Bibliographies thématiques / Radiofrequency interference

Littérature scientifique sur le sujet « Radiofrequency interference »

Auteur : Grafiati
Publié le 14 mars 2023

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Consultez les listes thématiques d’articles de revues, de livres, de thèses, de rapports de conférences et d’autres sources académiques sur le sujet « Radiofrequency interference ».

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Articles de revues sur le sujet "Radiofrequency interference"

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Follett, D. H. « Electromagnetic radiofrequency interference with Doppler equipment ». Physics in Medicine and Biology 36, no 11 (1 novembre 1991) : 1443–55. http://dx.doi.org/10.1088/0031-9155/36/11/004.

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Badizadegan, Nima D., Sarah Greenberg, Heather Lawrence et Kamran Badizadegan. « Radiofrequency Interference in the Clinical Laboratory ». American Journal of Clinical Pathology 151, no 5 (21 janvier 2019) : 522–28. http://dx.doi.org/10.1093/ajcp/aqy174.

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Sadykov, E. K., V. V. Arinin, F. G. Vagizov et O. A. Kocharovskaya. « Radiofrequency stimulated quantum interference on Mössbauer transitions ». Laser Physics 17, no 5 (mai 2007) : 727–33. http://dx.doi.org/10.1134/s1054660x07050209.

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Rohalin, Serhii. « METHODS OF IMPLEMENTATION OF EXPERT STUDIES OF ELECTRICITY MEASURING DEVICES EXPOSED TO THE IMPACT OF RADIO-FREQUENCY ELECTROMAGNETIC RADIATION ». Criminalistics and Forensics, no 67 (9 août 2022) : 493–507. http://dx.doi.org/10.33994/kndise.2022.67.50.

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Investigation of the influence of electromagnetic radiation on the operation of electronic metering devices for electricity is one of the demanded areas of forensic electrical engineering expertise. However, the scientific and practical study of this area of forensic research does not coincide with modern requirements. The study of the influence of electromagnetic radiation of the radio frequency range on the operation of electronic metering devices for electricity, as well as the identification of such radiation as accidental or intentionally created for the purpose of unaccounted consumption of electricity, are relevant. The article systematizes the requirements established by regulatory documents for the stability of the operation of metering devices for electricity when exposed to radiofrequency electromagnetic radiation. The mechanism of the influence of radiofrequency electromagnetic radiation on electric energy metering devices and the constructive elements of metering devices sensitive to the effects of such radiation is determined. A list of the necessary initial data for conducting forensic examinations on the determination of the impact of radiofrequency electromagnetic radiation on the investigated metering device and the tasks of identifying radiofrequency radiation devices as an effect is indicated. Conditions are determined under which the conclusion about interference in the operation of the metering device for the purpose of unaccounted electricity consumption may be categorical. Recommendations have been developed to determine the source of radiofrequency radiation as probable in cases where the source is not provided for instrumental research in expert proceedings to study the interference in the operation of the metering device. A methodology has been developed for conducting forensic examinations on the issues of determining the existence of the impact of radiofrequency electromagnetic radiation on the investigated metering device for the purpose of unaccounted consumption of electrical energy and the tasks of identifying radiofrequency radiation devices as sources of influence. The developed methodology is recommended for use in forensic practice according to the stages of the study, together with the provisions and generalizations set out in the article. Key words: electric energy metering device, interference in the operation of the metering device, electromagnetic radiation, radiation frequency, electric field, electric field strength, electromagnetic field, Umov-Poynting vector, radiation power, classes of electromagnetic environment.
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Carlone, M., B. Burke, M. Lamey, S. Rathee et B. Fallone. « SU-GG-J-161 : Radiofrequency Interference Between a Linac and MRI ». Medical Physics 35, no 6Part8 (juin 2008) : 2716. http://dx.doi.org/10.1118/1.2961710.

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Shetty, Anil N. « Suppression of radiofrequency interference in cardiac gated MRI : A simple design ». Magnetic Resonance in Medicine 8, no 1 (septembre 1988) : 84–88. http://dx.doi.org/10.1002/mrm.1910080110.

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Barnett, Gene H., Allan H. Ropper et Keith A. Johnson. « Physiological support and monitoring of critically ill patients during magnetic resonance imaging ». Journal of Neurosurgery 68, no 2 (février 1988) : 246–50. http://dx.doi.org/10.3171/jns.1988.68.2.0246.

