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Articles de revues sur le sujet « Critical applications »

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Auteur : Grafiati
Publié le 10 mars 2023

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1

Kazymyr, Volodymyr, Andrii Mokrohuz et Mykola Moshel. « MINIMAL HTTP HEADER FOR TRAFFIC CRITICAL APPLICATIONS ». TECHNICAL SCIENCES AND TECHNOLOG IES, no 2(8) (2017) : 123–28. http://dx.doi.org/10.25140/2411-5363-2017-2(8)-123-128.

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Thackray, Richard, Peter F. Morris et Ken Ridal. « Alloys for critical applications ». Ironmaking & ; Steelmaking 37, no 4 (mai 2010) : 242–50. http://dx.doi.org/10.1179/030192310x12628786049314.

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Padula, Marco, et Giuliana Rubbia Rinaldi. « Mission-critical web applications ». Interactions 6, no 4 (juillet 1999) : 52–66. http://dx.doi.org/10.1145/306412.306435.

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Sharma, Deepak, et Sohan Garg. « A critical study of fuzzy logic systems and its applications ». International Journal of Trend in Scientific Research and Development Volume-1, Issue-1 (31 décembre 2016) : 56–58. http://dx.doi.org/10.31142/ijtsrd105.

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Redmill, Felix. « Computers in safety-critical applications ». Computing & ; Control Engineering Journal 3, no 4 (1992) : 178. http://dx.doi.org/10.1049/cce:19920046.

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Fetzer, Christof. « Building Critical Applications Using Microservices ». IEEE Security & ; Privacy 14, no 6 (novembre 2016) : 86–89. http://dx.doi.org/10.1109/msp.2016.129.

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Nina Santi et Nathalie Mitton. « A resource management survey for mission-critical and time-critical applications in multiaccess edge computing ». ITU Journal on Future and Evolving Technologies 2, no 2 (10 novembre 2021) : 61–80. http://dx.doi.org/10.52953/bqvo3992.

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Multiaccess Edge Computing (MEC) brings additional computing power in proximity of mobile users, reducing latency, saving energy and alleviating the network's bandwidth. This proximity is beneficial, especially for mission-critical applications where each second matters, such as disaster management or military operations. Moreover, it enables MEC resources embedded on mobile units like drones or robots that are flexible to be deployed for mission-critical applications. However, the MEC servers are capacity-limited and thus need an acute management of their resources. The mobile resources also need a smart deployment scheme to deliver their services efficiently. In this survey, we review mission-critical applications, resource allocation and deployment of mobile resources techniques in the context of the MEC. First, we introduce the technical specifics and uses of MEC in mission-critical applications to highlight their needs and requirements. Then, we discuss the resource allocation schemes for MEC and assess their fit depending on the application needs. In the same fashion, we finally review the deployment of MEC mobile resources. We believe this work could serve as a helping hand to design efficient MEC resource management schemes that respond to challenging environments such as mission-critical applications.
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Suryawanshi, Rajesh, Shubham Sutar et Dr Sunita Jadhav. « Emergency Application for Emergency Services in Critical Condition ». International Journal for Research in Applied Science and Engineering Technology 10, no 12 (31 décembre 2022) : 563–64. http://dx.doi.org/10.22214/ijraset.2022.47911.

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Abstract: Emergency calling is fundamental and critical for devices because they must work for Android users while satisfying various carrier and regulatory requirements all over the world. Emergencies can happen anywhere and at any time. The very nature of an emergency is unpredictable and can change in scope and impact. Being prepared and planning ahead is critical to protecting lives, the environment, and property. To overcome problems while facing emergency situations we need a simple and easy application. For this, we create an application that has automatic call and location-sharing services in an emergency situation. This will help us to share the location with our family and nearby hospitals or OPDs and also be useful to the automatic message sending & SOS. For this, we select some famous emergency applications and study them. But some applications are region-based applications And every application has different features. Due to this, it is difficult to use an emergency application in emergency situations. To overcome this problem we develop an application that is not region- based, consists of all features, and is easy to use in any condition.
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Axer, Philip, Jonas Diemer, Mircea Negrean, Maurice Sebastian, Simon Schliecker et Rolf Ernst. « Mastering MPSoCs for Mixed-critical Applications ». IPSJ Transactions on System LSI Design Methodology 4 (2011) : 91–116. http://dx.doi.org/10.2197/ipsjtsldm.4.91.

