Vikass Monebhurrun

Publications :

• Article dans une revue - 34 documents
• • Vikass Monebhurrun. IEEE standard 149-2021: IEEE recommended practice for antenna measurements, 2022-06-01. (https://centralesupelec.hal.science/hal-03691348v1)
  • Vikass Monebhurrun. IEEE Standard 1502: Standardization of radar cross section test procedures, 2022-04-01. (https://centralesupelec.hal.science/hal-03691350v1)
  • Runze Hu, Vikass Monebhurrun, Ryutaro Himeno, Hideo Yokota, Fumie Costen. A general framework for building surrogate models for uncertainty quantification in computational electromagnetics, 2021-09-15. (https://centralesupelec.hal.science/hal-03691359v1)
  • Vikass Monebhurrun. IEEE standard 1502-2020: IEEE recommended practice for radar cross-section test procedures, 2021-04-01. (https://centralesupelec.hal.science/hal-03691360v1)
  • Runze Hu, Vikass Monebhurrun, Ryutaro Himeno, Hideo Yokota, Fumie Costen. Uncertainty analysis on FDTD computation with artificial neural network, 2021-02-01. (https://centralesupelec.hal.science/hal-03691355v1)
  • Vikass Monebhurrun. Revision of IEEE standard 145-2013: IEEE standard for definitions of terms for antennas, 2020-06-01. (https://centralesupelec.hal.science/hal-03691362v1)
  • Runze Hu, Vikass Monebhurrun, Ryutaro Himeno, Hideo Yokota, Fumie Costen. A Statistical Parsimony Method for Uncertainty Quantification of FDTD Computation Based on the PCA and Ridge Regression, 2019-07. (https://hal.science/hal-02613313v1)
  • Vikass Monebhurrun. IEEE standard 211-2018: IEEE standard definitions of terms for radio wave propagation, 2019-06. (https://hal.science/hal-02613311v1)
  • Vikass Monebhurrun. Revision of the Guide for Measurements of Electromagnetic Properties of Earth Media [Stand on Standards], 2018. (https://centralesupelec.hal.science/hal-02413763v1)
  • Tapan K. Sarkar, Guido Lombardi, Vikass Monebhurrun, Monai Krairiksh. Guest Editorial for the Special Issue on Radio Wave Propagation, 2018. (https://centralesupelec.hal.science/hal-02413761v1)
  • Vikass Monebhurrun. Numerical and Experimental Investigations of Base Station Antenna Height on Cellular Network Coverage, 2018. (https://centralesupelec.hal.science/hal-02413764v1)
  • Runze Hu, Vikass Monebhurrun, Ryutaro Himeno, Hideo Yokota, Fumie Costen. An Adaptive Least Angle Regression Method for Uncertainty Quantification in FDTD Computation, 2018. (https://centralesupelec.hal.science/hal-02413767v1)
  • Vikass Monebhurrun. IEEE RADIO 2016 Held in Reunion, France (Meeting Reports), 2017-04. (https://hal.science/hal-01691957v1)
  • Vikass Monebhurrun. IEEE Radio and Antenna Days of the Indian Ocean 2016 (IEEE RADIO 2016), 2017-03. (https://hal.science/hal-01691985v1)
  • Cheng Xi, Vikass Monebhurrun. Application of Different Methods to Quantify Uncertainty in Specific Absorption Rate Calculation Using a CAD-Based Mobile Phone Model, 2017-02-01. (https://centralesupelec.hal.science/hal-01691697v1)
  • Mohammad Abdallah, Tapan Sarkar, Magdalena Salazar-Palma, Vikass Monebhurrun. Where does the far field of an antenna start?, 2016-10. (https://centralesupelec.hal.science/hal-01427160v1)
  • Vikass Monebhurrun. Revision of IEEE Antennas and Propagation Society Standards 149, 211 and 1502, 2016-06-01. (https://centralesupelec.hal.science/hal-01427267v1)
  • Vikass Monebhurrun. IEEE Radio and Antenna Days of the Indian Ocean (IEEE RADIO 2015), 2016-04. (https://centralesupelec.hal.science/hal-01427203v1)
  • Vikass Monebhurrun. Revision of the standard test procedures for antennas, 2015-12. (https://centralesupelec.hal.science/hal-01263279v1)