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✓ Magnetic resonance (MR) imaging has been largely restricted to patients who are neurologically and hemodynamically stable. The strong magnetic field and radiofrequency transmissions involved in acquiring images are potential sources of interference with monitoring equipment. A method of support and physiological monitoring of critically ill neurosurgical and neurological patients during MR imaging using a 0.6-tesla MR system is reported. This technique has not caused degradation of the MR image due to electrical interference. Adequate preparation and precautions allow many critically ill neurosurgical and neurological patients to safely undergo MR imaging.
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Klein, M. J., S. Gulkis, E. T. Olsen, E. F. Armstrong et E. B. Jackson. « An assessment of the impact of radiofrequency interference on microwave SETI searches ». Acta Astronautica 26, no 3-4 (mars 1992) : 227–32. http://dx.doi.org/10.1016/0094-5765(92)90102-o.

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Chung, Soon Cheol, Jeong Han Yi, Gye Rae Tack, Bong Soo Lee, Ji Hun Kwon, Sin Kim et Jin Hun Sohn. « Development of an MR-Compatible ECG Amplifier ». Key Engineering Materials 321-323 (octobre 2006) : 1032–35. http://dx.doi.org/10.4028/www.scientific.net/kem.321-323.1032.

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The purpose of the present study is to develop a magnetic resonance (MR)-compatible electrocardiogram (ECG) amplifier. If ECG signals are measured simultaneously with the acquisition of MR images, there can be a mutual interference effect. The present system was designed to block noises caused by the main magnetic field, gradient magnetic field and radiofrequency (RF) pulse when MR images are acquired. It uses analogue elements in order to remove any possible effect on MR images. In addition, a radio-frequency-interference (RFI)-free optical data link using the pulse-width modulation (PWM) technique is adopted in order to transmit ECG signals measured inside the MR room.
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Barbieri, Massimo, et Martina Bellini. « Radiofrequency neurotomy for the treatment of chronic pain : interference with implantable medical devices ». Anestezjologia Intensywna Terapia 46, no 3 (31 juillet 2014) : 162–65. http://dx.doi.org/10.5603/ait.2014.0029.

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Thèses sur le sujet "Radiofrequency interference"

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Oudji, Salma. « Analyse de la robustesse et des améliorations potentielles du protocole RadioFréquences Sub-GHz KNX utilisé pour l’IoT domotique ». Thesis, Limoges, 2016. http://www.theses.fr/2016LIMO0121/document.

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Cette thèse aborde la performance du protocole KNX-RF utilisé dans les applications domotiques en termes de robustesse Radio Fréquences dans un environnement multi-protocoles potentiellement sujet aux interférences. Dans ces travaux, le but est d’évaluer les problématiques d’interférences rencontrées par KNX-RF en utilisant des modèles de simulation qui permettraient d’augmenter à sa fiabilité radio. Ainsi, un premier modèle a été développé sur MATLAB/Simulink et a permis de connaître les performances et les limitations de ce protocole au niveau de la couche physique dans un scénario d’interférence se produisant à l’intérieur d’une box/gateway domotique multi-protocoles. Ces simulations ont été complétées par des essais expérimentaux sur le terrain qui ont permis de vérifier les résultats obtenus. Un deuxième modèle a été développé pour évaluer les mécanismes de la couche MAC, cette fois-ci, grâce au simulateur OMNet++/MiXiM. Ce modèle reprend tous les mécanismes d’accès au canal et d’agilité en fréquence spécifiés par la norme KNX. Un scénario de collisions de trames a été simulé et plusieurs propositions d’améliorations sont discutées dans ce manuscrit. Les modèles développés permettent d’analyser et de prédire en avance de phase le comportement de KNX-RF dans un environnement radio contraignant
This thesis addresses the performance of the KNX-RF protocol used for home automation applications in terms of radiofrequency robustness in a multi-protocol environment that is potentially subject to interferences. In this work, the aim is to assess the interference problems encountered by KNX-RF using simulation models that would increase its RF reliability. Thus, a first model was developed on MATLAB / Simulink and allowed to investigate the performance and limitations of this protocol at its physical layer in an interference scenario occurring inside a multiprotocol home and building automation box/gateway. These simulations were followed by field experimental tests in an indoor environment (house) to verify the results. A second model was developed to evaluate the MAC layer mechanisms of KNX-RF through the discrete event simulator OMNeT ++/Mixim. This model includes all the mechanisms of channel access and frequency agility specified by KNX-RF standard. A frame collision scenario was simulated and several improvement proposals are discussed in this manuscript. The developed models can be used to analyze and predict in advance phase the behavior of KNX-RF in a radio-constrained environment
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Millot, Anthony. « Etude d'un réseau de capteurs environnementaux en bande ISM ». Phd thesis, Université d'Orléans, 2010. http://tel.archives-ouvertes.fr/tel-00573695.