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Al Dhoayan, Mohammed, Huda Alghamdi et YaseenM Arabi. « Machine learning applications in critical care ». Saudi Critical Care Journal 3, no 1 (2019) : 29. http://dx.doi.org/10.4103/2543-1854.259475.

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Pineda, Jose A., Ira M. Cheifetz, Laurence M. Katz, Michael Grenn et Robert D. Pearlstein. « CRITICAL CARE APPLICATIONS OF INFRARED IMAGING ». Critical Care Medicine 27, Supplement (décembre 1999) : A89. http://dx.doi.org/10.1097/00003246-199912001-00229.

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Taylor, Aubrey E., et Mobil e. « Basic science applications to critical care ». Critical Care Medicine 15, no 8 (août 1987) : 786. http://dx.doi.org/10.1097/00003246-198708000-00017.

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Malara, Jarosław, et Justyna Szafraniec. « Critical evaluation of modern concrete applications ». MATEC Web of Conferences 219 (2018) : 04010. http://dx.doi.org/10.1051/matecconf/201821904010.

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In the article, the modern and innovative applications of concrete mix have been critically analyzed. The authors focused first of all on transparent concrete - LiTraCon. The article mainly analyzed its technical parameters. Another modern way of using the concrete mix, which has been included in the publication, is paving stone absorbed in daylight. This material description is primarily, focused on its serviceability. Another material presented is white concrete, its advantage is the ease of colour choice. The authors also described the possibilities of using properly shaped architectural concrete as well as its unusual use in the form of doors. The entire publication concludes with a summary.
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McManus, I. C. « Medical school applications---a critical situation ». BMJ 325, no 7368 (12 octobre 2002) : 786–87. http://dx.doi.org/10.1136/bmj.325.7368.786.

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Lingfeng Wang et K. C. Tan. « Software testing for safety critical applications ». IEEE Instrumentation & ; Measurement Magazine 8, no 2 (juin 2005) : 38–47. http://dx.doi.org/10.1109/mim.2005.1438843.

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Johnson, David. « Secure Access to Mission-Critical Applications ». Information Systems Security 8, no 1 (mars 1999) : 54–63. http://dx.doi.org/10.1201/1086/43304.8.1.19990301/31054.10.

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Tobias, Joseph D. « Sugammadex : Applications in Pediatric Critical Care ». Journal of Pediatric Intensive Care 09, no 03 (6 mars 2020) : 162–71. http://dx.doi.org/10.1055/s-0040-1705133.

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AbstractSugammadex is a novel pharmacologic agent, which reverses neuromuscular blockade with a mechanism that differs from acetylcholinesterase inhibitors such as neostigmine. There is a growing body of literature demonstrating its efficacy in pediatric patients of all ages. Prospective trials have demonstrated a more rapid and more complete reversal of rocuronium-induced neuromuscular blockade than the acetylcholinesterase inhibitor, neostigmine. Unlike the acetylcholinesterase inhibitors, sugammadex effectively reverses intense or complete neuromuscular blockade. It may also be effective in situations where reversal of neuromuscular blockade is problematic including patients with neuromyopathic conditions or when acetylcholinesterase inhibitors are contraindicated. This article reviews the physiology of neuromuscular transmission as well as the published literature, regarding the use of sugammadex in pediatric population including the pediatric intensive care unit population. Clinical applications are reviewed, adverse effects are discussed, and dosing algorithms are presented.
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Hoppmann, Richard, et Dimitrios Karakitsos. « Ultrasound Applications in Critical Care Medicine ». Critical Care Research and Practice 2012 (2012) : 1–3. http://dx.doi.org/10.1155/2012/382615.

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Degiovanni, Marco. « Nonsmooth critical point theory and applications ». Nonlinear Analysis : Theory, Methods & ; Applications 30, no 1 (décembre 1997) : 89–99. http://dx.doi.org/10.1016/s0362-546x(97)00259-9.

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Girault, Alain, Érik Saule et Denis Trystram. « Reliability versus performance for critical applications ». Journal of Parallel and Distributed Computing 69, no 3 (mars 2009) : 326–36. http://dx.doi.org/10.1016/j.jpdc.2008.11.002.

