J. Langlois and «. , Rapport adopté lors de la session du Conseil national de l'Ordre des médecins du 30 juin, 2000.

, Documents Marc Antoine « porteur du projet ARTIC

D. Paret, « Identification Radio-Fréquences et Cartes à puce sans contact, 2000.

K. Finkenzeller, RFID handbook, fundamentals and applications in contactless smart cards and identifications, 2003.

G. A. Theile and W. L. Stutzman, Antenna Theory and Design, p.42, 2013.

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C. Zierhofer and E. Hochmair, Geometric approach for coupling enhancement of magnetically coupled coils, IEEE transactions on Biomedical Engineering, pp.708-714, 1996.

C. Reinhold, P. Schohl, W. John, and U. Hilleringmann, Efficient antenna design of inductive coupled RFID-system with heigh power demand, Journal of communication, vol.2, issue.6, pp.14-23, 2007.

C. Liu and Y. Dong, Resonant coupling of a passive inductance-capacitance-resistor loop in coil-based sensing system, IEEE sensors journal, vol.12, issue.12, pp.3417-3423, 2012.

E. Waffenschmidt, Homogeneous Magnetic Coupling for free positioning in inductive wireless power system, IEEE journal of emerging and selected topics in power electronics, vol.3, pp.226-233, 2015.

M. Grzeskowiak, A. Diet, P. S. Diao, S. Protat, C. Bourcier et al., Pebbles Tracking Thanks to RFID LF Multi-loops Inductively Coupled Reader, Progress In Electromagnetics Research, PIER C, vol.55, pp.129-137, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01104660

Z. Zhang, K. T. Chau, C. Liu1, F. Li, T. W. Ching et al., Quantitative Analysis of Mutual Inductance for Optimal Wireless Power Transfer via Magnetic Resonant Coupling, Communication Systems, Networks and Digital Signal Processing, vol.50, pp.297-300, 2008.

A. Berger, M. Agostinelli, S. Vesti, J. Olivier, J. Cobos et al., A Wireless Charging System Applying Phase-Shift and Amplitude Control to Maximize Efficiency and Extractable Power, vol.30, pp.6336-6348, 2015.

C. S. Wang, O. H. Stielau, and G. A. Covic, Design Considerations for a Contactless Electric Vehicle Battery Charger, IEEE Transaction on Industrial. Electronics, vol.52, pp.1308-1314, 2005.

Y. Jang and M. M. Jovanovic, A Contactless Electrical Energy Transmission System for Portable-Telephone Battery Chargers, IEEE on Industrial. Electronics, vol.50, pp.520-527, 2003.

M. Ettorre and A. Grbic, ATransponder-Based,Nonradiative Wireless Power Transfer, IEEE antennas and wireless propagation letters, vol.11, pp.1150-1153, 2012.

A. Berger, M. Agostinelli, S. Vesti, J. Olivier, J. Cobos et al., A Planar Magnetically Coupled Resonant Wireless Power Transfer System Using Printed Spiral Coils, IEEE antennas and wireless propagation letters, vol.13, pp.1648-1651, 2014.

M. Zargham and P. G. Gulak, Maximum Achievable Efficiency in Near Field Coupled Power Transfer System, IEEE transcation on biomedical circuits and systems, vol.6, pp.228-245, 2012.

H. Hwang, J. Moon, B. Lee, C. Jeong, and S. Kim, An Analysis of Magnetic Resonance Coupling Effects on Wireless Power Transfer by Coil Inductance and Placement, IEEE transaction on consumer electronics, vol.60, issue.2, pp.416-430, 2011.

A. A. Eteng, S. K. Rahim, C. Y. Leow, M. I. Sabran, and M. F. Yusof, Automated Design of an HF RFID Loop Antenna Based on Parametric Geometry Modification, IEEE Symposium on Wireless Technology & Applications (ISWTA), pp.1-7, 2014.