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Cette thèse présente l'étude d'un réseau de capteurs pour la surveillance en temps réel de la qualité des eaux souterraines. L'objectif est de réussir à communiquer dans la bande de fréquences libre à 433MHz sur plusieurs dizaines de kilomètres. Le problème majeur des bandes libres est la présence de transmissions parasites (brouilleurs). Nous avons donc, en premier lieu, mis en évidence de la présence de ces brouilleurs et étudier leur impact sur les communications. Après analyse, il s'avère que les brouilleurs sont très nombreux et puissants mais que leur répartition dans la bande est inégale. Une étude spectrale de la bande semble nécessaire, avant la mise en place du réseau, afin de transmettre dans les canaux les moins pollués. Des communications nocturnes sont également à privilégier car les brouilleurs sont moins nombreux la nuit. Nous présentons ensuite une architecture réseau, adaptée au cahier des charges et à cette bande de fréquences. Nous avons également testé un composant RF dédié aux transmissions en bande ISM. Les résultats montrent que les performances de ce composant sont faibles pour des communications longues distances en présence de brouilleurs. Un récepteur radiofréquence simple ne permet donc pas de réaliser des communications fiables dans ces conditions. Le prototype complet du réseau, développé durant ces travaux, est ensuite décrit. Pour finir, nous proposons un nouveau concept de récepteur, utilisant un réseau d'antennes phasé et un détecteur cyclostationnaire, pour pallier au problème des brouilleurs. Le but est de stocker les signaux reçus pour les traiter en temps différé à l'aide d'algorithmes de filtrage spatial. Des simulations montrent l'efficacité de ce concept.
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Livres sur le sujet "Radiofrequency interference"

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Roger, Dalke, et United States. National Telecommunications and Information Administration., dir. Spectrum measurements for an RF-driven lighting device. [Washington, DC] : U.S. Dept. of Commerce, National Telecommunications and Information Administration, 1999.

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Radio Frequency Interference (RFI) Pocket Guide. SciTech Publishing, Incorporated, 2015.

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Gruber, Michael, et Kenneth Wyatt. Radio Frequency Interference (RFI) Pocket Guide. SciTech Publishing, Incorporated, 2015.

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Spectrum measurements for an RF-driven lighting device. [Washington, DC] : U.S. Dept. of Commerce, National Telecommunications and Information Administration, 1999.

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Hand, Jeffrey W. Electromagnetic fields. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199655212.003.0023.

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Basic characteristics of electromagnetic fields in the microwave, radiofrequency, and extremely low frequency ranges and their interactions with biological tissues are introduced, and parameters such as polarization and specific absorption rate used for safety assessment are highlighted. Techniques and instrumentation for measuring these parameters are discussed. The concepts of dosimetry are introduced and examples of electromagnetic field safety guidelines and standards are outlined. The chapter closes with a discussion of some topics directly relevant to safety of clinical procedures, such as hyperthermia, and diathermy, as well as electromagnetic interference with equipment and implanted devices caused by the presence of mobile communications and radiofrequency identification systems.
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Radiofrequency radiation : Health effects and interference : status of current research and regulation : a report to the General Assembly : pursuant to Act 182 of the 1995 session. Montpelier, Vt : Vermont Dept. of Public Service, 1996.

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Krikidis, Ioannis, et Gan Zheng. Advanced Relay Technologies in Next Generation Wireless Communications. Institution of Engineering & Technology, 2016.

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Advanced Relay Technologies in Next Generation Wireless Communications. The Institution of Engineering and Technology, 2016.

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Arslan, Hüseyin, et Ertuğrul Başar. Flexible and Cognitive Radio Access Technologies for 5G and Beyond. Institution of Engineering & Technology, 2020.

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Flexible and Cognitive Radio Access Technologies for 5G and Beyond. Institution of Engineering & Technology, 2020.

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Chapitres de livres sur le sujet "Radiofrequency interference"

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Steffel, Jan. « Electromagnetic interference in pacemaker patients ». Dans ESC CardioMed, sous la direction de Giuseppe Boriani, 2005–11. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198784906.003.0466.

