Takashi_Hikihara

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  1. Åŵ¤³Ø²ñ¼§µ¤Éâ¾å±þÍѵ»½ÑÄ´ººÀìÌç°Ñ°÷²ñÊÔ¡¤ ¼§µ¤Éâ¾å¤È¼§µ¤¼´¼õ¡¤¥³¥í¥Ê¼Ò¡¤pp.134-136 (1993).
  2. ÅŻҾðÊóÄÌ¿®³Ø²ñ¡¤¥Ï¥ó¥É¥Ö¥Ã¥¯¡¤¥ª¡¼¥à¼Ò¡¤4.17Êԡʶ¦Ãø¡Ë (1998).
  3. ¥«¥ª¥¹¡¦¥¤¥ó¥Ñ¥¯¥È¡¤¿¹Ë̽ÐÈÇ (1999)¡Ê¶¦Ìõ¡Ë
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  5. Handbook of Chaos Control (2007, Wiley-VCH), Eds. by Eckehard Schoel and Heinz Georg Schuster http
  6. Applications of Nonlinear Dynamics: Model and Design of Complex Systems (2007, Springer). Eds. by Visarath In, Patrick Longhini, and Antonio Palacios, pp. 287-296.
  7. Nonlinear Dynamics of Nanosystem, Wiley-VCH Verlag (2010 Spring). http
  8. Coherent swing instability of interconnected power grids and a mechanism of cascading failure, in Control and Optimization Methods for Electric Smart Grids (Y. Susuki, I. Mezic, and T. Hikihara), (eds. A. Chakrabortty and M.D. Ilic) Chapter 9 (Springer, January 2012).
  9. ¿¶Æ°¡¦ÇÈÆ°¡¦¸÷¡¤¥µ¥¤¥¨¥ó¥¹¼Ò¡Ê¶¦Ãø¡§°ú¸¶Î´»Î¡¤ÃæÀ¾½ÓÇî¡Ë(2020)

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  1. °ú¸¶Î´»Î¡¤¼§µ¤Éâ¾å¥·¥¹¥Æ¥à¡Ê¡Ö¹©³Ø¤Ë¤ª¤±¤ë¥«¥ª¥¹Æý¸¹æ¡×¡Ë, ¥·¥¹¥Æ¥à/À©¸æ/¾ðÊó, Vol.37 (11), pp.677-678 (1993). fileISCIE1993_Vol37_11.pdf
  2. °ú¸¶Î´»Î¡¤¥Ñ¥ï¡¼¥¨¥ì¥¯¥È¥í¥Ë¥¯¥¹¤ÈÈóÀþ·ÁÎϳؤÎÀÜÅÀ, Systems Control and Information, 41 (7), pp.240-245 (1997). https
  3. °ú¸¶Î´»Î¡¤¼§µ¤ÃÆÀ­Ï¢º¿·Ï¤Î»þ¶õÈóÀþ·Á¸½¾Ý--Ê£»¨·ÏŪ»ëÅÀ--¡¤ ÆüËÜAEM³Ø²ñ»ï, Vol. 5 (4), pp.6-13 (1998).pdf
  4. °ú¸¶Î´»Î¡¤¼§µ¤Éâ¾å·Ï¤Ë¤ª¤±¤ëÈóÀþ·Áµ»½Ñ¡¤Åŵ¤³Ø²ñÏÀʸ»ï£Äʬºý, Vol.119-D (3), pp. 279-281(1999) ¡¥pdf
  5. °ú¸¶Î´»Î, Åż§ÎϤ˴ؤï¤ëÈóÀþ·¿ÎϳؤδðÁø¦µæ¤Î°ìÊý¸þÀ­, ÆüËÜAEM³Ø²ñ»ï, Vol.8 (3), 321-326 (2000) .pdf
  6. °ú¸¶Î´»Î, ¥¹¥¤¥Ã¥Á¥ó¥°²óÏ©¤Î¥Ï¥¤¥Ö¥ê¥Ã¥É¥À¥¤¥Ê¥ß¥¯¥¹¤ÈÀ©¸æ, ¥·¥¹¥Æ¥à/À©¸æ/¾ðÊó, ²òÀâ, Vol. 46 (3), pp.150-155 (2002).pdf
  7. °ú¸¶Î´»Î, ¥¹¥¤¥Ã¥Á¥ó¥°²óÏ©¤ÎÈóÀþ·Á¥À¥¤¥Ê¥ß¥¯¥¹¤È¤½¤Î²òÀÏ, ·×¬¤ÈÀ©¸æ, ²òÀâ, Vol. 44 (7), pp.440-445 (2005).pdf
  8. Çö¡¡ÎÉɧ, °ú¸¶Î´»Î, ÅÅÎϥͥåȥ¥¯¤Î¥Ï¥¤¥Ö¥ê¥Ã¥É¥À¥¤¥Ê¥ß¥¯¥¹: ¥â¥Ç¥ë, ²òÀÏ, À©¸æ¡¤¥·¥¹¥Æ¥à/À©¸æ/¾ðÊó¡¤ Vol. 51, No. 11, pp. 487-492 (2007).pdf
  9. »³Ëö¹ÌÊ¿¡¤°ú¸¶Î´»Î¡¤¸¶»Ò´ÖÎϸ²Èù¶À¤Ë¤ª¤±¤ëÀ©¸æ±þÍѤȤ½¤ÎŸ˾¡¤¥·¥¹¥Æ¥à/À©¸æ/¾ðÊ󡤲òÀ⡤Vol.53(6), pp.236-142 (2009).pdf
  10. »³Ëö¹ÌÊ¿¡¤°ú¸¶Î´»Î¡¤Ãٱ䵢´Ô¤òÍѤ¤¤¿¥À¥¤¥Ê¥ß¥Ã¥¯¥â¡¼¥É¸¶»Ò´ÖÎϸ²Èù¶À¤Î¥«¥ó¥Á¥ì¥Ð¡¼¿¶Æ°¤Î°ÂÄê²½¡¤¸²Èù¶À¡¤Vol.45, No.2, 137-139 (2010). pdf
  11. °ú¸¶Î´»Î¡¤ÅÅÎϤΥѥ±¥Ã¥È²½¤È¥ë¡¼¥Æ¥£¥ó¥°µ»½Ñ¡¤¾ðÊó½èÍý¡¤Vol.51, No.8, pp.943-950 (2010). pdf
  12. °ú¸¶Î´»Î¡¤¥·¥¹¥Æ¥à/À©¸æ/¾ðÊó¡¤Å¸Ë¾¡§ICT¤È¤ÎÍ»¹ç¤Ë¤è¤ë¥¨¥Í¥ë¥®¡¼¥·¥¹¥Æ¥à¤ÎŸ³«¤ÈÊý¸þÀ­¡¤Vol.55(6) , 215-220 (2011).pdf
  13. °ú¸¶Î´»Î¡¤ÈóÀþ·Á¤ò¼ê¤Ê¤Å¤±¤Æ¡¤ÅŻҾðÊóÄÌ¿®³Ø²ñ»ï¡ÖÈóÀþ·ÁÍýÏÀ¤È¤½¤Î±þÍÑÆý¸¡×¡¤Vol.98, No.11, 1007-1011(2015). fileIEICE1007-1011_ÅÅÄ̲ñ»ï11·î_04.pdf
  14. °ú¸¶Î´»Î¡¤ÈóÀþ·ÁÌäÂê¤ÎÍý²ò¤òĶ¤¨¤Æ -- ¿·¤·¤¤Ê¬Ìî¤Ø¤ÎŸ³« --¡¤ÅŻҾðÊóÄÌ¿®³Ø²ñ»ï¡¤ÁÏΩ100¼þǯµ­Ç°Æý¸¡Ö´ðÁᦶ­³¦¡×¤¬»Ù¤¨¤¿100ǯ¡¤¤³¤ì¤«¤é¤Î100ǯ]¡¤6·î¹æ, 409-413 (2017). site¡¥filek100_6_409.pdf
  15. °ú¸¶Î´»Î¡¤<»þ¤Î²ÝÂê>³Ø½Ñ¾ðÊóήÄ̤ȥª¡¼¥×¥ó¥¢¥¯¥»¥¹ --¥¸¥ã¡¼¥Ê¥ëÌäÂê¤Îº¬¸»Åª²ÝÂê--¡¤IDE : ¸½Âå¤Î¹âÅù¶µ°é 636 59-62, 2021-12. KURENAI
  16. °ú¸¶Î´»Î¡¤ÅŻҿ޽ñ´Û¤«¤é¥Ç¥¸¥¿¥ë¥¢¡¼¥«¥¤¥Ö¤Ø¡¤¥Ç¥¸¥¿¥ë¡¦¥¢¡¼¥«¥¤¥Ö³Ø²ñ»ï¡¤2022 ǯ 6 ´¬ s1 ¹æ p. s29-s30 (2022.6.1). doi