G. Eason, B. Noble, I. N. Sneddon-;-s, F. Babic, C. Sirois et al., New formulas for mutual inductance and axial magnetic force between magnetically coupled coils: thick circular coil of the rectangular cross-section-thin disk coil (pancake), Progress in Electromagnetics Research M, vol.8, pp.860-868, 2009.

S. Hackl, C. Lansch¨utzer, P. Raggam, and W. L. Randeu, A Novel Method for Determining the Mutual Inductance for 13.56MHz RFID Systems, Communication Systems, Networks and Digital Signal Processing, pp.297-300

S. Hackl, C. Lansch¨utzer, P. Raggam, and W. L. Randeu, A Novel Method for Determining the Mutual Inductance for 13.56MHz RFID Systems, Communication Systems, Networks and Digital Signal Processing, pp.297-300, 2008.

A. Diet, Improving LF Reader Antenna volume of detection for RFID token tag thanks to Identical Coaxial Loops (ICLs) and in/out-of phase multiple-loops structures, IEEE Int. Conference on RFID-Technology and Applications, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01104665

Z. Zhang and K. T. Chau, Quantitative Analysis of Mutual Inductance for Optimal Wireless Power Transfer via Magnetic Resonant Coupling, IEEE Transaction on Magnetics, vol.50, issue.11, 2014.

. M. Kiani, . U. Jow, and . Ghovanloo, Design and Optimization of a 3-Coil Inductive Link for Efficient Wireless Power Transmission, IEEE Transaction. on Biomedical. Circuits and Systems, vol.5, pp.579-591, 2011.

. A. Dukju and . Songcheol, Effect of Coupling between Multiple Transmitters or Multiple Receivers on Wireless Power Transfer, IEEE Tranaction on . Industrial. Electronics, vol.60, pp.2602-2613, 2013.

. T. Imura and . Hori, Maximizing air gap and Efficiency of Magnetic Resonant Coupling for Wireless Power Transfer using Equivalent Circuit and Neumann formula, IEEE,International Symposiumon Antennas and Propagation (APSURSI), vol.58, pp.1347-1348, 2011.

M. Benamara, M. Grzeskowiak, A. Diet, Y. L. Bihan, G. Lissorgues et al., Design of 1cm² coils for HF RFID instruments tracking with detection range improvement, Equivalent Input and Output Impedances in HF RFID System Including Resonator, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01691636

C. Zierhofer and E. Hochmair, Geometric approach for coupling enhancement of magnetically coupled coils, IEEE transactions on Biomedical Engineering, pp.708-714, 1996.

C. Reinhold, P. Schohl, W. John, and U. Hilleringmann, Efficient antenna design of inductive coupled RFID-system with heigh power demand, Journal of communication, vol.2, issue.6, pp.14-23, 2007.

C. Liu and Y. Dong, Resonant coupling of a passive inductance-capacitance-resistor loop in coil-based sensing system, IEEE sensors journal, vol.12, issue.12, pp.3417-3423, 2012.

E. Waffenschmidt, Homogeneous Magnetic Coupling for free positioning in inductive wireless power system, IEEE journal of emerging and selected topics in power electronics, vol.3, pp.226-233, 2015.

M. Grzeskowiak, A. Diet, P. S. Diao, S. Protat, C. Bourcier et al., Pebbles Tracking Thanks to RFID LF Multi-loops Inductively Coupled Reader, Progress In Electromagnetics Research, PIER C, vol.55, pp.129-137, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01104660

A. Diet, M. Grzeskowiak, Y. L. Bihan, and C. Conessa, Improving LF Reader Antenna volume of detection, for RFID token tag, with a combination of ICLs and in/out-of phase multipleloops structures, IEEE International Conference on RFID, pp.1-7, 2014.

H. Hirayama, Y. Satake, and N. Kikuma, KunioSakakibara ,Improvement of Null Zone Avoidance Capabilityfor HF-band RFID using Diversity Combiningof Loop Antennas, EuCAP, pp.1594-1597, 2009.

