E. Rapoport, Y. Pleshivtseva, C. Taylor, &. Francis, S. Zinn et al., Optimal control of induction heating processes Elements of induction heating: design, control, and applications, 1988.

T. Tudorache, V. Fireteanu, B. Magneto-neau, M. Paya, F. Anderhuber et al., Induction-heated cooking appliance using new quasi-resonant ZVS-PWM inverter with power factor correction, transverse flux heating High Power (3 MW) transverse flux inductor for industrial heating Proceedings of the International Conference EPM 2003 Power Control for Pulse Density Modulation Resonant Converters Industrial Electronics IEEE International Symposium on Power-Control Scheme With Constant Switching Frequency in Class-D Inverter for Induction- Heating Jar Application, pp.399-407, 1998.

N. A. Ahmed, High-Frequency Soft-Switching AC Conversion Circuit With Dual-Mode PWM/PDM Control Strategy for High-Power IH Applications, IEEE Transactions on Industrial Electronics, vol.58, issue.4, pp.58-1440, 2011.
DOI : 10.1109/TIE.2010.2050752

S. Chudjuarjeen, ;. Sangswan-;-c, and . Koompai, An Improved LLC Resonant Inverter for Induction-Heating Applications With Asymmetrical Control, Industrial Electronics IEEE Transactions on, issue.s, pp.58-2915, 2011.

O. Fishman and N. Vladimir, « Gradient induction heating of a workpiece, 2009.

P. H. Ha, H. Fujita, K. Ozaki, and N. Uchida, Analysis and Control of the Heat Distribution in a Zone-Control Induction Heating System, International Power Electronics Conference, pp.21-24, 2010.

S. O. Fishman, R. K. Lampi, J. H. Mortimer, and V. A. , Peyshakhovich, «Induction heating device and process for controlling temperature distribution, 2000.

H. Fujita-;-n, . Uchida-;-k, and . Ozaki, A New Zone-Control Induction Heating System Using Multiple Inverter Units Applicable Under Mutual Magnetic Coupling Conditions, IEEE Transactions on Power Electronics, vol.26, issue.7, pp.2009-2017, 2011.
DOI : 10.1109/TPEL.2010.2101084

A. Schonknecht, A. , and R. W. De-doncker, Novel topology for parallel connection of soft-switching high-power high-frequency inverters, Industry Applications IEEE Transactions on J. Acero, vol.16, issue.2s, pp.550-555, 2003.

O. M. Lucia-;-j, . A. Burdio-;-l, C. Barragan, ;. J. Carretero, and . Acero, Series Resonant Multiinverter with Discontinuous-Mode Control for Improved Light-Load Operation, IEEE Transactions on Industrial Electronics, vol.58, issue.11, pp.58-5163, 2011.
DOI : 10.1109/TIE.2011.2126541

M. Souley, J. Egalon, S. Caux, O. Pateau, and P. Maussion, Modeling and control of a multi phase induction system for metal disc heating, IECON 2010 -36th Annual Conference on IEEE Industrial Electronics Society, pp.562-567, 2010.

J. Egalon, S. Caux, P. Maussion, M. Souley, O. Pateau-]-g et al., Multiphase induction system for metal disc heating: modeling and RMS-value control Modélisation couplées des dispositifs électromagnétiques associés à des circuits d'électronique de puissance. Intégration de la commande des convertisseurs -Aide à la conception d'un dispositifs de chauffage par induction à flux transverse, 2002.

M. Souley, A. Spagnolo, O. Pateau, B. Paya, J. Hapiot et al., Characterization methodology for the impedance matrix of multi-coil induction heating device, 6th International Conference on Electromagnetic Processing, 2009.

M. Souley, P. Maussion, P. Ladoux, and O. Pateau, Simplified model of a metal disc induction heating system, HES-10, International Symposium on Heating by Electromagnetic Sources, 2010.

M. Zlobina, S. Galunin, Y. Blinov, B. Nacke, A. Nikanorov et al., Numerical modeling of non-linear transverse flux heating systems, International Scientific Colloquium, Modeling for Electromagnetic Processing, 2003.

C. Carretero, ;. J. Acero, ;. M. Burdio-;-f, and . Monterde, Temperature Influence on Equivalent Impedance and Efficiency of Inductor Systems for Domestic Induction Heating Appliances, APEC 07, Twenty-Second Annual IEEE Applied Power Electronics Conference and Exposition, pp.1233-1239
DOI : 10.1109/APEX.2007.357672