Relevant bibliographies by topics / Error-resilient application

Academic literature on the topic 'Error-resilient application'

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Published: 14 March 2023

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Journal articles on the topic "Error-resilient application"

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Kumar, Vinay, Ankit Singh, Shubham Upadhyay, and Binod Kumar. "Power–Delay-Error-Efficient Approximate Adder for Error-Resilient Applications." Journal of Circuits, Systems and Computers 28, no. 10 (September 2019): 1950171. http://dx.doi.org/10.1142/s0218126619501718.

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Power dissipation has been the prime concern for CMOS circuits. Approximate computing is a potential solution for addressing this concern as it reduces power consumption resulting in improved performance in terms of power–delay product (PDP). Decrease of power consumption in approximate computing is achieved by approximating the demand of accuracy as per the error tolerance of the system. This paper presents a new approach for designing approximate adder by introducing inexactness in the existing logic gate(s). Approximated logic gates provide flexibility in designing low power error-resilient systems depending on the error tolerance of the applications such as image processing and data mining. The proposed approximate adder (PAA) has higher accuracy than existing approximate adders with normalized mean error distance of 0.123 and 0.1256 for 16-bit and 32-bit adder, respectively, and lower PDP of 1.924E[Formula: see text]18[Formula: see text]J for 16-bit adder and 5.808E[Formula: see text]18[Formula: see text]J for 32-bit adder. The PAA also performs better than some of the recent approximate adders reported in literature in terms of layout area and delay. Performance of PAA has also been evaluated with an image processing application.
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Joshi, Viraj, Pravin Mane, and Bits Pilani. "Approximate Arithmetic Circuit Design for Error Resilient Applications." International Journal of VLSI Design & Communication Systems 13, no. 1/2/3/4/5/6 (December 30, 2022): 01–16. http://dx.doi.org/10.5121/vlsic.2022.13601.

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When the application context is ready to accept different levels of exactness in solutions and is supported by human perception quality, then the term ‘Approximate Computing’ tossed before one decade will become the first priority . Even though computer hardware and software are working to generate exact results, approximate results are preferred whenever an error is in predefined bound and adaptive. It will reduce power demand and critical path delay and improve other circuit metrics. When it comes to traditional arithmetic circuits, those generating correct results with limitations on performance are rapidly getting replaced by approximate arithmetic circuits which are the need of the hour, and so on about their design.
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Kumar, G. Vijay, and Y. Anjani. "Application of Error-resilient Transmission of Sleep Apnea Patient Video with Sound over Mobile Network." International Journal of Emerging Research in Management and Technology 6, no. 11 (June 13, 2018): 81. http://dx.doi.org/10.23956/ijermt.v6i11.50.

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Mobile video-audio transmission systems have delivered patient video with relevant snoring sound to quantify the severity of the sleep apnea patient over wireless networks, but few have optimized video-audio transmission in combination with transmission protocol over error-prone environments using wireless links. In this paper, the performance of the MPEG (Motion Picture Expert Group)-4 error resilient tools with UDP(User Datagram Protocol) protocol were evaluated over a wireless network to suggest the optimum combination of MPEG-4 error resilient tools and UDP packet size suitable for real-time transmission of video-audio transmission over error-prone mobile networks. Through experimentation, it was found that the packet size should correspond to IP(Internet Protocol) datagram size minus UDP and IP header for optimal video-audio quality. Also, for error resilient tool selection, the combination of resynchronization marker and data partitioning showed the best performance.
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Yang Hu, W. A. Pearlman, and Xin Li. "Progressive Significance Map and Its Application to Error-Resilient Image Transmission." IEEE Transactions on Image Processing 21, no. 7 (July 2012): 3229–38. http://dx.doi.org/10.1109/tip.2012.2190084.

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Mehrabani, Yavar Safaei, Mona Parsapour, Mona Moradi, and Mehdi Bagherizadeh. "A Novel Efficient CNFET-Based Inexact Full Adder Design for Image Processing Applications." International Journal of Nanoscience 20, no. 02 (January 22, 2021): 2150016. http://dx.doi.org/10.1142/s0219581x21500162.