A. A. Eteng, S. K. Rahim, C. Y. Leow, M. I. Sabran, and M. F. Yusof, Loop Antenna Design for Lateral H-Field Uniformity in Misaligned HF-RFID Links, pp.92-95, 2014.

S. I. Babic, F. Sirois, and C. , Validity check of mutual inductance formulas for circular filaments with lateral and angular misalignments, Progress in Electromagnetics Research M, vol.8, pp.15-26, 2009.

A. Diet, M. Grzeskowiak, Y. Lebihan, and C. Conessa, Improving LF Reader Antenna volume of detection, for RFID token tag, with a combination of ICLs and in/out-of phase multipleloops structures, IEEE RFID-TA, pp.208-213, 2014.

M. Grzeskowiak, A. Diet, M. Benamara, P. Poulichet, C. Conessa et al., Distributed Diameter sub-Coil Twisted Loop Antenna in nonradiative WPT, 2017.

M. Benamara, M. Grzeskowiak, M. Salhi, A. Diet, G. Lissorgues et al., Array Sub-Loops Reader Antenna for HF RFID Tracking, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01691631

M. Alves, G. Benamara, ;. Lissorgues, . Ta, B. Warsaw-;-megdouda et al., Detection tube for small HF RFID tags, thanks to mutual coupling with a coil resonator, Design of 1cm² coils for HF RFID instruments tracking with detection range improvement, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01239709

M. Grzeskowiak, A. Diet, M. Benamara, P. Poulichet, P. Protat et al., Sub-coil in reader antenna for HF RFID volume detection improvment, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02200487

A. Diet, M. Grzeskowiak, M. Biancheri-astier, Y. Le, F. Bihan et al., A switched reader complementary-loops structure for detecting LF RFID tagged pebbles, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01691652

M. Grzeskowiak, F. E. Hatmi, A. Diet, M. Benamara, Y. L. Bihan et al., A twisted loop antenna to enhance HF RFID detection areas for different tag positioning, Antenna for Tag Detection in Different Angular Orientations », LAPC, 2016.

I. V. Figure, Du côté du tag, une solution d'encapsulation en ferrite a été proposée. Des mesures de détection des tags RFID en présence des instruments chirurgicaux ont été effectuées, 21 tags ont été détectés. Ces tests de détection sont effectués en configurations parallèle. Pour améliorer la détection dans les différentes configurations spatiales, mini prototype ARTIC avec une antenne multi-boucles torsadée, et 2 étages pour réaliser le tunnel IV.4, vol.30

G. Carron-de-la-morinais, G. Meunier, and C. Kieny, Calcul des courants de Foucault en trois dimensions par une formulation utilisant le potentiel vecteur magnétique et le potentiel scalaire électrique, 1990.

X. Qing and Z. N. Chen, Proximity Effects of Metallic Environements on Heigh Frequency RFID reader Antenna: Study and applications, IEEE Transaction on antennas and propagation, vol.55, issue.11, 2007.

J. Bonne, K. , T. Hamelinckx, N. Stevens, J. Goemaere et al., Design of an RFID antenna Gate with multiple loop antenna, IEEE RFID Technology and Applications Conference, 2014.

I. Finis, V. Popa, A. Lavric, C. Males, and S. Sfichi, Performance Evaluation of 13.56 MHz RFID Antenna Operating in metallic environnements, IEEE Telecommunication Forum TELFOR, 2012.

K. Finkenzeller and . Handbook,

C. Zierhofer and E. Hochmair, Geometric approach for coupling enhancement of magnetically coupled coils, IEEE transactions on Biomedical Engineering, pp.708-714, 1996.

C. Reinhold, P. Schohl, W. John, and U. Hilleringmann, Efficient antenna design of inductive coupled RFID-system with heigh power demand, Journal of communication, vol.2, issue.6, pp.14-23, 2007.

S. Babic and C. , New formulas for mutual inductance and axial magnetic force between magnetically coupled coils: thick circular coil of the rectangular cross-section-thin disk coil (pancake), IEEE Transactions on Magnetics, vol.49, issue.2, pp.860-868, 2013.