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Northcutt, J. Duane, et Eugene M. Kuerner. « System support for time-critical applications ». Computer Communications 16, no 10 (octobre 1993) : 619–36. http://dx.doi.org/10.1016/0140-3664(93)90079-8.

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Atchison, Chris. « Critical criminological applications of computer technology ». Critical Criminology 8, no 2 (septembre 1997) : 119–20. http://dx.doi.org/10.1007/bf02461161.

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Bertrand, Christophe. « Business continuity and mission critical applications ». Network Security 2005, no 8 (août 2005) : 9–11. http://dx.doi.org/10.1016/s1353-4858(05)70269-5.

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Zeleski, Carissa. « Critical Psychiatry : Controversies and Clinical Applications ». American Journal of Psychiatry Residents' Journal 15, no 2 (5 décembre 2019) : 13. http://dx.doi.org/10.1176/appi.ajp-rj.2019.150206.

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Rogers, James S. « Language choice for safety critical applications ». ACM SIGAda Ada Letters 31, no 3 (15 novembre 2011) : 81–90. http://dx.doi.org/10.1145/2070336.2070363.

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Woodcock, J. C. P. « Using Circus for Safety-critical Applications ». Electronic Notes in Theoretical Computer Science 95 (mai 2004) : 3–22. http://dx.doi.org/10.1016/j.entcs.2004.04.003.

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27

Perera, Kanishka. « Critical groups of critical points produced by local linking with applications ». Abstract and Applied Analysis 3, no 3-4 (1998) : 437–46. http://dx.doi.org/10.1155/s1085337598000657.

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Tariq, Syeda, Hafiz Ali et Muhammad Akram. « Thermal applications of hybrid phase change materials : A critical review ». Thermal Science 24, no 3 Part B (2020) : 2151–69. http://dx.doi.org/10.2298/tsci190302112t.

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Phase change materials (PCM) with their high latent heat capacity have a great ability to store energy during their phase change process. The PCM are renowned for their applications in solar and thermal energy storage systems for the purpose of heating and cooling. However, one of the major drawbacks of PCM is their low thermal conductivity due to which their charging and discharging time reduces along with the reduction in energy storage capacity. This reduction in the energy storage capacity of PCM can be improved by producing organic-inorganic hybrid form-stable PCM, with the combination of two or more PCM together to increase their energy storage capacity. Nanoparticles that possess high thermal conductivity are also doped with these hybrid PCM (HPCM)to improve the effectiveness of thermal conductivity. This paper presents a short review on the applications of HPCM in energy storage and building application. Apart from this a short section of applications of composite PCM (CPCM) is also reviewed with discussions made at the end of each section. Results from the past literature depicted that the application of these HPCM and CPCM enhanced the energy storage capacity and thermal conductivity of the base PCM and selection of a proper hybrid material plays an essential role in their stability. It is presumed that this study will provide a sagacity, to the readers, to investigate their thermophysical properties and other essential applications.
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Drozd, O. V., P. V. Vysochyna, V. Y. Dombrovskyi, K. V. Smishchuk et O. O. Shalak. « SIMULATION OF MULTIPLIER OPERATION IN CRITICAL APPLICATIONS ». Systems and Technologies 2(58) (2019) : 115–25. http://dx.doi.org/10.32836/2521-6643-2019-2-58-7.

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Huang, Wei, Da-Wei Liu et Xiao-Ting Wang. « Applications of critical ultrasonography in hemodynamic therapy ». Chinese Medical Journal 134, no 11 (15 février 2021) : 1286–88. http://dx.doi.org/10.1097/cm9.0000000000001391.

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Deeptha, R., et Rajeswari Mukesh. « Extending OpenID Connect Towards Mission Critical Applications ». Cybernetics and Information Technologies 18, no 3 (1 septembre 2018) : 93–110. http://dx.doi.org/10.2478/cait-2018-0041.