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Employing inexact arithmetic circuits in error-resilient applications results in reduction of hardware-level metrics such as power consumption, delay and occupied area. These criteria are very important in portable applications because they are battery limited. Full Adder cell is as a building block of many arithmetic circuits. Therefore, it can influence the performance of the entire digital system. This paper presents a novel low-power and high-speed design of one-bit inexact full adder cell based on 32-nm (CNFET) technology for error resilient applications. This design technique can be utilized in various applications particularly in image processing. The presented design employs capacitive threshold logic (CTL) approach which significantly reduces the number of transistors. The peak signal-to-noise ratio (PSNR) is considered to evaluate accuracy of circuits at application level. Then extensive simulations regarding various power supplies, temperatures and loads at transistor level are performed to measure power consumption and propagation delay criteria. Moreover, some new metrics are introduced to trade-off between application and hardware level parameters. Comprehensive simulations demonstrate the supremacy of the proposed cell than others.
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Yen-Chi Lee, Y. Altunbasak, and R. M. Mersereau. "Coordinated application of multiple description scalar quantization and error concealment for error-resilient MPEG video streaming." IEEE Transactions on Circuits and Systems for Video Technology 15, no. 4 (April 2005): 457–68. http://dx.doi.org/10.1109/tcsvt.2005.844446.

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Lee, Yen-Chi, Yucel Altunbasak, and Russell M. Mersereau. "An integrated application of multiple description transform coding and error concealment for error-resilient video streaming." Signal Processing: Image Communication 18, no. 10 (November 2003): 957–70. http://dx.doi.org/10.1016/j.image.2003.08.011.

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Huo, Mingxia, and Ying Li. "Error-resilient Monte Carlo quantum simulation of imaginary time." Quantum 7 (February 9, 2023): 916. http://dx.doi.org/10.22331/q-2023-02-09-916.

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Computing the ground-state properties of quantum many-body systems is a promising application of near-term quantum hardware with a potential impact in many fields. The conventional algorithm quantum phase estimation uses deep circuits and requires fault-tolerant technologies. Many quantum simulation algorithms developed recently work in an inexact and variational manner to exploit shallow circuits. In this work, we combine quantum Monte Carlo with quantum computing and propose an algorithm for simulating the imaginary-time evolution and solving the ground-state problem. By sampling the real-time evolution operator with a random evolution time according to a modified Cauchy-Lorentz distribution, we can compute the expected value of an observable in imaginary-time evolution. Our algorithm approaches the exact solution given a circuit depth increasing polylogarithmically with the desired accuracy. Compared with quantum phase estimation, the Trotter step number, i.e. the circuit depth, can be thousands of times smaller to achieve the same accuracy in the ground-state energy. We verify the resilience to Trotterisation errors caused by the finite circuit depth in the numerical simulation of various models. The results show that Monte Carlo quantum simulation is promising even without a fully fault-tolerant quantum computer.
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Reina, Salvatore, Robert Arcos, Arnau Clot, and Jordi Romeu. "An Efficient Experimental Methodology for the Assessment of the Dynamic Behaviour of Resilient Elements." Materials 13, no. 13 (June 27, 2020): 2889. http://dx.doi.org/10.3390/ma13132889.

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The assessment of the dynamic behaviour of resilient elements can be performed using the indirect method as described in the standard ISO 10846-3. This paper presents a methodology for control the error on the estimation of the frequency response functions (FRF) required for the application of the indirect method when sweep sine excitation is used. Based on a simulation process, this methodology allows for the design of the sweep sine excitation parameters, i.e., the sweep rate and the force amplitude, to control three types of errors associated to the experimentally obtained FRF in the presence of background noise: a general error of the FRF in a selected frequency range, and the errors associated to the amplitude and the frequency of the FRF resonance peak. The signal processing method used can be also tested with this methodology. The methodology has been tested in the characterisation of two different resilient elements: an elastomer and a coil spring. The simulated error estimations has been found to be in good agreement with the errors found in the measured FRF. Furthermore, it is found that for large signal-to-noise ratios, both sweep rate and force amplitude significantly affect the FRF estimation error, while, for small signal-to-noise ratios, only the force amplitude can control the error efficiently. The current methodology is specially interesting for laboratory test rigs highly used for the dynamic characterisation of resilient elements which are required to operate efficiently, since it can be used for minimising test times and providing quality assurance. Moreover, the application of this methodology would be specially relevant when characterisation is done in noisy environments.
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Shirani, Shahram, and Ali Jerbi. "Application of nonlinear pre- and post-processing in low bit rate, error resilient image communication." Signal Processing: Image Communication 18, no. 9 (October 2003): 823–35. http://dx.doi.org/10.1016/j.image.2003.06.002.