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  1. Y. Ueda, T. Hikihara and C. Uenosono, An Experimental Study of Flux-Linkage Relations in a Synchronous Generator at Steady States, Memoirs of Faculty of Engineering, Kyoto University, Vol.48, No.2, pp.178-194 (1986-2). KURENAI
  2. °ú¸¶Î´»Î¡¤¾åÅÄû»Î¼¡¤¾åÇ·±à¿Æº´¡¤²áÅÏ»þ¤Ë¤ª¤±¤ëƱ´üȯÅŵ¡¤Î¼§Â«µóÆ°¡¡ ¡Ý¡¡»»ÄêË¡¤ª¤è¤Ó¼Â¬·ë²Ì¡¡¡Ý¡¤ÅųØÏÀ»ï£Äʬºý¡¤Vol.107D, No.5, pp.628-634 (1987-5). pdf
  3. °ú¸¶Î´»Î¡¤¾åÅÄû»Î¼¡¤¾åÇ·±à¿Æº´¡¤²áÅÏ»þ¤Ë¤ª¤±¤ëƱ´üȯÅŵ¡¤Î¼§Â«µóÆ°¡¡ ¡Ý¡¡»»ÄêË¡¤ª¤è¤Ó¼Â¬·ë²Ì¡¡+°ú¸¶Î´»Î¡¤¾åÅÄû»Î¼¡¤¾åÇ·±à¿Æº´¡¤Ë°Ï¤òÍ­¤¹¤ëƱ´üȯÅŵ¡¤ÎÀþ·Á²½¥â¥Ç¥ë¡¤ ÅųØÏÀ»ï£Äʬºý¡¤Vol.107D, No.8, pp. 1049-1056 (1987-8). pdf
  4. °ú¸¶Î´»Î¡¤¾åÅÄû»Î¼¡¤¾åÇ·±à¿Æº´¡¤Æ±´üȯÅŵ¡¤ÎæĴ»þ¤Î¼§Â«µóÆ°¤Ë´ð¤Å¤¯²áÅÏÆÃÀ­ ¡Ý²áÅÏ»þ¤ÎÆÃÀ­É½¸½¤ÎʪÍýŪ°ÕÌ£¡Ý¡¤ÅųØÏÀ»ï£Äʬºý¡¤ Vol.108D, No.4, pp.253-260 (1988-4). pdf
  5. Y. Ueda, H. Nakajima, T. Hikihara and H. Bruce Stewart, Forced Two-Well Potential Duffing's Oscillator, Dynamical Systems Approaches to Nonlinear Problems in Systems and Circuits, Edited by Fathi M. A. Salam and Mark L. Levi, SIAM , pp.128-137 (1988). https
  6. T. Hikihara and T. Okajima, Physical Meaning of Potier Triangle Based on the Analysis of Magnetic Flux Saturation, IEEE, Trans. on Magnetics, Vol.24, No.5, pp.2186-2193 (1988-9). doi
  7. Ê¿Åĵü¡¤°ú¸¶Î´»Î¡¤Ê¿º¬Á±µ×¡¤£Ì£É£Í¤òÍѤ¤¤¿¸òήµÛ°ú·Á¼§µ¤Éâ¾å¥·¥¹¥Æ¥à¤Î Éâ¾åÆÃÀ­¡¤ÅųØÏÀ»ï£Ä¡¤110´¬¡¤10¹æ¡¤pp.1091Ž°1099¡¡(1990-10), (English Translation) Suspension Characteristics of Magnetic Suspension System by Linear Induction Motor, Electrical Engineering in Japan, Vol.111, No.3, pp.136-144.doi
  8. T. Hikihara and Y. Hirane, Simulated levitation characteristics of magnetic suspension system by linear induction motor, Int. J. Appl. Elec. Materials, Vol.3, No.2, pp.73-85 (1992). fileSimulated levitation characteristics of magnetic suspension system by linear induction motor(Elsevier)-°µ½Ì.pdf
  9. T. Hikihara and Y. Hirane, A Measurement of Magnetic Field Vector - Application of Magneto-Birefringence Effect by Magnetic Fluid, IEEE Trans. in Industrial Electronics, Vol. 39, No. 5, pp.392-397 (1992). doi
  10. °ú¸¶Î´»Î¡¤¾®À¾¹°¡¤Ê¿º¬Á±µ×¡¤£Ì£É£Í¤Ë¤è¤ë¼§µ¤Éâ¾å¥·¥¹¥Æ¥à¤Î¼ÂÍѲ½ÈÂÁ÷¼Ö¤Ë´Ø¤¹¤ë ¸¦µæ¡¤Åŵ¤³Ø²ñÏÀʸ»ï£Ä¡¤Vol.112D, No.12, pp.1194-1199 (1992-12). doi
  11. °ú¸¶Î´»Î¡¤¹âÀ¥Åß¿Í¡¤Æ±´üȯÅŵ¡¤ÎÆâÉô¼§Â«¤Ë´ð¤Å¤¯Éé²ÙË°ÏÂÆÃÀ­¤Ë¤Ä¤¤¤Æ¡¤ Åŵ¤³Ø²ñÏÀʸ»ï£Ä¡¤Vol.113D, No.2, pp.216-222 (1993-2). pdf
  12. ¹âÀ¥Åß¿Í¡¤Ä«ÁÒ¹§À롤°ú¸¶Î´»Î¡¤¾¾Â¼Ç¯Ïº¡¤¾åÅÄû»Î¼¡¤Æ±´üµ¡¤ÎµÕÁêÅÅή¤Ë¤è¤êÀ¸¤¸¤ëÎíÁêÅÅ°µ¡¤ Åŵ¤³Ø²ñÏÀʸ»ï£Ä¡¤Vol.113D, No.5, pp.381-386 (1993-5). pdf
  13. T.Hikihara and F.C.Moon, Chaotic levitated motion of a magnet supported by superconductor, Physics Letters A 191, pp.279-284 (1994-8-15). doi
  14. °ú¸¶Î´»Î¡¤¾åÛêÉð»Ë¡¤Ê¿º¬Á±µ×¡¤¸òήµÛ°ú·ÁÉâ¾åÈÂÁ÷·óÍѣ̣ɣͤÎÁö¹Ô¼Â¸³¡¤ Åŵ¤³Ø²ñÏÀʸ»ï£Ä¡¤Vol.115-D, No.3, pp.282-286 (1995-3).doi
  15. T.Hikihara and F.C.Moon, Levitation drift of a magnet supported by a high-Tc superconductor under vibration, Physica C, 250, pp.121-127 (1995-8). doi
  16. T.Hikihara and T.Kawagoshi, An experimental study on stabilization of unstable periodic motion in magneto-elastic chaos, Physics Letters A, 211, pp.29-36 (1996-1). doi
  17. T.Hikihara and G.Isozumi, Modeling of lateral force-displacement hysteresis caused by local flux pinning, Physica C, 270, 68-74 (1996-10). doi
