during their hospital admission, fully transcribed and analysed using the constant comparative approach. Results: Categories contributing to the core category of 'patient anxiety' were identified as 'maintaining usual medication routine', 'access to antiparkinsonian medications', 'accuracy and consistency', 'trust in healthcare professionals' and 'staff knowledge about Parkinson's disease'. Strategies used to manage the anxiety were related to the categories 'utilising expertise' in Parkinson's disease and 'patient involvement' in their care. Discussion: The theory suggests that some patients have negative perceptions about the management of their medicines during a hospital admission. Areas for practice development are presented along with areas for future research. Conclusion: This study provides new insight into the perceptions of patients with Parkinson's disease about the management of their medicines during a hospital admission.
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Koeslag, Francois. "A detailed analysis of the imperfections of pulsewidth modulated waveforms on the output stage of a class D audio amplifier." Thesis, Stellenbosch : University of Stellenbosch, 2009. http://hdl.handle.net/10019.1/3972.

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Thesis (PhD (Electrical and Electronic Engineering))--University of Stellenbosch, 2009.
Although the Class D topology offers several advantages, its use in audio amplification has previously been limited by the lack of competitiveness in fidelity compared to its linear counterparts. During the past decade, technological advances in semiconductor technology have awakened new interest since competitive levels of distortion could now be achieved. The output stage of such an amplifier is the primary limiting factor in its performance. In this dissertation, four non-ideal effects existing in this stage are identified and mathematically analysed. The analytical analysis makes use of a well-established mathematical model, based on the double Fourier series method, to model the imperfections introduced into a naturally sampled pulsewidth modulated waveform. The analysis is complemented by simulation using a strategy based on Newton’s numerical method. The theory is verified by a comparison between the analytical-, simulated- and experimental results.
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Perez, Andrade Isaac. "Timing-error-tolerant iterative decoders." Thesis, University of Southampton, 2016. https://eprints.soton.ac.uk/400254/.

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Iterative decoders such as Low-Density Parity-Check (LDPC) and turbo decoders have an inherent capability to correct the transmission errors that originate during communication over a hostile wireless channel. This capability has engendered the widespread use of LDPC and turbo decoders in current communications standards. As a result, signficant research efforts have been made in order to conceive efficient Very-Large-Scale Integration (VLSI) implementations of both LDPC and turbo decoders. Typically, these efforts have focused on optimizing only one of the various trade-offs associated with the hardware implementation of iterative decoders, such as the chip area, latency, throughput, energy efficiency or Bit Error Ratio (BER) performance. However, tolerance to timing errors that occur during the iterative decoding processing are typically not considered in these implementations. Owing to this, the BER performance and hardware efficiency of the proposed designs may be severely degraded, if timing errors occur during the iterative decoding process. Against this background, this thesis demonstrates that iterative decoders are capable of exploiting their inherent error correction capability to correct not only transmission errors, but also timing errors caused by overclocking and power supply variations. Moreover,we propose modifications to the iterative decoders designs, which further enhance their inherent tolerance to timing errors. We achieve this by considering the close relationship between the different trade-offs associated with the hardware implementation of iterative decoders, with the aim of achieving Pareto optimality, where none of these trade-offs can be further improved without degrading at least one of the others. Owing to this, our proposed timing-error-tolerant design methodology simultaneously considers the design constraints and parameters that affect not only the BER performance, but also the hardware efficiency of each implementation. We first investigate the benefits of stochastic computing in iterative decoders, by characterizing the inherent timing-error tolerance of Stochastic LDPC Decoders (SLDPCDs) and Stochastic Turbo Decoders (STDs). Moreover, we propose modifications to the SLDPCD and STD in order to further improve their inherent tolerance to timing errors. This is achieved by performing extensive transistor-level and post-layout simulations, in order to develop different timing analyses for determining the causes and effects of timing errors in these stochastic decoders. Following this, we propose a novel Reduced-Latency STD (RLSTD), which improves the latency of the state-of-the-art STD by an order of magnitude, without increasing its chip area or energy consumption. Our experimental results demonstrate that our proposed RLSTD achieves ultra-low-latencies required by next-generation Mission-Critical Machine-Type Communication (MCMTC). We also investigate the inherent tolerance to timing errors of a recently-proposed Fully-Parallel Turbo Decoder (FPTD). Furthermore, we propose a novel Reduced-Critical-Path Fully-Parallel Turbo Decoder (RCP-FPTD) algorithm and the employment of Better-Than-Worst-Case (BTWC) design techniques in FPTD and RCP-FPTD implementations, for the sake of improving their throughput and their tolerance to timing errors caused by overclocking. We demonstrate that the FPTD and RCP-FPTD implementations improve the throughput of the state-of-the-art turbo decoder by an order of magnitude. Finally, despite operating in the presence of timing errors, our proposed Better-Than-Worst-Case Reduced-Critical-Path Fully-Parallel Turbo Decoder (BTWC-RCP-FPTD) achieves throughputs on the order of tens of Gbps, which may be expected to be a requirement in next-generation wireless communication standards.
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Bage, Jayaraj Nagendra. "Minimum Symbol Error Rate Timing Recovery System." DigitalCommons@USU, 2010. https://digitalcommons.usu.edu/etd/684.