  • Vikass Monebhurrun. IEEE RADIO 2015, 2015-12. (https://hal.science/hal-01691989v1)
  • Rojatkar Ashish, Vikass Monebhurrun. Application of the SAROTA concept in real life scenario, 2014-10. (https://hal.science/hal-01101380v1)
  • Cheng Xi, Vikass Monebhurrun. Uncertainty evaluation in numerical modeling of complex devices, 2014-10. (https://hal.science/hal-01101375v1)
  • Vikass Monebhurrun, Yannis Braux, Harald Devos, Mikhail Kozlov, Winfried Simon, Tilmann Wittig. A benchmark CAD mobile phone model for specific absorption rate calculations, 2014-02. (https://hal.science/hal-01101451v1)
  • Vikass Monebhurrun. SAROTA: application of specific absorption rate (SAR) and over-the-air (OTA) data for the characterization of the real-life exposure due to mobile phones, 2013-04. (https://centralesupelec.hal.science/hal-00912849v1)
  • Thierry Letertre, Vikass Monebhurrun. Accurate measurement of RF exposure from emerging wireless communication systems, 2013-04. (https://centralesupelec.hal.science/hal-00912854v1)
  • Vikass Monebhurrun. Influence of the hand on the specific absorption rate assessments of mobile phones, 2012-03. (https://centralesupelec.hal.science/hal-00766130v1)
  • Martin Siegbahn, Giorgi Bit-Babik, Jafar Keshvari, Andreas Christ, Benoit Derat, Vikass Monebhurrun, Christopher Penney, Martin Vogel, Tilmann Wittig. An international interlaboratory comparison of mobile phone SAR calculation with CAD-based models, 2010-11. (https://centralesupelec.hal.science/hal-00912866v1)
  • Vikass Monebhurrun. Conservativeness of the SAM phantom for the SAR evaluation in the child's head, 2010-08. (https://hal.science/hal-00547195v1)
  • Vikass Monebhurrun. Effect of time-averaging of pulsed radio-frequency signals on specific absorption rate measurements, 2010-02. (https://hal.science/hal-00547177v1)
  • Vikass Monebhurrun, Christian Dale, Jean-Charles Bolomey, Joe Wiart. A numerical approach for the determination of the tissue equivalent liquid used during SAR assessments, 2002-03. (https://centralesupelec.hal.science/hal-00912858v1)
  • Adele Ruosi, Massimo Valentino, G. Pepe, Vikass Monebhurrun, Dominique Lesselier, Bernard Duchêne. High-Tc SQUIDs and eddy-current NDE: a comprehensive investigation from real data to modeling, 2000-11. (https://hal.science/hal-00637523v1)
  • Adele Ruosi, Guglielmina Pepe, G. Peluso, Massimo Valentino, Vikass Monebhurrun. Experimental and numerical results of electromagnetic nondestructive testing with HTc SQUIDS, 1999-06. (https://centralesupelec.hal.science/hal-00913134v1)
  • Vikass Monebhurrun, Dominique Lesselier, Bernard Duchêne. Evaluation of a 3-D bounded defect in the wall of a metal tube at eddy current frequencies: the direct problem, 1998-12. (https://hal.science/hal-00637693v1)
  • Vikass Monebhurrun, Bernard Duchêne, Dominique Lesselier. 3-D inversion of eddy current data for non-destructive evaluation of steam generator tubes, 1998-06. (https://hal.science/hal-00637687v1)
• Ouvrage - 9 documents
• • Vikass Monebhurrun. IEEE Radio and Antenna Days of the Indian Ocean 2019, 2020-03. (https://hal.science/hal-02613537v1)
  • Tapan K. Sarkar, Guido Lombardi, Vikass Monebhurrun, Monai Krairiksh. Special Issue on Radio Wave Propagation - Part II, 2019-04. (https://hal.science/hal-02613589v1)
  • Tapan K. Sarkar, Guido Lombardi, Vikass Monebhurrun, Monai Krairiksh. Special Issue on Radio Wave Propagation - Part I, 2018-12. (https://hal.science/hal-02613572v1)