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Dissertations / Theses on the topic "Error-resilient application"

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Jung, Kyunghun. "Error resilient video coding for wireless applications." Diss., Available online, Georgia Institute of Technology, 2004:, 2003. http://etd.gatech.edu/theses/available/etd-04062004-164648/unrestricted/jung%5Fkyunghun%5F200312%5Fphd.pdf.

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Abdurrhman, Ahmed B. M. "Error resilient video communications using high level M-QAM : modelling and simulation of a comparative analysis of a dual-priority M-QAM transmission system for H.264/AVC video applications over band-limited and error-phone channels." Thesis, University of Bradford, 2010. http://hdl.handle.net/10454/4913.

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An experimental investigation of an M level (M = 16, 64 and 256) Quadrature Amplitude Modulation (QAM) transmission system suitable for video transmission is presented. The communication system is based on layered video coding and unequal error protection to make the video bitstream robust to channel errors. An implementation is described in which H.264 video is protected unequally by partitioning the compressed data into two layers of different visual importance. The partition scheme is based on a separation of the group of pictures (GoP) in the intra-coded frame (I-frame) and predictive coded frame (P frame). This partition scheme is then applied to split the H.264-coded video bitstream and is suitable for Constant Bit Rate (CBR) transmission. Unequal error protection is based on uniform and non-uniform M-QAM constellations in conjunction with different scenarios of splitting the transmitted symbol for protection of the more important information of the video data; different constellation arrangements are proposed and evaluated to increase the capacity of the high priority layer. The performance of the transmission system is evaluated under Additive White Gaussian Noise (AWGN) and Rayleigh fading conditions. Simulation results showed that in noisy channels the decoded video can be improved by assigning a larger portion of the video data to the enhancement layer in conjunction with non-uniform constellation arrangements; in better channel conditions the quality of the received video can be improved by assigning more bits in the high priority channel and using uniform constellations. The aforementioned varying conditions can make the video transmission more successful over error-prone channels. Further techniques were developed to combat various channel impairments by considering channel coding methods suitable for layered video coding applications. It is shown that a combination of non-uniform M-QAM and forward error correction (FEC) will yield a better performance. Additionally, antenna diversity techniques are examined and introduced to the transmission system that can offer a significant improvement in the quality of service of mobile video communication systems in environments that can be modelled by a Rayleigh fading channel.
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Khire, Sourabh Mohan. "Enhancing H.26x coding for visual communications - with applications in telemedicine and television." Diss., Georgia Institute of Technology, 2013. http://hdl.handle.net/1853/47577.

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In a wireless and mobile communication paradigm, distribution and sharing of video content often occurs over unfriendly network environments constrained by lack of sufficient bandwidth, and prone to jitter, delay and packet losses. The research presented in this thesis proposed an assortment of application-specific optimizations designed to enable high-quality video communication over bandwidth constrained and unreliable channels. This assortment of solutions, termed herein as the Application Specific Video Coding and Delivery (ASVCD) toolkit, comprises of content and network adaptive approaches such as Region of Interest (ROI) video coding, Multiple Representation Coding (MRC), and Multiple Representation Coding of the Region of Interest (ROI + MRC). Thus, the effectiveness of ROI based video-coding in facilitating diagnostically lossless delivery of surgical videos over very low bandwidth channels was studied in this thesis. Furthermore, to facilitate error resilient video delivery over channels prone to burst losses and signal loss intervals, the MRC scheme was presented in this thesis. Finally, the thesis proposed a scheme for unequal protection of the ROI in the video by using the MRC scheme to effectively enable a distance learning application. To summarize, the ASVCD toolkit contributed in enabling high-quality video communications applications to become seamless and pervasive.
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Chien, Po-Hao, and 簡伯豪. "Soft-Error Resilient SRAM by Error-Correction Code Design and Implementation for Satellite Application." Thesis, 2016. http://ndltd.ncl.edu.tw/handle/94750821450233630904.