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In spite of the development of specific shielding of electronic devices as well as the current-day preference for bipolar sensing, electromagnetic interference (EMI) may still occur with certain pacemakers in certain settings, which in turn may lead to false inhibition of ventricular stimulation with potentially fatal consequences. The most important sources of clinically relevant EMI include medical diagnostics and therapy (e.g. magnetic resonance imaging, radiofrequency ablation, cardioversion/defibrillation, and electrocautery), the working environment (including high-power lines, combustion/degaussing/welding equipment, and others), as well as sources from daily life (such as wireless mobile phones, metal detectors, household appliances such as induction furnaces, electronic article surveillance devices, and others). To what extent, and whether or not at all, any given source of interference leads to EMI depends on several factors including the duration of interference, the field strength, and the frequency spectrum of the source. In addition, lead properties and device programming are important determinants. Awareness, recognition, and avoidance of EMI sources is of paramount importance, particularly in high-risk pacemaker-dependent individuals. The importance of proper education of patients as well as healthcare providers cannot be overemphasized.
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Steffel, Jan. « Electromagnetic interference in pacemaker patients ». Dans ESC CardioMed, sous la direction de Giuseppe Boriani, 2005–11. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198784906.003.0466_update_001.

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In spite of the development of specific shielding of electronic devices as well as the current-day preference for bipolar sensing, electromagnetic interference (EMI) may still occur with certain pacemakers in certain settings, which in turn may lead to false inhibition of ventricular stimulation with potentially fatal consequences. The most important sources of clinically relevant EMI include medical diagnostics and therapy (e.g. magnetic resonance imaging, radiofrequency ablation, cardioversion/defibrillation, and electrocautery), the working environment (including high-power lines, combustion/degaussing/welding equipment, and others), as well as sources from daily life (such as wireless mobile phones, metal detectors, household appliances such as induction furnaces, electronic article surveillance devices, electric cars, and others). To what extent, and whether or not at all, any given source of interference leads to EMI depends on several factors including the duration of interference, the field strength, and the frequency spectrum of the source. In addition, lead properties and device programming are important determinants. Awareness, recognition, and avoidance of EMI sources are of paramount importance, particularly in high-risk pacemaker-dependent individuals. The importance of proper education of patients as well as healthcare providers cannot be overemphasized.
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Robson, Matthew. « 7 T cardiac imaging ». Dans The EACVI Textbook of Cardiovascular Magnetic Resonance, sous la direction de Massimo Lombardi, Sven Plein, Steffen Petersen, Chiara Bucciarelli-Ducci, Emanuela R. Valsangiacomo Buechel, Cristina Basso et Victor Ferrari, 620–23. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198779735.003.0062.

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By increasing the field strength of the magnet used for magnetic resonance imaging (MRI), the available signal from the patient is enhanced, and this basic physics principle has driven the clinical MRI market to ever higher field strengths. Seven Tesla (7 T) scanners yield 4-5 times more signal than 1.5 T scanners; this signal-to-noise ratio increase facilitates high-resolution imaging, faster imaging when using accelerated techniques such as SENSE and GRAPPA, and greater sensitivity to low-concentration metabolites. Magnetic resonance spectroscopy acquisitions also benefit, owing to the greater chemical shift dispersion at ultra-high field. A significant difficulty is due to the radiofrequency excitation required that oscillates at 300 MHz, which results in destructive interference of the excitation fields and heating of the patient, and hence requires expensive additional hardware. While 7 T presents a great opportunity to cardiovascular MRI research, it is not yet a routine clinical tool, owing to the compound challenges of high cost, limited availability, and the difficulties of radiofrequency excitation at 300 MHz.
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Kumar, Rajeev, Tejendra K. Gupta, Neeraj Dwivedi et D. P. Mondal. « Lightweight Carbon Composite Foams for Electromagnetic Interference Shielding Applications ». Dans Smart Materials Design for Electromagnetic Interference Shielding Applications, 59–108. BENTHAM SCIENCE PUBLISHERS, 2022. http://dx.doi.org/10.2174/9789815036428122010005.

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In the modern technological era, various electronic devices are being widely used in proportion to the fast-growing demand in society. These devices have created electronic pollutions such as electronic noise, electromagnetic interference (EMI), and radiofrequency interference (RFI), leading to improper functioning of electronic devices. In view of mitigating these detrimental effects, strong EMI shielding materials are required. In recent years, carbon composite foams have attracted worldwide interest due to their outstanding properties such as lightweight, interconnected porosity, high surface area, excellent corrosion resistance, superior electrical and thermal properties that are highly useful for suppressing electromagnetic noises. In this chapter, several carbon foam preparation methods, such as the foaming method, pressure release method, template method, etc., are described. The effect of precursors like pitches, resins, polymers, and biodegradable materials on the microstructure, electrical, and EMI shielding properties of carbon composite foams have been studied. The influences of different fillers such as CNT, graphene, MXene, metals, and magnetic materials on the electrical conductivity and EMI shielding properties of carbon composite foams have been deeply reviewed. The EMI shielding, density, and thickness of carbon composite foam with various loading of fillers are summarized in tables in this chapter, which will provide readers with useful information. In the last section, current challenges and future research directions of this growing field are also discussed.
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Kozerke, Sebastian, Redha Boubertakh et Marc Miquel. « Image quality and artefacts ». Dans The EACVI Textbook of Cardiovascular Magnetic Resonance, sous la direction de Massimo Lombardi, Sven Plein, Steffen Petersen, Chiara Bucciarelli-Ducci, Emanuela R. Valsangiacomo Buechel, Cristina Basso et Victor Ferrari, 47–52. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198779735.003.0009.