  • Vikass Monebhurrun. IEEE Std. 211-2018: IEEE Standard Definitions of Terms for Radio Wave Propagation, 2018-10. (https://hal.science/hal-02613549v1)
  • Vikass Monebhurrun. IEC/IEEE International Standard 62704-3: Determining the peak spatial-average specific absorption rate (SAR) in the human body from wireless communications devices: 30 MHz to 6 GHz - Part 3: Specific requirements for using the finite difference time domain (FDTD) method for SAR calculations of mobile phones, 2017-10. (https://centralesupelec.hal.science/hal-01692400v1)
  • Vikass Monebhurrun. IEEE Radio and Antenna Days of the Indian Ocean 2017, 2017-09-25. (https://hal.science/hal-01691889v1)
  • Vikass Monebhurrun. IoP Conference Series: Materials Science and Engineering, 2017-05. (https://hal.science/hal-01691941v1)
  • Vikass Monebhurrun. IoP Conference Series: Materials Science and Engineering, 2016-04-20. (https://centralesupelec.hal.science/hal-01427141v1)
  • Vikass Monebhurrun, Dominique Lesselier. Radio and Antenna Days of the Indian Ocean (RADIO 2012) - IOP Conference Series: Materials Science and Engineering, 2013-04. (https://centralesupelec.hal.science/hal-00824679v1)
• ISSUE - 2 documents
• • Vikass Monebhurrun. 2018 IEEE Radio and Antenna Days of the Indian Ocean 2018 (IEEE RADIO 2018), 2019-04. (https://hal.science/hal-02613532v1)
  • Vikass Monebhurrun. IEEE Radio and Antenna Days of the Indian Ocean (IEEE RADIO 2017), 2018-03-01. (https://hal.science/hal-02103103v1)
• Communication dans un congrès - 65 documents
• • Lars Foged, Vince Rodriguez, Jeff Fordham, Vikass Monebhurrun. Review of IEEE Std. 1720-2012 'Recommended practice for near-field antenna measurements, 2018-09-03. (https://centralesupelec.hal.science/hal-02413760v1)
  • Vikass Monebhurrun. Numerical and experimental investigations of radio wave propagation at 2450 MHz for optimum network coverage, 2017-12-04. (https://hal.science/hal-01692013v1)
  • Vikass Monebhurrun. Use of Standard Definitions of Terms for Antennas and Radio Wave Propagation, 2017-12-04. (https://hal.science/hal-01692020v1)
  • Vikass Monebhurrun. Review of the Antennas and Propagation Standards, 2017-10-30. (https://hal.science/hal-01692006v1)
  • Mayank Agarwal, Vikass Monebhurrun. Numerical and experimental investigations of the specific absorption rate using reference dipoles, 2017-09-25. (https://centralesupelec.hal.science/hal-01691706v1)
  • Vikass Monebhurrun. Uncertainty quantification in electromagnetic simulations of complex devices, 2016-12-15. (https://centralesupelec.hal.science/hal-01427195v1)
  • Vikass Monebhurrun. How do we resolve uncertainty?, 2016-12-13. (https://centralesupelec.hal.science/hal-01427188v1)
  • M.N. Abdallah, Tapan K. Sarkar, Vikass Monebhurrun, M. Salazar-Palma. Defining the starting distance for the far field of antennas operating in any environment, 2016-10-23. (https://centralesupelec.hal.science/hal-02413762v1)
  • Vikass Monebhurrun, Ashish Rojatkar. Evaluation of the real-life exposure due to mobile phones in an indoor environment, 2016-10-10. (https://centralesupelec.hal.science/hal-01427179v1)
  • M.N. Abdallah, Tapan K. Sarkar, Vikass Monebhurrun, M. Salazar-Palma. Predicting the starting distance of the far field, 2016-06-26. (https://centralesupelec.hal.science/hal-02413759v1)
  • Vikass Monebhurrun. Numerical Model Calibration Using Experimental Data, 2015-11-18. (https://centralesupelec.hal.science/hal-01251453v1)
  • Vikass Monebhurrun, Cheng Xi, Rojatkar Ashish. CAD Mobile Phone Model Calibration Using Experimental Specific Absorption Rate Data, 2015-09-21. (https://centralesupelec.hal.science/hal-01251444v1)