  18. T.Hikihara, T.Fujinami and F.C.Moon, Bifurcation and multifractal vibration in dynamics of a high-Tc superconducting levitation system, Phys. Lett. A, 231, pp. 217-223 (1997-7). doi
  19. T.Hikihara and S.Ueshima, Emergent synchronization in multi-elevator system and dispatching control, Trans. IEICE Vol.E80-A, No.9, pp. 548-554 (1997-9). pdf
  20. T.Hikihara, H.Adachi, S.Ohashi, Y.Hirane and Y.Ueda, Levitation drift of flywheel and HTSC bearing system caused by mechanical resonance, Physica C, 291, 1&2, pp.34-40 (1997-12). doi
  21. T.Hikihara, M.Touno and T.Kawagoshi, Stabilization of unstable periodic orbit in magneto-elastic chaos by delayed feedback control, Int. J. of Bif. & Chaos, Vol. 7, No. 12 (1997) pp.2837-2846. doi
  22. T.Hikihara, Y.Okamoto and Y.Ueda, An experimental spatio-temporal state transition of coupled magneto-elastic system, Chaos, Vol. 7, No.4, (1998) pp.810-816. doi
  23. °æ¾å ³¾¡¤°ú¸¶Î´»Î¡¤ÃÆÀ­¼´¤òÍ­¤¹¤ë¥í¡¼¥¿·Ï¤Î¤Õ¤ì¤Þ¤ï¤ê¤Ëȼ¤¦ ²óž®ÅÙʬ´ô¸½¾Ý, Åŵ¤³Ø²ñÏÀʸ»ï£Äʬºý¡¤Vol.118-D, No.11 (1998) pp. 1266-1271. doi
  24. K.Inoue, T.Ushio and T.Hikihara, Bifurcation and hunting phenomena of rotating speed in a flexible rotor system caused by whirling motion, Int. J.Bif. & Chaos, Vol. 9, No. 8, pp.1675-1684 (1999). doi
  25. T.Hikihara, Y.Kondo and Y.Ueda, Stress Wave Propagation in One-Dimensionally Coupled Stick-Slip Pendulums, IEICE Trans. on Fundamentals, Vol. E82-A, No.10 (1999). pdf
  26. T.Hikihara and Y.Ueda, An expansion of system with time delayed feedback control to spatio-temporal state space, Chaos, Vol. 9, No. 4, pp. 887-892 (1999). doi
  27. S.Ohashi, Y.Hirane and T.Hikihara, Three-Dimensional Vibration of the Rotor in the HTSC-Permanent Magnet Flywheel System, IEEE Trans. on MAG, Vol.35, No.5 (1999-9) 4037-4039. doi
  28. °æ¾å³¾¡¤»³ËÜÌС¤Ä¬½Ó¸÷¡¤°ú¸¶Î´»Î¡¤ÃÆÀ­¥í¡¼¥¿·Ï¤Î¶¦¿¶»þ¤Ë¤ª¤±¤ëµóÆ°¤È¤½¤Î¥È¥ë¥¯¤ò ÍѤ¤¤¿À©¸æ¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï Vol.13, No.7 (2000) pp. 300-307. pdf
  29. T.Hikihara, K.Torii and Y.Ueda, Wave and Basin Structure in Spatially Coupled Magneto-Elastic Beam System --- Transition between Coexisting Wave Solutions ----, Int. J. of Bif. and Chaos, Vol.11, No.4, pp.999-1018 (2001). doi
  30. T.Hikihara, K.Torii and Y.Ueda, Quasi-Periodic Wave and Its Bifurcation in Coupled Magneto-Elastic Beam System, Physics Letters A 281, pp.155-160 (2001.3). doi
  31. °ú¸¶Î´»Î, µÈÅÄÃμù, ¾åÅÄû»Î¼, ²Ã¿¶Çö¹ÝÈĤÎÀþ·ÁÎϳإâ¥Ç¥ë¤È¤½¤ÎŬÍѸ³¦, Åŵ¤³Ø²ñÏÀʸ»ï D, Vol. 122-D, No.2, pp.156-161 (2002. 2). doi
  32. Y.Susuki and T.Hikihara, An analytical criterion for stability boundaries of non-autonomous systems based on Melnikov's method, ¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï, 15(11), 586-592 (2002) doi
  33. K.Inoue, S.Yamamoto, T.Ushio, and T.Hikihara, Torque Based Control of Whirling Motion in a Rotating Electric Machine under Mechanical Resonance, IEEE Transactions on Control Systems Technology IEEE Trans. on Control Systems and Technology, Vol.11, No.3, 335-344 (2003). doi
  34. ´äº¬ÍµÅµ¡¤½®Ìڹ䡤°ú¸¶Î´»Î¡¤»°ÁêÉÔÊ¿¹ÕÊä½þ¤ò¹Íθ¤·¤¿Ã±ÁêÂÀÍÛ¸÷ȯÅÅ¥·¥¹¥Æ¥à¤Î·ÏÅýÏ¢·Ï¼êË¡, Åŵ¤³Ø²ñÏÀʸ»ïD, Vol. 124-D, No. 2, pp. 215-222 (2004). pdf
  35. K.Yamasue & T.Hikihara, Domain of attraction for stabilized orbits in time-delayed feedback-controlled Duffing systems, Physical Review E, 69, 056209 (2004). doi