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Lee, Yew-San, and 李有山. "Design of An Error Resilient Image Codec for Wireless Transmission Application." Thesis, 2003. http://ndltd.ncl.edu.tw/handle/48167203257043340485.

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博士
國立交通大學
電子工程系
91
With the increasing demand for supporting wireless multimedia services, there has been significant interest in the deployment of error resilient image coding. Many researches have been invested to improving the quality of image/video transmission through noisy channels. In this dissertation, we are involved in developing error resilient bit plane image coding (BP-ERIC) for DCT-based image compression. It exhibits high error tolerance, low redundancies, and low complexity. Because of bit plane coding nature, BP-ERIC provides scalable image compression feature. For bit-plane progressive transmission, bit-plane-wise unequal error protection can be easily integrated. Furthermore, a fixed bit-plane error detectable image coding (FBP-EDIC) is proposed for high image quality retrieving applications. It provides high accurate erroneous image blocks detection capability by simple operations. Besides, a simple and efficient image post-processing error concealment scheme is exploited. It tries to retain low frequency data and remove suspicious erroneous information. Because of low complexity and short latency properties, it is very suitable for real time applications. Finally, a low-power bit-plane image codec system is designed and implemented for portable multimedia applications where low power consumption is the main design constraint. It exploits efficient parallelism and pipelining architectures to optimize power dissipation. Hierarchical memory organization is also employed to minimize memory power. A predictive data-driven operation scheme is applied to minimize unnecessary switching power. The codec system exhibits both low cost and low power consumption features. These performances can meet various portable multimedia system requirements.
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Fan-Jiang, Shu-Jhen, and 范姜淑貞. "Applications of Data Embedding on Scalable Video Coding: Cross-Layer Error Resilient Mechanism & Hidden Multi-View Video." Thesis, 2009. http://ndltd.ncl.edu.tw/handle/59684765351594622073.

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碩士
國立東華大學
資訊工程學系
97
SVC provides temporal, spatial, SNR/quality/fidelity scalabilities, and a combined scalability that is a combination of the previous three modalities. Due to the inter-layer prediction in SVC, error propagation not only appears in the following frames but also the frames of different layers when errors occurring in the lower layers. For this reason, it is an essential problem for recovering the base layer and reducing the distortion of inter-layer prediction. This paper proposed a cross-layer error resilient mechanism by using a reversible data embedding technique, which hides the essential information for information recovery and correction. Experimental results show that the proposed method can provide better video quality. This paper proposed another application: hidden multi-view video which embedded difference viewpoint video in another viewpoint video. Experimental results show that the proposed technique could extract the embedded viewpoint video successfully without influence the embedded original video which achieve single data stream with multi-view video.
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Books on the topic "Error-resilient application"

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Coelho, Alessandra Martins. Multimedia Networking and Coding: State-of-the Art Motion Estimation in the Context of 3D TV. Cyprus: INTECH, 2013.

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Book chapters on the topic "Error-resilient application"

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Thakur, Garima, Shruti Jain, and Harsh Sohal. "Approximate Arithmetic Circuit for Error-Resilient Application." In Mobile Radio Communications and 5G Networks, 647–56. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-7982-8_54.

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Weis, Christian, Christina Gimmler-Dumont, Matthias Jung, and Norbert Wehn. "Design of Efficient, Dependable SoCs Based on a Cross-Layer-Reliability Approach with Emphasis on Wireless Communication as Application and DRAM Memories." In Dependable Embedded Systems, 435–55. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-52017-5_18.