  • Vikass Monebhurrun, Cheng Xi, Rojatkar Ashish. Calibration of the CAD model of a commercial mobile phone for SAR compliance, 2015-06-14. (https://centralesupelec.hal.science/hal-01251450v1)
  • Vikass Monebhurrun. Human exposure to RF EMF: a review of the state of the art, 2014-12-17. (https://hal.science/hal-01101437v1)
  • Rojatkar Ashish, Vikass Monebhurrun. Experimental validation of the numerical model of a commercial mobile phone for specific absorption rate assessment, 2014-12-17. (https://hal.science/hal-01101431v1)
  • Vikass Monebhurrun. RF & Health: development of harmonized EMF standards & procedures, 2014-12-17. (https://hal.science/hal-01101440v1)
  • Cheng Xi, Vikass Monebhurrun. Uncertainty quantification in specific absorption rate calculations using realistic mobile phone models, 2014-08-16. (https://hal.science/hal-01101428v1)
  • Rojatkar Ashish, Vikass Monebhurrun. Evaluation of the real life exposure due to GSM mobile phones, 2014-08-16. (https://hal.science/hal-01101426v1)
  • Rojatkar Ashish, Vikass Monebhurrun. Investigation of the effect of the hand on the real-life performance of mobile phones, 2014-06-08. (https://hal.science/hal-01101414v1)
  • Vikass Monebhurrun. Conservativeness of the SAM phantom for the SAR evaluation of mobile phones with bottom-mounted antennas, 2014-06-08. (https://hal.science/hal-01101420v1)
  • Cheng Xi, Vikass Monebhurrun. Application of the non-intrusive polynomial chaos for the evaluation of the uncertainty in the SAR calculation using a CAD-based mobile phone model, 2014-06-08. (https://hal.science/hal-01101418v1)
  • Rojatkar Ashish, Vikass Monebhurrun. Application of the SAROTA index in real-life scenario, 2014-04-07. (https://hal.science/hal-01101404v1)
  • Cheng Xi, Vikass Monebhurrun. Uncertainty evaluation in numerical modeling of complex devices, 2014-04-07. (https://hal.science/hal-01101401v1)
  • Vikass Monebhurrun, Louis Jérôme. Case study: measurements of the radio frequency exposure from mobile phones and base station antennas in Mauritius, 2014-04-07. (https://hal.science/hal-01101399v1)
  • Vikass Monebhurrun. Human exposure to RF EMF: state of the art, 2014-01-02. (https://hal.science/hal-01101436v1)
  • Cheng Xi, Vikass Monebhurrun. Application of the unscented transform for the evaluation of the uncertainty in specific absorption rate calculations, 2013-10-28. (https://hal.science/hal-00927707v1)
  • Vikass Monebhurrun, Yannis Braux, Harald Devos, Mikhail Kozlov, Winfried Simon, Tilmann Wittig. A benchmark CAD mobile phone model for specific absorption rate calculations, 2013-06-30. (https://hal.science/hal-00927625v1)
  • Cheng Xi, Vikass Monebhurrun. Fast evaluation of the uncertainty in specific absorption rate calculations by applying the unscented transform, 2013-06-10. (https://hal.science/hal-00927622v1)
  • Rojatkar Ashish, Vikass Monebhurrun. Experimental validation of the SAROTA concept for the evaluation of the real-life exposure due to mobile phones, 2013-06-10. (https://hal.science/hal-00927624v1)
  • Thierry Letertre, Vikass Monebhurrun. Accurate measurement of RF exposure from emerging wireless communication systems, 2012-09-24. (https://centralesupelec.hal.science/hal-00766133v1)
  • Vikass Monebhurrun. SAROTA: application of specific absorption rate (SAR) and over-the-air (OTA) data for the characterization of the real-life exposure of mobile phones, 2012-09-24. (https://centralesupelec.hal.science/hal-00766131v1)