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This thesis presents a timing error detector (TED) used in the symbol timing synchronization subsystem for digital communications. The new timing error detector is designed to minimize the probability of symbol decision error, and it is called minimum symbol error rate TED (MSERTED). The new TED resembles the TED derived using the maximum likelihood (ML) criterion but gives rise to faster convergence relative to MLTED. The new TED requires shorter training sequences for symbol timing recovery. The TED operates on the outputs of the matched filter and estimates the timing offset. The S-curve is used as a tool for analyzing the behavior of the TEDs. The faster convergence of the new TED is shown in simulation results as compared to MLTED. The new TED works well for any two-dimensional constellation with arbitrarily shaped decision regions.
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Books on the topic "Timing errors"

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Read, Robert R. An investigation of timing synchronization errors for tracking underwater vehicles. Monterey, Calif: Naval Postgraduate School, 1990.

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Fuchs, P. Sensitivity to bit timing error of a baseband digital transmission system. Manchester: UMIST, 1997.

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Lee, Suk Ho. Jamming effects on digital communications receivers (timing errors and frequency errors). 1985.

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Aetio pathogenesis and treatment of timira (errors of refraction) with Saptāmr̥ita lauha and Mahātriphalā ghr̥ita =: [Timira roga para nidānasamprāpti paraka adhyayana evaṃ isakī Saptāmṛta lauha tathā Mahātriphalā ghṛta se cikitsa]. New Delhi: Central Council for Research in Ayurveda and Siddha, Ministry of Health and F.W., Govt. of India, 1987.

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Hershinow, David. Shakespeare and the Truth-Teller. Edinburgh University Press, 2019. http://dx.doi.org/10.3366/edinburgh/9781474439572.001.0001.

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The Truth-Teller makes the case that Shakespeare repeatedly responds to sixteenth-century debates over the revolutionary potential of Cynic critical activity—debates that persist in later centuries and that inform major developments in Western intellectual history. To live one’s truth may have been a radical (and controversial) proposition for ancient Greek democracy, but Shakespeare reveals it to be an equally vexed task for drama, which aimed both to represent political truths and warn against the dangers of over-identifying with the figure of the lone truth teller. The book contends that aspiring critics from the sixteenth century to the present cathect onto the figure of the Cynic because they mistake literary character for viable political formula. Shakespeare, the book argues, works to diagnose this interpretive error through his Cynic characterizations of Lear’s Fool, Hamlet, and Timon of Athens. Offering new ways of thinking about early modernity’s engagement with classical models as well as literature’s engagement with politics, The Truth-Teller insists upon the necessity of literary thinking to political philosophy.
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Book chapters on the topic "Timing errors"

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Fairhead, L. "Systematic Astrometric Errors in Pulsar Timing." In Inertial Coordinate System on the Sky, 205–12. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-0613-6_78.

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de Vos, N. J., and T. H. M. Rientjes. "Correction of Timing Errors of Artificial Neural Network Rainfall-Runoff Models." In Practical Hydroinformatics, 101–12. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-540-79881-1_8.

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Kriebel, Florian, Kuan-Hsun Chen, Semeen Rehman, Jörg Henkel, Jian-Jia Chen, and Muhammad Shafique. "Dependable Software Generation and Execution on Embedded Systems." In Dependable Embedded Systems, 139–60. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-52017-5_6.

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AbstractFor generating and executing dependable software, the effects of hardware layer faults at the software layer have to be accurately analyzed and modeled. This requires relevant information from the hardware and software layers, as well as an in-depth analysis of how an application’s outputs are affected by errors, and quantifying the error masking and error propagation on the software layer. Based on this analysis, techniques for generating dependable software can be proposed, e.g., by different dependability-aware compiler-based software transformations or selective instruction protection. Beside functional aspects, timing also plays an important role, as oftentimes tasks have to be finished before a certain deadline to provide useful information, especially in real-time systems. Both aspects are jointly taken into account by the run-time system software which decides—with the help of offline and online-generated data—for multiple concurrently executing applications how to protect and when to execute which application task to optimize for dependability and timing correctness. This is achieved for example by selecting appropriate application versions and protection levels for single and multi-core systems—for example using redundant multithreading (RMT) in different modes—under tolerable performance overhead constraints.
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Hossain, Md Tofazzal, Sithamparanathan Kandeepan, and David B. Smith. "Decode-and-Forward Cooperative Communications: Performance Analysis with Power Constraints in the Presence of Timing Errors." In Mobile Multimedia Communications, 463–75. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-35155-6_37.