  36. Y. Susuki, T. Hikihara and H. -D. Chiang, Stability boundaries analysis of electric power system with dc transmission based on differential-algebraic equation system, IEICE Transactions on Fundamentals of Electronics, Communications and Comuter Science, E87-A(9), 2339-2346 (2004). repository
  37. S.Miyamoto & T.Hikihara, Dynamical behavior of fluxoid and arrangement of pinning center in superconductor based on TDGL equation, Physica C, Vol 417/1-2 pp 7-16 (2004). doi
  38. T.Funaki & T.Hikihara, A Jitter Less VCO Model in PLL for EMTP Simulation, Trans. IEE, Japan, Vol.124B, Nol.11, 1381-1382 (2004). doi
  39. T. Funaki, J. C. Balda, J. Junghans, A. S. Kashyap, F. D. Barlow, H. A Mantooth, T. Kimoto,and T. Hikihara, SiC JFET dc Characteristics Under Extremely High Ambient Temperatures, IEICE Electronics Express, Vol. 1, No. 17, pp.523-527, (December 10, 2004 issue). doi
  40. T. Funaki, J. C. Balda, J. Junghans, A. Jangwanitlert, S. Mounce, F. D. Barlow, H. A. Mantooth,T. Kimoto,and T. Hikihara, Switching characteristics of SiC JFET and Schottky diode in high-temperature dc-dc power converter, IEICE Electronics Express, Vol. 2, No. 3, pp.97-102, (Feb. 10, 2005 issue). doi
  41. Y.Susuki & T.Hikihara, Transient dynamics in electric power system with dc transmission: Fractal growth in stability boundary, IEE Proceedings - Circuits, Devices and Systems, vol. 152, no. 2, pp. 159-164, April (2005). doi
  42. K. Asano, T. Funaki, Y. Sugawara, and T. Hikihara, Simple circuit model of SiC pin diode composed by using experimental electrical characteristics, IEICE Electronics Express, vol. 2, no. 13 pp. 392-398 (2005). doi
  43. Y.Susuki & T.Hikihara, Transient dynamics in electric power system with dc transmission: Fractal growth in stability boundary, IEE Proceedings - Circuits, Devices and Systems, vol. 152, no. 2, pp. 159-164, April (2005). doi
  44. K. Asano, T. Funaki, Y. Sugawara, and T. Hikihara, Simple circuit model of SiC pin diode composed by using experimental electrical characteristics, IEICE Electronics Express, vol. 2, no. 13 pp. 392-398 (2005). doi
  45. Hongmei Li and T.Hikihara, Limit Cycle of Induction Motor Drive and Its Control, IEICE Transactions on Fundamentals of Electronics, Communications and Comuter Science, Vol.E88-A No.10 pp.2521-2526 (2005). doi
  46. Hongmei Li and T.Hikihara. Sustained oscillation of an inverter-fed induction motor drive system and its stabilization, KIEE Journal of Electrical Engineering & Technology, 2006(1): 80~84. doi
  47. K.Yamasue and T.Hikihara, Persistence of chaos in a time-delayed-feedback controlled Duffing system, Physical Review E 73, 036209 (2006). doi
  48. K.Yamasue and T.Hikihara, Control of microcantilevers in dynamic force microscopy using time delayed feedback, Rev. Sci. Instrum., 77(5), 053703 (2006). doi
  49. T.Funaki, S. Matsuzaki, T. Kimoto, and T. Hikihara, Characterization of punch-through phenomenon in SiC-SBD by capacitance-voltage measurement at high reverse bias voltage, IEICE Electron. Express, 3(16), 379-384, (2006). doi
  50. T.Funaki, J. C. Balda, J. Junghans, A. S. Kashyap, H. A. Mantooth, F. Barlow, T. Kimoto, and T. Hikihara, Power Conversion With SiC Devices at Extremely High Ambient Temperatures, IEEE trans. on Power Electronics, Vol. 22, No. 4, pp.1321-1329, (2007). doi