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Abstract Single Sign-On (SSO) decreases the complexity and eases the burden of managing many accounts with a single authentication mechanism. Mission critical application such as banking demands highly trusted identity provider to authenticate its users. The existing SSO protocol such as OpenID Connect protocol provides secure SSO but it is applicable only in the consumer-to-social-network scenarios. Owing to stringent security requirements, the SSO for banking service necessitates a highly trusted identity provider and a secured private channel for user access. The banking system depends on a dedicated central banking authority which controls the monetary policy and it must assume the role of the identity provider. This paper proposes an extension of OpenID Connect protocol that establishes a central identity provider for bank users, which facilitates the users to access different accounts using single login information. The proposed Enhanced OpenID Connect (EOIDC) modifies the authorization code flow of OpenID Connect to build a secure channel from a single trusted identity provider that supports multiple banking services. Moreover, the EOIDC tightens the security mechanism with the help of SAT to avoid impersonation attack using replay and redirect. The formal security analysis and validation demonstrate the strength of the EOIDC against possible attacks such as impersonation, eavesdropping, and a brute force login. The experimental results reveal that the proposed EOIDC system is efficient in providing secured SSO protocol for banking services.
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Khan, Aimal, Assad Abbas, Hasan Ali Khattak, Faisal Rehman, Ikram Ud Din et Sikandar Ali. « Effective Task Scheduling in Critical Fog Applications ». Scientific Programming 2022 (31 mars 2022) : 1–15. http://dx.doi.org/10.1155/2022/9208066.

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Information and technology have witnessed significant improvement with the introduction of Internet of things (IoT) applications, and most of the IoT applications are dependent on the cloud. Cloud computing is assisting IoT applications by providing storage, analysis, and processing services on the cloud. However, Fog computing is the new paradigm that supports the cloud by providing scheduling, resources optimization, and energy optimization services. Scheduling tasks based on MIPs size and prioritizing the tasks with smaller MIPs size first make critical tasks with larger MIPs wait, which ultimately increases the delay and may result in some serious problems. This paper proposes a methodology for critical tasks having large MIPs size by scheduling and prioritizing the tasks based on the nature of the task. The proposed methodology for latency-critical applications reduces latency, energy consumption, and network utilization. This paper proposed a scheduler “Critical task First Scheduler” (CTFS), which schedules tasks depending on the nature of the requests, which are classified as either critical or noncritical. The proposed methodology is implemented in a healthcare scenario, and the simulations are performed in iFogSim simulator. Critical requests, such as emergency notifications, are prioritized and designated as critical, requiring immediate processing. The environment was kept the same for all the approaches that are implemented to demonstrate the effectiveness of the proposed approach. The results of the proposed approach were compared with First Come First Served (FCFS), Shortest Job First (SJF), and cloud-only approaches to demonstrate the effectiveness of the proposed approach in terms of latency, energy consumption, and network utilization. Simulation results show that the proposed CTFS approach outperformed the compared techniques for all three comparison parameters.
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Pipponzi, Mauro, et Alberto Sangiovanni-Vincentelli. « Test for Reliability for Mission Critical Applications ». Electronics 10, no 16 (17 août 2021) : 1985. http://dx.doi.org/10.3390/electronics10161985.

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Test for Reliability is a test flow where an Integrated Circuit (IC) device is continuously stressed under several corner conditions that can be dynamically adapted based on the real-time observation of the critical signals of the device during the evolution of the test. We present our approach for a successful Test-for-Reliability flow, going beyond the objectives of the traditional reliability approach, and covering the entire process from design to failure analysis.
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Dey, Aishee, Proma Bhattacharya et Sudarsan Neogi. « Bioadhesives in Biomedical Applications : A Critical Review ». Reviews of Adhesion and Adhesives 8, no 2 (30 juin 2020) : 130–52. http://dx.doi.org/10.7569/raa.2020.097308.

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The necessity for a long time contact between the drug and mucus layer/epithelial cell or a combination of the two requires a bioadhesive. A bioadhesive is known to intensify contact between the two and help in controlled release of drugs. The conventionally used bioadhesives are known to have poor adhesion strength and can have toxic side effects. This review focuses on the various types of polymers and their composites for use as bioadhesives which can overcome the previously mentioned issues. These include some naturally occurring bioadhesives such as collagen, chitosan, albumin, dextran and some synthetic bioadhesives like gelatin, poly(ethylene glycol), poly(acrylic acid), poly(lactic-co-glycolic acid) based bioadhesives. The clinical trials prove the effectiveness of these bioadhesives and they are found to be more efficient than the commercial glues and hence possess great potential for use in the biomedical industry.
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Slijepcevic, Mladen, Carles Hernandez, Jaume Abella et Francisco J. Cazorla. « Time-Randomized Wormhole NoCs for Critical Applications ». ACM Journal on Emerging Technologies in Computing Systems 15, no 1 (18 février 2019) : 1–23. http://dx.doi.org/10.1145/3281029.