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Li, Qilin, Lijing Wang, and Zhijiong Cheng. "Impact of Timing Errors on the Performance of Double Iteration Anti-jamming Technology in Physical Layer Security." In Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, 356–64. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-14657-3_36.

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Rossi, Alessandra, Kerstin Dautenhahn, Kheng Lee Koay, and Michael L. Walters. "How the Timing and Magnitude of Robot Errors Influence Peoples’ Trust of Robots in an Emergency Scenario." In Social Robotics, 42–52. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-70022-9_5.

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Reyserhove, Hans, and Wim Dehaene. "Timing Error-Aware Microcontroller." In Efficient Design of Variation-Resilient Ultra-Low Energy Digital Processors, 163–98. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-12485-4_6.

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Murali, Srinivasan. "Timing-Error Tolerant NoC Design." In Designing Reliable and Efficient Networks on Chips, 117–39. Dordrecht: Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-1-4020-9757-7_8.

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Trammell, Brian, Bernhard Tellenbach, Dominik Schatzmann, and Martin Burkhart. "Peeling Away Timing Error in NetFlow Data." In Passive and Active Measurement, 194–203. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-19260-9_20.

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Rukšėnas, Rimvydas, Paul Curzon, Ann Blandford, and Jonathan Back. "Combining Human Error Verification and Timing Analysis." In Engineering Interactive Systems, 18–35. Berlin, Heidelberg: Springer Berlin Heidelberg, 2008. http://dx.doi.org/10.1007/978-3-540-92698-6_2.

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Conference papers on the topic "Timing errors"

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Beale, D. A. R., A. L. Hume, and V. P. Calloway. "Error mechanisms in determining timing errors in unattended ground sensors." In Defense and Security, edited by Edward M. Carapezza. SPIE, 2005. http://dx.doi.org/10.1117/12.606745.

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Al Hage, Joelle. "Bounding Localization Errors with Student Distribution for Road Vehicles." In International Technical Symposium on Navigation and Timing 2018. ENAC, 2018. http://dx.doi.org/10.31701/itsnt2018.11.

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Matera, Eustachio Roberto. "Characterization Of Pseudo-Range Multipath Errors In An Urban Environment." In International Technical Symposium on Navigation and Timing 2018. ENAC, 2018. http://dx.doi.org/10.31701/itsnt2018.22.

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Yang, Fuqian, Xiaoyu Zhang, Penghao Cai, and Xiliang Luo. "Massive MIMO performance with timing & frequency errors." In 2017 IEEE Global Conference on Signal and Information Processing (GlobalSIP). IEEE, 2017. http://dx.doi.org/10.1109/globalsip.2017.8308646.

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Simoglou, Stavros, Christos Sotiriou, and Nikolaos Blias. "Timing Errors in STA-based Gate-Level Simulation." In 2020 26th IEEE International Symposium on Asynchronous Circuits and Systems (ASYNC). IEEE, 2020. http://dx.doi.org/10.1109/async49171.2020.00008.

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Sarangi, Smruti, Brian Greskamp, Abhishek Tiwari, and Josep Torrellas. "EVAL: Utilizing processors with variation-induced timing errors." In 2008 41st IEEE/ACM International Symposium on Microarchitecture (MICRO). IEEE, 2008. http://dx.doi.org/10.1109/micro.2008.4771810.

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Dupraz, Elsa, Bane Vasic, and David Declercq. "Performance of taylor-kuznetsov memories under timing errors." In ICC 2017 - 2017 IEEE International Conference on Communications. IEEE, 2017. http://dx.doi.org/10.1109/icc.2017.7996548.

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Marchal-Crespo, Laura, Tanja Baumann, Daniela Fichmann, Steve Maassen, Jaime E. Duarte, and Robert Riener. "Evaluation of a mixed controller that amplifies spatial errors while reducing timing errors." In 2016 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC). IEEE, 2016. http://dx.doi.org/10.1109/embc.2016.7591883.

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Zeng, Wei, Patrick Mitran, and Aleksandar Kavcic. "On the Information Stability of Channels With Timing Errors." In 2006 IEEE International Symposium on Information Theory. IEEE, 2006. http://dx.doi.org/10.1109/isit.2006.261808.

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Choudhury, M. R., and K. Mohanram. "Masking timing errors on speed-paths in logic circuits." In 2009 Design, Automation & Test in Europe Conference & Exhibition (DATE'09). IEEE, 2009. http://dx.doi.org/10.1109/date.2009.5090638.

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