  51. Y. Susuki, Y. Yokoi, and T. Hikihara, Energy-based analysis of frequency entrainment described by van der Pol and PLL equations, CHAOS: An Interdisciplinary Journal of Nonlinear Science, Vol. 17, No. 2, June (2007) 023108. doi
  52. T. Hikihara, T. Sawada, and T. Funaki, Enhanced Entrainment of Synchronous Inverters for Distributed Power Sources, IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, Vol. E90-A, No. 11, pp. 2516-2525, November (2007). doi
  53. M. Sato, S. Yasui, M. Kimura, T. Hikihara and A.J. Sievers, Management of localized energy in discrete nonlinear transmission lines, EPL, 80 (2007) 30002. doi
  54. ÍûÌÀ²Ú¡¤½®ÌÚ ¹ä¡¤°ú¸¶Î´»Î¡¤¥ì¥Ã¥É¥¯¥¹¥Õ¥í¡¼ÅÅÃӤν¼ÊüÅÅÀÚ´¹¤¨Æ°ÆÃÀ­¤Ë´Ø¤¹¤ë¼Â¸³Åª¸¡Æ¤¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñ, 21(4), April, pp.129-134 (2008). pdf
  55. T. Funaki and T. Hikihara, Characterization and Modeling of the Voltage Dependency of Capacitance and Impedance Frequency Characteristics of Packed EDLCs, IEEE Trans. on PE, 23, 3, pp.1518-1525 (2008). doi
  56. T. Funaki, T. Kimoto, and T. Hikihara, High-Temperature characteristics of SiC Schottky barrier diodes related to physical phenomena, IEICE Electronics Express (ELEX), Vol.5, No.6, pp.198-203, March (2008). doi
  57. T. Funaki, K. Nakagawa, and T. Hikihara, The Origin of Nonlinear Phenomena in TCR-SVC Associated With Parametric Excitation of Intrinsic Oscillation and External Excitation, IEEE Trans. CAS-I, 55, 6 (2008). doi
  58. M.-H Li and T.Hikihara, A Coupled Dynamical Model of Redox Flow Battery based on Chemical Reaction, Fluid Flow, and Electrical Circuit, IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, Vol.E91-A,No.7,pp.1741- 1747, July (2008). doi [http:IEICE]
  59. M.Kimura and T.Hikihara, Stability Change of Intrinsic Localized Mode in Finite Nonlinear Coupled Oscillators, Physics Letters A, Volume 372, Issue 25, 16 June 2008, Pages 4592-4595. doi
  60. T. Funaki, T. Kimoto, and T.Hikihara, Evaluation of High Frequency Switching Capability of SiC Schottky Barrier Diode, Based on Junction Capacitance Model, IEEE Trans. on PE, Volume 23, Issue 5, pp.2602-2611 (2008). doi
  61. ÍûÌÀ²Ú¡¤°ú¸¶Î´»Î¡¤¥ì¥Ã¥É¥¯¥¹¥Õ¥í¡¼ÅÅÃÓ¤ÎÁÈÅÅÃÓ¥·¥¹¥Æ¥à¤Ë¤ª¤±¤ë¥æ¥Ë¥Ã¥È´ÖÁê¸ßºîÍѤÎÆ°ÆÃÀ­¤ÈÀ߷ץѥé¥á¡¼¥¿¤Î¸¡Æ¤¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñ¡¤Âè21ÒË,11¹æ (2008). doi
  62. ÇöÎÉɧ¡¤°ú¸¶Î´»Î¡¤¥Ï¥¤¥Ö¥ê¥Ã¥É¥·¥¹¥Æ¥à¤Î²ÄÅþãÀ­¤Ë¤è¤ëÅÅ°µÉÔ°ÂÄêÀ­¤Î²òÀÏ¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñ¡¤Âè21ÒË,11¹æ, pp.343-348 (2008).¡ÊÏÀʸ¾Þ¡Ë doi
  63. T. Funaki, A. Nishio, T. Kimoto, and T. Hikihara, A study on electro thermal response of SiC power module during high temperature operation, IEICE, ELEX, Vol. 5, No. 16 pp.597-602 (2008). doi
  64. Y.Susuki, Y.Takatsuji, and T.Hikihara, Hybrid model for cascading outage in a power system: A numerical study, IEICE TRANSACTIONS on Fundamentals of Electronics, Communications and Computer Sciences Vol.E92-A No.3 pp.871-879 (2009). doi
  65. M.Kimura and T.Hikihara, Coupled Cantilever Array with Tunable On-site Nonlinearity and Observation of Localized Oscillations, Physics Letters A, 373, 1257-1260 (2009). doi