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Dunham, Janet R. « Experiments in software reliability : Life-critical applications ». IEEE Transactions on Software Engineering SE-12, no 1 (janvier 1986) : 110–23. http://dx.doi.org/10.1109/tse.1986.6312925.

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Naz, Riffat, et M. N. A. Khan. « Rapid Applications Development Techniques : A Critical Review ». International Journal of Software Engineering and Its Applications 9, no 11 (30 novembre 2015) : 163–76. http://dx.doi.org/10.14257/ijseia.2015.9.11.15.

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Clochesy, John M., et Richard A. Henker. « Selecting Computer Software Applications in Critical Care ». Dimensions of Critical Care Nursing 5, no 3 (mai 1986) : 171–77. http://dx.doi.org/10.1097/00003465-198605000-00007.

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Puerta, Julián Esteban Quintana. « Applications of perioperative and critical care ultrasound☆ ». Colombian Journal of Anesthesiology 42, no 2 (2014) : 114–16. http://dx.doi.org/10.1097/01819236-201442020-00007.

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Wilson, George P. « Building Isolation Design for Noise Critical Applications ». Journal of the Acoustical Society of America 123, no 5 (mai 2008) : 3268. http://dx.doi.org/10.1121/1.2933593.

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Schoeberl, Martin, Luca Pezzarossa et Jens Sparso. « A Multicore Processor for Time-Critical Applications ». IEEE Design & ; Test 35, no 2 (avril 2018) : 38–47. http://dx.doi.org/10.1109/mdat.2018.2791809.

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Joglekar, A. P., H. h. Liu, E. Meyhofer, G. Mourou et A. J. Hunt. « Optics at critical intensity : Applications to nanomorphing ». Proceedings of the National Academy of Sciences 101, no 16 (7 avril 2004) : 5856–61. http://dx.doi.org/10.1073/pnas.0307470101.

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Lapassat, Anne-Marie. « Safety of Numerical Systems in Critical Applications ». IFAC Proceedings Volumes 31, no 15 (juin 1998) : 1047–51. http://dx.doi.org/10.1016/s1474-6670(17)40690-2.

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Halang, Wolfgang A., Marek Śnieżek et Matjaž Colnarič. « Computerised controllers for safety critical medical applications ». International Journal of Medical Informatics 49, no 2 (avril 1998) : 139–55. http://dx.doi.org/10.1016/s1386-5056(98)00037-9.

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Quintana Puerta, Julián Esteban. « Applications of perioperative and critical care ultrasound ». Colombian Journal of Anesthesiology 42, no 2 (avril 2014) : 114–16. http://dx.doi.org/10.1016/j.rcae.2014.02.001.

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Harvey, Allan H. « Applications of Near-Critical Dilute-Solution Thermodynamics ». Industrial & ; Engineering Chemistry Research 37, no 8 (août 1998) : 3080–88. http://dx.doi.org/10.1021/ie970800r.

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Raju, Tonse N. K. « Cranial Doppler Applications in Neonatal Critical Care ». Critical Care Clinics 8, no 1 (janvier 1992) : 93–111. http://dx.doi.org/10.1016/s0749-0704(18)30269-0.

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Livshits, A. I., M. E. Notkin, V. I. Pistunovich, M. Bacal et A. O. Busnyuk. « Superpermeability : Critical points for applications in fusion ». Journal of Nuclear Materials 220-222 (avril 1995) : 259–63. http://dx.doi.org/10.1016/0022-3115(94)00424-2.

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Huang, Yunhui, Arumugam Manthiram et B. V. R. Chowdari. « Solid-state ionic materials for critical applications ». Journal of Materiomics 5, no 2 (juin 2019) : 147–48. http://dx.doi.org/10.1016/j.jmat.2019.05.003.

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Nicholl, Enda. « Motor Position Sensor for Safety Critical Applications ». ATZelectronics worldwide 14, no 12 (décembre 2019) : 90–96. http://dx.doi.org/10.1007/s38314-019-0139-9.

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