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Good and reproducible image quality is essential for clinical diagnosis. Although image quality can be defined in numerous ways, signal-to-noise and contrast-to-noise ratios are often used as indicators. Despite our best efforts, image artefacts are part and parcel of CMR imaging and are sometimes unavoidable. Image artefacts can be caused by patients (e.g. motion, chemical shift artefacts), image acquisition and reconstruction (e.g. foldover artefacts), or equipment/external interferences (e.g. radiofrequency leakage). The most common image artefacts encountered in cardiac imaging and strategies to avoid or reduce them are discussed in this chapter.
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Actes de conférences sur le sujet "Radiofrequency interference"

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Vernhes, Richard, Oleg Zabeida, Jolanta Klemberg-Sapieha et Ludvik Martinu. « Properties, Growth and Filter Applications of a-SiN^x:H Alloys Prepared in Pulsed Radiofrequency Plasma ». Dans Optical Interference Coatings. Washington, D.C. : OSA, 2007. http://dx.doi.org/10.1364/oic.2007.md10.

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Tariq, Raja Usman, Ye Ming, Cao Zhi, Keyue Zhang, Zhang Yong, Songchang Zhang, Xiaolong Zhao et Yongning He. « Passive Intermodulation Measurement of Radiofrequency Interference Shielding Gasket ». Dans 2019 International Applied Computational Electromagnetics Society Symposium - China (ACES). IEEE, 2019. http://dx.doi.org/10.23919/aces48530.2019.9060437.

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« Biological effects and health implication of radiofrequency and microwave ». Dans Proceedings of the International Conference on Electromagnetic Interference and Compatibility'99. IEEE, 1999. http://dx.doi.org/10.1109/icemic.1999.871681.

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Wright, J. C., et P. T. Bonoli. « Interference effects on quasilinear diffusion of lower hybrid waves ». Dans RADIOFREQUENCY POWER IN PLASMAS : Proceedings of the 20th Topical Conference. American Institute of Physics, 2014. http://dx.doi.org/10.1063/1.4864581.

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Olivier, Ronciere, Pascal Marchand et Sylvain Chenu. « On the use of electromagnetic simulation in front door radiofrequency interference ». Dans 2017 International Conference on Military Communications and Information Systems (ICMCIS). IEEE, 2017. http://dx.doi.org/10.1109/icmcis.2017.7956492.

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Chongyu, Wei, Liu Chen et Yang Yang. « The design of cancellation unit against radiofrequency interference in life-detection radar ». Dans 2010 International Conference on Microwave and Millimeter Wave Technology (ICMMT). IEEE, 2010. http://dx.doi.org/10.1109/icmmt.2010.5524837.

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Lefcourt, Samuel, Nathaniel Gordon, Hanting Wong et Gregory Falco. « Space Cognitive Communications : Characterizing Radiofrequency Interference to Improve Digital Space Domain Awareness ». Dans 2022 International Conference on Localization and GNSS (ICL-GNSS). IEEE, 2022. http://dx.doi.org/10.1109/icl-gnss54081.2022.9797033.

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Doridant, A., J. Raoult, S. Jarrix, J.-J. Laurin et P. Hoffmann. « Preliminary study of Automatic Control Gain loop subjected to pulse-modulated radiofrequency interference ». Dans 2015 10th International Workshop on the Electromagnetic Compatibility of Integrated Circuits (EMC Compo). IEEE, 2015. http://dx.doi.org/10.1109/emccompo.2015.7358340.

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Ruggera, Paul S., Eugene R. O'Bryan et Jon P. Casamento. « Automated radiofrequency electromagnetic interference testing of apnea monitors using an open area test site ». Dans 1992 14th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE, 1992. http://dx.doi.org/10.1109/iembs.1992.5761717.

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Ruggera, O'Bryan et Casamento. « Automated Radiofrequency Electromagnetic Interference Testing Of Apnea Monitors Using an Open Area Test Site ». Dans Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE, 1992. http://dx.doi.org/10.1109/iembs.1992.593820.

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