  • Vikass Monebhurrun, Yannis Braux, Mikhail Kozlov, Winfried Simon, Tilmann Wittig. An interlaboratory comparison of SAR calculations using a CAD phone: a new step towards standardized procedures, 2012-06-17. (https://centralesupelec.hal.science/hal-00766143v1)
  • Vikass Monebhurrun. IEEE P1528.3 CAD interlaboratory comparison, 2012-04-03. (https://centralesupelec.hal.science/hal-00778127v1)
  • Vikass Monebhurrun, Man-Fai Wong, Azeddine Gati, Joe Wiart. Study of the influence of the hand on the Specific Absorption Rate evaluation of mobile phones, 2011-08-13. (https://centralesupelec.hal.science/hal-00657008v1)
  • Vikass Monebhurrun, Wong Man-Fai, Gati Azeddine, Wiart Joe. Evaluation of the error induced by an incorrect positioning of the handset against the SAM phantom for SAR calculations, 2011-08-13. (https://centralesupelec.hal.science/hal-00657005v1)
  • Vikass Monebhurrun. Introduction to RF dosimetry, 2011-07-27. (https://centralesupelec.hal.science/hal-00656994v1)
  • Vikass Monebhurrun. The precautionary approach and its application to EMF safety in France and other European countries, 2011-07-25. (https://centralesupelec.hal.science/hal-00656990v1)
  • Vikass Monebhurrun. Human exposure to mobile phones and base station antennas: scientific evidence of EMF effects and research updates, 2011-07-25. (https://centralesupelec.hal.science/hal-00656987v1)
  • Vikass Monebhurrun, Man-Faï Wong, Azeddine Gati, Joe Wiart. Numerical and experimental investigations of the influence of the hand on the specific absorption rate evaluations of mobile phones, 2011-06-12. (https://centralesupelec.hal.science/hal-00657020v1)
  • Thierry Letertre, Vikass Monebhurrun, Zeno Toffano. Electromagnetic Field Measurements of Wimax Systems Using Isotropic Broadband Probes, 2011-06-05. (https://centralesupelec.hal.science/hal-00636574v1)
  • Thierry Letertre, Vikass Monebhurrun, Zeno Toffano. Measurements of Digitally Modulated Pulsed RF Signals Using Isotropic Broadband Probes, 2011-06. (https://centralesupelec.hal.science/hal-00636567v1)
  • Vikass Monebhurrun, Man-Faï Wong, Azeddine Gati, Joe Wiart. A current issue in numerical dosimetry: uncertainty assessment of SAR calculations using CAD-based phone models, 2011-02-21. (https://centralesupelec.hal.science/hal-00657030v1)
  • Vikass Monebhurrun. Investigation of body-worn SAR conformity assessment of mobile phones using head tissue equivalent liquid, 2010-06. (https://hal.science/hal-00547206v1)
  • Vikass Monebhurrun. A real-life exposure evaluation index for mobile phones based on SAR and TRP measurements data: the SAROTA index, 2010-06. (https://hal.science/hal-00547201v1)
  • Vikass Monebhurrun, Thierry Letertre. A novel measurement procedure for the Specific Absorption Rate conformity assessment of WiFi devices, 2009-12. (https://hal.science/hal-00447388v1)
  • David Lautru, Vikass Monebhurrun, Man-Fai Wong. Principes de l'évaluation numériques de l'exposition des personnes aux ondes radiofréquences, 2009-11-09. (https://hal.sorbonne-universite.fr/hal-00597697v1)
  • Vikass Monebhurrun. Conservativeness of the SAM phantom for the SAR evaluation in the child's head, 2009-11. (https://hal.science/hal-00447392v1)
  • Vikass Monebhurrun, Azeddine Gati, Man-Faï Wong, Joe Wiart. SAR calculations using realistic phone models: uncertainty due to the positioning, 2009-11. (https://hal.science/hal-00447400v1)
  • Vikass Monebhurrun. Conservativeness of the head tissue equivalent liquid for body-worn SAR assessments, 2009-11. (https://hal.science/hal-00447394v1)