M. Y. Ahmed, A. S. Mohan, ;. Hirayama, Y. Satake, N. Kikuma et al., Improvement of Null Zone Avoidance Capability for HF-band RFID using Diversity Combining of Loop Antennas, Asia-Pacific Microwave Conference, vol.13, p.56, 1963.

, Access Control Gate, International Journal of Computer Theory and Engineering, vol.4, issue.3, 2012.

M. Benamara, M. Grzeskowiak, A. Diet, G. Lissorgues, Y. L. Bihan et al., A twisted loop antenna to enhance HF RFID detection areas for different tag positioning, 2016.

M. Benamara, M. Grzeskowiak, A. Diet, G. Lissorgues, C. Conessa et al., Effect of Added Resonators in RFID System at 13.56 MHz, IET Microwave, and Propagation, under review 2
URL : https://hal.archives-ouvertes.fr/hal-01763659

M. Salhi, M. Benamara, M. Grzeskowiak, A. Diet, G. Lissorgues et al., Enhanced HF RFID detection area of mobile small tag via Distributed Diameter Coil resonator, IET Microwave, and Propagation, under review

M. Benamara, M. Grzeskowiak, A. Diet, G. Lissorgues, C. Conessa et al., Maximazing Power Transfer Efficiency for Inductive Link with Small Moving Receiver

M. Grzeskowiak, A. Diet, M. Benamara, P. Poulichet, C. Conessa et al., Distributed Diameter sub-Coil Twisted Loop Antenna in non-radiative WPT, 2017.

A. Diet, M. Grzeskowiak, Y. L. Bihan, M. Biancheri-astier, M. Lahrar et al.,

G. Benamara, F. Lissorgues, and . Alves, Improvement of RFID HF tags detection with a distributed diameter coil, 2016.

M. Grzeskowiak, F. E. Hatmi, A. Diet, M. Benamara, Y. D. Delcroix et al., Antenne boucle pour gélule ingérable: bilan de liaison en champ proche Comptes Rendus Physiques de l'Académie des Sciences, 2016.

M. Benamara, M. Grzeskowiak, M. Salhi, A. Diet, G. Lissorgues et al., Array Sub-Loops Reader Antenna for HF RFID Tracking, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01691631

M. Grzeskowiak, A. Diet, M. Benamara, P. Poulichet, P. Protat et al., Design of 1cm² coils for HF RFID instruments tracking with detection range improvement, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01691636

M. Grzeskowiak, F. E. Hatmi, A. Diet, M. Benamara, Y. L. Bihan et al., A twisted loop antenna to enhance HF RFID detection areas for different tag positioning, Eucap, 2016.

B. Megdouda, G. Marjorie, D. Antoine, L. Gaëlle, L. E. Yann et al., Reader Antenna Including Resonators for HF RFID Detection, Improvement of HF RFID Detection for Small and Misaligned Tag" icecom, 2016.

B. Megdouda, G. Marjorie, D. Antoine, L. Gaëlle, L. E. Yann et al., Detection tube for small HF RFID tags, thanks to mutual coupling with a coil resonator, European Microwave Conference, 2015.

M. Benamara, M. Grzeskowiak, A. Diet, and G. Lissorgues, Amélioration de volume de détection d'un lecteur RFID LF/FH basé sur une antenne multi-boucles, JNM, 2015.

M. Benamara, M. Grzeskowiak, M. Salhi, A. Diet, Y. L. Bihan et al., Structure 3D pour la détection RFID à 13.56 MHz s" JNM, saint-malo, 2017.

M. Benamara, M. Grzeskowiak, A. Diet, Y. L. Bihan, and G. Lissorgues, matrice d'impédance équivalente d'un système RFID avec résonateurs, JNM, 2017.

M. Grzeskowiak, A. Diet, M. Benamara, Y. L. Bihan, G. Lissorgues et al., Workshop traceurs poissons/sédiments, 2015.