  66. M.Kimura and T.Hikihara, Capture and Release of Traveling Intrinsic Localized Mode in Coupled Cantilever Array, Chaos, 19, 013138 (2009). doi
  67. T.Funaki, N.Phankong, T.Kimoto, and T.Hikihara, Measuring terminal capacitance and its voltage dependency for high-voltage power device, IEEE PELS, Vol.24, No.6, pp.1486-1493 (2009). doi
  68. B.Kim, V.Putkaradze, and T.Hikihara, Manipulation of single atoms by atomic force microscope as a resonance effect, Phys. Rev. Lett. 102, 215502 (2009). selected to Virtual Journal of Nanoscale Science & Technology, June 8, 2009 issue. doi
  69. K.Yamasue, K.Kobayashi, H.Yamada, K.Matsushige, and T.Hikihara, Controlling chaos in dynamic-mode atomic force microscope, Physics Letters A, Vol.373, Issue 35, 3140-3144 (2009). doi
  70. T.Funaki, H.Arioka, and T.Hikihara, The influence of parasitic components on power MOSFET switching operation in power conversion circuits, IEICE ELEX, Vol. 6, No. 23 pp.1697-1701 (2009). doi
  71. Nathabhat Phankong, Tsuyoshi Funaki, Takashi Hikihara, Characterization of the gate-voltage dependency of input capacitance in a SiC MOSFET, IEICE ELEX, April 10, Vol.7, No.7, 480-486 (2010). doi
  72. Nathabhat Phankong, Tsuyoshi Funaki, Takashi Hikihara, Switching characteristics of lateral-type and vertical-type SiC JFETs depending on their internal parasitic capacitances, IEICE ELEX, Vo;.7, No.4, 1051-1057 (2010). doi
  73. Munehisa Sekikawa, Naohiko Inaba, Tetsuya Yoshinaga, and Takashi Hikihara, Period-Doubling Cascades of Canards from the Extended Bonhoeffer-van der Pol Oscillator, Physics Letters A, Volume 374, Issue 36, 3745-3751 (2010). doi
  74. ²£°æ͵°ì¡¤°ú¸¶Î´»Î¡¤¥Ñ¥é¥á¥È¥ê¥Ã¥¯¿¶»Ò¤Î¼þ´ü²óž¤Ø¤Î»ÏÆ°À©¸æ¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï, Vol.24,No.3, pp.54-60 (2011).¡ÊÏÀʸ¾Þ¡Ë doi
  75. Takashi Hikihara and Yuzo Murakami, Regulation of Parallel Converters with Respect to Stored Energy and Passivity Characteristics, IEICE, Transactions on Fundamentals of Electronics, Communications and Computer Sciences IEICE Trans. E94, No.3, pp.1010-1014 (2011). doi
  76. Yoshihiko Susuki, Igor Mezic, and Takashi Hikihara, Coherent Swing Instability of Power Grids, Journal of Nonlinear Science volume 21, pages403–439 (2011). doi
  77. Suketu Naik and Takashi Hikihara, Characterization of a MEMS resonator with extended hysteresis, IEICE ELEX,Vol.8, No.5, pp.291-298. doi
  78. Yuuichi Yokoi and Takashi Hikihara, Tolerance of start-up control of rotation in parametric pendulum by delayed feedback, Physics Letters A, 375, 17, 1779-1783 (2011). doi
  79. Tsuguhiro Takuno, Yutaro Kitamori, Ryo Takahashi, and Takashi Hikihara, AC Power Routing System in Home Based on Demand and Supply Utilizing Distributed Power Sources, Energies 4(5) 717-726 (2011). (Best Paper Award 2015) doi
  80. Yu Takatsuji, Yoshihiko Susuki, Takashi Hikihara, Hybrid Controller for Safe Microgrid Operation, Nonlinear Theory and Its Applications, IEICE, Vol. 2, No. 3 pp.347-362 (2011). doi
  81. A. Castellazzi, T. Takuno, R. Ohnishi, T.Funaki, T.Kimoto, and T.Hikiihara, A study of SiC Power BJT performance and robustness, Microelectronics Reliability, Vol. 51, Iss. 9–11, September–November 2011, 1773-1777. doi