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AbstractMany applications show an inherent error resilience due to their probabilistic behavior. This inherent error resilience can be exploited to reduce the design margin for advanced technology nodes resulting in more energy and area efficient implementation. We present in this chapter a cross-layer approach for efficient reliability management in wireless baseband processing with special emphasis on memories since memories are most susceptible to dependability problems. A multiple-antenna (MIMO) system will be used as design example. Further on we focus on DRAMs (Dynamic Random Access Memories). All today’s computing systems rely on dependable DRAMs. In the future DRAM memories will become more undependable due to further scaling. This has to be counterbalanced with higher refresh rates, which leads to a higher DRAM power consumption. Recent research activities resulted in the concept of “approximate DRAM” to save power and improve performance by lowering the refresh rate or disabling refresh completely. Here, we present a holistic simulation environment for investigations on approximate DRAM and show the impact on error-resilient applications.
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Muthulakshmi, S., Chandra Sekhar Dash, and S. R. S. Prabaharan. "Memristor-Based Approximate Adders for Error Resilient Applications." In Nanoelectronic Materials and Devices, 51–59. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-7191-1_6.

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Yoo, Kook-yeol. "New Packetization Method for Error Resilient Video Communications." In Computational Science and Its Applications – ICCSA 2004, 329–37. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-24768-5_35.

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Liu, Da, Li Wang, Long Xu, Zhiyun Yang, and Jun Zhang. "Error Resilient Dual Frame Motion Compensation with Uneven Quality Protection." In Computer Science and its Applications, 287–92. Berlin, Heidelberg: Springer Berlin Heidelberg, 2015. http://dx.doi.org/10.1007/978-3-662-45402-2_43.

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Brandi, Fernanda, and Eckehard Steinbach. "Receiver-Based Hybrid Sample Prediction for Error-Resilient Haptic Communication." In Haptics: Neuroscience, Devices, Modeling, and Applications, 206–14. Berlin, Heidelberg: Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-662-44196-1_26.

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Joshi, V., and P. Mane. "Energy-Efficient Approximate Arithmetic Circuit Design for Error Resilient Applications." In Proceedings of the International Conference on Paradigms of Computing, Communication and Data Sciences, 559–72. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-8742-7_45.

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Dashti, Hossein, and Pavlo A. Krokhmal. "A Model for Optimal Reinforcement of Error- and Attack-Resilient Clusters in Networks Under Uncertainty." In Optimization Methods and Applications, 97–117. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-68640-0_6.

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De Florio, Vincenzo. "Fault-Tolerant Protocols Using Compilers and Translators." In Application-Layer Fault-Tolerance Protocols, 133–60. IGI Global, 2009. http://dx.doi.org/10.4018/978-1-60566-182-7.ch004.

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In this chapter our survey of methods and structures for application-level fault-tolerance continues, getting closer to the programming language: Indeed, tools such as compilers and translators work at the level of the language—they parse, interpret, compile or transform our programs, so they are interesting candidates for managing dependability aspects in the application layer. An important property of this family of methods is the fact that fault-tolerance complexity is extracted from the program and turned into architectural complexity in the compiler or the translator. Apart from continuing with our survey, this chapter also aims at providing the reader with two practical examples: • Reflective and refractive variables, that is, a syntactical structure to express adaptive feedback loops in the application layer. This is useful to resilient computing because a feedback loop can attach error recovery strategies to error detection events. • Redundant variables, that is, a tool that allows designers to make use of adaptively redundant data structures with commodity programming languages such as C or Java. Designers using such tools can define redundant data structures in which the degree of redundancy is not fixed once and for all at design time, but rather it changes dynamically with respect to the disturbances experienced during the run time. Both tools are new research activities that are currently being carried out by the author of this book at the PATS research group of the University of Antwerp. It is shown how through a simple translation approach it is possible to provide sophisticated features such as adaptive fault-tolerance to programs written in any language, even plain old C.
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Lachman, Peter, John Brennan, John Fitzsimons, Anita Jayadev, and Jane Runnacles. "Resilience theory, complexity science, and Safety-II." In Oxford Professional Practice: Handbook of Patient Safety, edited by Peter Lachman, John Brennan, John Fitzsimons, Anita Jayadev, and Jane Runnacles, 101–10. Oxford University Press, 2022. http://dx.doi.org/10.1093/med/9780192846877.003.0011.