  • Vikass Monebhurrun, Thierry Letertre. Evaluation of electromagnetic fields from WiFi devices: Specific Absorption Rate measurements, 2009-06. (https://hal.science/hal-00447515v1)
  • Vikass Monebhurrun. On the Specific Absorption Rate measurement of pulsed radio frequency signals, 2009-06. (https://hal.science/hal-00447508v1)
  • Martin Siegbahn, Giorgi Bit-Babik, Jafar Keshvari, Andreas Christ, Benoit Derat, Vikass Monebhurrun, Christopher Penney, Tilmann Wittig. An international inter-laboratory comparison of mobile phone SAR calculation with CAD-based models, 2009-06. (https://hal.science/hal-00447506v1)
  • Vikass Monebhurrun, Thierry Letertre. Evaluation of electromagnetic fields from WiFi devices: in-situ measurements, 2009-06. (https://hal.science/hal-00447511v1)
  • Vikass Monebhurrun, Thierry Letertre. Total radiated power measurement of WiFi devices using a compact reverberation chamber, 2009-01. (https://hal.science/hal-00447559v1)
  • Thierry Letertre, Alain Azoulay, Vikass Monebhurrun. Wifi: Mesures in-situ et DAS, 2008-10. (https://centralesupelec.hal.science/hal-00353539v1)
  • Vikass Monebhurrun, Man-Faï Wong, Joe Wiart. Numerical investigation of the influence of the handset/phantom positioning error on SAR calculations, 2008-08. (https://centralesupelec.hal.science/hal-00352143v1)
  • Vikass Monebhurrun, Man-Faï Wong, Joe Wiart. Numerical and experimental investigations of a commercial mobile handset for SAR calculations, 2008-05. (https://centralesupelec.hal.science/hal-00352174v1)
  • Vikass Monebhurrun. Fast global characterization of 2G and 3G mobile phones using a reverberation chamber, 2007-11. (https://centralesupelec.hal.science/hal-00280588v1)
  • Vikass Monebhurrun. Worst-case SAR estimation from radiated power measurements: uncertainty evaluation, 2007-06. (https://centralesupelec.hal.science/hal-00280611v1)
  • Vikass Monebhurrun. Optimized numerical modeling of commercial mobile phones for efficient SAR calculations, 2007-06. (https://centralesupelec.hal.science/hal-00280607v1)
  • Thierry Letertre, Alain Azoulay, A. Delrieu, Vikass Monebhurrun. Overview of EMC issues in the perspective of the future aeronautical communication system, 2007-06. (https://centralesupelec.hal.science/hal-00278226v1)
  • Vikass Monebhurrun, F. Lacroux, M. F. Wong, J. Wiart. On the numerical modelling of mobile phones for SAR calculations, 2007-04. (https://centralesupelec.hal.science/hal-00280614v1)
  • Vikass Monebhurrun, Jean-Charles Bolomey. Rapid SAR estimation from radiated powers measured in a compact reverberation chamber, 2006-11. (https://centralesupelec.hal.science/hal-00280775v1)
  • Vikass Monebhurrun, Jean-Charles Bolomey, L. Duchesne, M. Legoff, Philippe Garreau. Rapid SAR estimation using radiated power measurements, 2006-06. (https://centralesupelec.hal.science/hal-00280777v1)
  • Vikass Monebhurrun. Characterization of the liquid and the phantom used for the SAR measurements of body-mounted devices, 2006-06. (https://centralesupelec.hal.science/hal-00280772v1)
• PROCEEDINGS - 5 documents
• • Vikass Monebhurrun. IEEE Radio and Antenna Days of the Indian Ocean 2016, 2016-10-10. (https://centralesupelec.hal.science/hal-01427145v1)
  • Vikass Monebhurrun. IEEE RADIO 2015, 2015-09-21. (https://centralesupelec.hal.science/hal-01251418v1)
  • Vikass Monebhurrun. 2nd Radio and Antenna Days of the Indian Ocean (RADIO 2014), 2014-10. (https://hal.science/hal-01101388v1)
  • Vikass Monebhurrun. RADIO 2014, 2014-04-07. (https://hal.science/hal-01251428v1)
  • Vikass Monebhurrun. RADIO 2012, 2012-09-24. (https://hal.science/hal-01251433v1)