  82. Y. Susuki, T. J. Koo, H. Ebina, T. Yamazaki, T. Ochi, T. Uemura, and T. Hikihara, A Hybrid System Approach to the Analysis and Design of Power Grid Dynamic Performance, Proceedings of the IEEE, Volume 100, Issue 1, 225-239 (2012). doi
  83. Suketu Naik, Takashi Hikihara, Antonio Palacios, Visarath In, Huy Vu, and Patrick Longhini, Characterization of Synchronization in a Unidirectionally Coupled System of Nonlinear Micromechanical Resonators, Sensors and Actuators A: Physical, 171(2), 361-369, November (2011). doi
  84. Suketu Naik, Takashi Hikihara, Huy Vu, Antonio Palacios, Visarath In, and Patrick Longhini, Local Bifurcations of Synchronization in Self-excited and Forced Unidirectionally Coupled Micromechanical Resonators, Journal of Sound and Vibration, 331(5), 1127-1142, February (2012). doi
  85. Masataka Minami and Takashi Hikihara, Reconstitution of Potential Function by Power Spectra of Trajectories in Nonlinear Dynamical Systems, IEICE EA (2), 613-616. doi
  86. Masayuki Kimura, Takashi Hikihara, Experimental manipulation of intrinsic localized modes in macro-mechanical system, Nonlinear Theory and Its Applications, IEICE Vol. 3, No. 2 pp.233-245 (2012). doi
  87. Ryo Takahashi, Tsuguhiro Takuno and Takashi Hikihara, Estimation of Power Packet Transfer Properties on Indoor Power Line Channel, Energies, 5(7), 2141-2149 (2012). doi
  88. Atsushi Yao and Takashi Hikihara, Reading and writing operations of memory device in micro-electromechanical resonator, ELEX, IEICE Vol. 9, No. 14, pp. 1230-1236 (2012). doi
  89. Æî À¯¹§, °ú¸¶ δ»Î, ¼õÆ°À­¤Ë´ð¤Å¤¯Ê¬»¶·¿ÅŸ»¤ÎÇÛÅÅ·ÏÅýÏ¢·ÏÀ©¸æÊý¼°¤Ë´Ø¤¹¤ë¸¡Æ¤, ¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï, Vol. 25, No. 10, pp. 257-265, October (2012). pdf
  90. T. Hikihara, P. Holmes, T. Kambe, G. Rega, Introduction to the focus issue: Fifty years of chaos: Applied and theoretical, Chaos, 2012, Vol. 22, No.4, p. 047501. doi
  91. Akihiro Yamamoto, Masayuki Kimura, Takashi Hikihara, Indirect magnetic suspension by an actively controlled permanent magnet, Nonlinear Theory and Its Applications, IEICE, Vol. 4 , No. 3, 284-298 (2013). doi
  92. ÆîÀ¯¹§¡¤°ú¸¶Î´»Î¡¤Ê¬»¶·¿ÅŸ»¤Î¼õÆ°À­¤Ë´ð¤Å¤¯ÌÜɸÃÍÄɽ¾¤ª¤è¤Ó·ÏÅýÏ¢·ÈÀ©¸æ¼êË¡¡¼½Ö»þÅÅ°µÄã²¼¤ÎÂÑÀ­¤Ë¤Ä¤¤¤Æ¡¼¡¤Åŵ¤³Ø²ñÏÀʸ»ïD¡¤Vol.133, No. 7, 685-691(2013). doi
  93. So Miyatake, Yoshihiko Susuki, Takashi Hikihara, Syuichi Itoh, and Kenichi Tanaka, Discharge characteristics of multicell lithium-ion battery with nonuniform cells, Journal of Power Sources, Vol. 241, 736-743(2013). doi
  94. Yoshihiko Susuki, Ryoya Kazaoka, and Takashi Hikihara, Physical architecture and model-based evaluation of electric power system with multiple homes, IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, Vol. E96-A No. 8, 1703-1711(2013). doi
  95. Atsushi Yao and Takashi Hikihara, Counter operation in nonlinear micro-electro-mechanical resonators, Physics Letters A Volume 377, Issue 38, pp. 2551–2555, 2013. doi
  96. Ryo Takahashi, Yutaro Kitamori, and Takashi Hikihara , AC Power Local Network with Multiple Power Routers, Energies, 6(12), 6293-6303 (2013). doi
  97. Alexandros Kordonis and Takashi HIkihara, Harmonic Reduction and Chaotic Operation towards Application of AC/AC Converter with Feedback Control, IEICE Trans. on Fundamentals of Electronics, Communications and Computer Science, Vol. E97-A, No.3, pp.840-847 (2014). doi