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Resilience is a central part of a safe system. Safety in healthcare initially relied on linear assumptions and solutions such as restructuring processes to minimize human error, constraining behaviours, or standardizing procedures. But healthcare is a complex, adaptive system. The theory of resilience engineering suggests that humans, with their ability to adapt their behaviour to changing conditions, are an important resource for maintaining safety in the system. The application of resilience ideas to healthcare involves the disjuncture between work-as-imagined and work-as-done; also Safety-II, which is an approach focusing on how and why things go right, rather than exclusively the occasions where things go wrong (Safety-I). Two methods for examining resilience in healthcare—the resilient assessment grid and the functional resonance analysis method—are considered. Ultimately resilience engineering is an approach to safety management in a complex system, and that Safety-I and Safety-II are distinct yet complementary aspects of it.
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Conference papers on the topic "Error-resilient application"

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Yan, Luming, Huaguo Liang, and Zhengfeng Huang. "A Dynamic Self-Adaptive Correction Method for Error Resilient Application." In Design Automation and Test in Europe. New Jersey: IEEE Conference Publications, 2013. http://dx.doi.org/10.7873/date.2013.198.

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Xinchen, Zhang, and Huang Mei. "A Novel Robust Video Transmission Scheme for Error Resilient Transcoding." In 2009 Third International Symposium on Intelligent Information Technology Application. IEEE, 2009. http://dx.doi.org/10.1109/iita.2009.92.

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Sun, Xiaoming, and C. C. Jay Kuo. "MPEG-4/XML File Compression and Its Application to Error Resilient Coding." In ITCom 2002: The Convergence of Information Technologies and Communications, edited by Andrew G. Tescher, Bhaskaran Vasudev, V. Michael Bove, Jr., and Ajay Divakaran. SPIE, 2002. http://dx.doi.org/10.1117/12.456388.

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Tun, M., J. Loo, and J. Cosmas. "Preliminary results on the application of error-resilient scheme on Dirac video codec." In 3rd European Conference on Visual Media Production (CVMP 2006). Part of the 2nd Multimedia Conference 2006. IEE, 2006. http://dx.doi.org/10.1049/cp:20061971.

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Li, Mao-quan, and Zheng-quan Xu. "An Error Resilient Coding Scheme for Video Transmission Based on Pixel Line Decimation." In 2008 Second International Symposium on Intelligent Information Technology Application (IITA). IEEE, 2008. http://dx.doi.org/10.1109/iita.2008.513.

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Wei, Xiaohui, Hua Yang, and Jill M. Boyce. "Hybrid End-to-End Distortion Estimation and its Application in Error Resilient Video Coding." In 2007 IEEE International Conference on Acoustics, Speech, and Signal Processing. IEEE, 2007. http://dx.doi.org/10.1109/icassp.2007.366038.

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Ting, Zhou, Xu Ming, Chen Dong-xia, and Yu Lun. "Constrained Viterbi Algorithm and its Application in Error Resilient Transmission of SPIHT Coded Images." In 2006 First International Conference on Communications and Networking in China. IEEE, 2006. http://dx.doi.org/10.1109/chinacom.2006.344641.

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Lin, David W., YenLin Chen, and Chi-Tien Lee. "Structured design of standard-compatible error-resilient video coding with application to H.263." In Visual Communications and Image Processing 2000, edited by King N. Ngan, Thomas Sikora, and Ming-Ting Sun. SPIE, 2000. http://dx.doi.org/10.1117/12.386549.

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Lamy-Bergot, C., and B. Gadat. "Application control for fast adaptive error resilient H.264/AVC streaming over IP wireless networks." In ICASSP 2011 - 2011 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP). IEEE, 2011. http://dx.doi.org/10.1109/icassp.2011.5946950.

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Lam, T. T., L. J. Karam, K. Tyldesley, and G. P. Abousleman. "An efficient long-term memory motion compensated prediction scheme and application to error-resilient video transmission." In Seventh International Symposium on Signal Processing and Its Applications, 2003. Proceedings. IEEE, 2003. http://dx.doi.org/10.1109/isspa.2003.1224650.

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