  98. ÆìÅÄ¿®ºÈ¡¤¹â¶¶Î¼¡¤°ú¸¶Î´»Î¡¤ ÅÅÎϥѥ±¥Ã¥È¤Ë¤è¤ë¥¨¥Í¥ë¥®¡¼É½¸½¤ÎÁ²¶áŪÀ­¼Á¡¤ ÅŻҾðÊóÄÌ¿®³Ø²ñÏÂʸÏÀʸ»ï, Vol.J97-A,No.9,pp.584-592 (2014)¡ÊÏÀʸ¾Þ¡¤´î°ÂÁ±»Ô¾Þ¡Ë
  99. Madoka Kubota, Vakhtang Putkradze, and Takashi Hikihara, "Energy absorption at synchronization in phase between coupled Duffing systems", International Journal of Dynamics and Control (IJDY), Vol. 3, 189–194 (2015). doi
  100. À±Ìî¸÷¡¤ÇöÎÉɧ¡¤°ú¸¶Î´»Î¡¤2¥µ¥¤¥ÈÃÏ°èÅÅÇ®¶¡µë¥·¥¹¥Æ¥à¤Î°ÂÄêÀ­ ¡¼Ç®Í»ÄÌ»ØÎáÃͤΥ¹¥Æ¥Ã¥×¾õÊѲ½¤ËÂФ¹¤ë¿ôÃÍŪ¸¡Æ¤¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï¡¤Vol.27, No.11, pp.452-460 (2014).¡ÊÏÀʸ¾Þ¡Ë doi
  101. Atsushi Yao and Takashi Hikihara, "Logic-Memory Device of a Mechanical Resonator", Appl. Phys. Lett. 105, 123104 (2014) doi
  102. Yanzi Zhou, Ryo Takahashi, and Takashi Hikihara, "Realization of Autonomous Clock Synchronization for Power Packet Dispatching", IEICE Trans. A, Vol.E98-A, No.2, pp.749-753 (2015). doi
  103. R.Takahashi, K.Tashiro, and T.Hikihara, "Router for Power Packet Distribution Network: Design and Experimental Verification", IEEE Trans. on Smart Grid, Vol.6, No.2, pp.618-626 (2015). doi
  104. Alexandros Kordonis and Takashi Hikihara, "Dynamic model of direct matrix converter and its experimental validation", Int. J. Circ. Theor. Appl., Vol.44, Iss.1, 213-225.(2015). doi
  105. Madoka Kubota, Ryo Takahashi, and Takashi Hikihara, Active and Reactive Power in Stochastic Resonance for Energy Harvesting, IEICE Transactions 98-A(7): 1537-1539 (2015)¡¥ doi
  106. »³¸ý ²Âɧ, Çö ÎÉɧ, °ú¸¶ δ»Î, Ê£¿ô²ÈÄí¤Ç¹½À®¤µ¤ì¤ëÅÅÎÏ¥·¥¹¥Æ¥à¤ÎÃßÅÅÃÓ¤òÍѤ¤¤¿½ÐÎÏÊ¿³ê²½À©¸æ, ¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï, Vol.28, No.7, 299-309 (2015). doi
  107. Alexandros Kordonis , Ryo Takahashi, Daichi Nishihara, and Takashi Hikihara, Three-Phase Power Router and its Operation with Matrix Converter toward Smart-Grid Applications, Energies, 8, 3034-3046 (2015). doi
  108. Kohei Nagaoka, Kentaro Chikamatsu, Atsushi Yamaguchi, Ken Nakahara, and Takashi Hikihara, High-speed gate drive circuit for SiC MOSFET by GaN HEMT, IEICE Electronics Express Vol. 12, No. 11 pp. 20150285 (2015).doi pdf
  109. Yanzi Zhou, Ryo Takahashi, Naoaki Fujii, and Takashi Hikihara, Power Packet Dispatching with Second-Order Clock Synchronization, International Journal of Circuit Theory and Applications, Vol.44, Iss.3, 729-743 (2016). doi
  110. Fredric Raak, Yoshihiko Susuki, and Takashi HIkihara, Data-driven partitioning of power networks via Koopman mode analysis, IEEE Transactions on Power Systems. Vol.31, Iss.4 (July, 2016)doi
  111. H. Hoshino, Y. Susuki, and T. Hikiahra, A Lumped-Parameter Model of Multiscale Dynamics in Steam Supply Systems, ASME Journal of Computational and Nonlinear Dynamics 11(6), 061018 (2016). doi
  112. Yanzi Zhou, Ryo Takahashi, and Takashi Hikihara, Power Packet Dispatching with Features on Safety, NOLTA, IEICE, Vol.7, No.2, 250-265 (2016.4.1). doi
  113. Edmon Perkins, Masayuki Kimura, Takashi Hikihara, and Balakumar Balachandran, Effects of Noise on Symmetric Intrinsic Localized Modes, Nonlinear Dynamics, 85(1)(Mar. 2016).doi
  114. Yoshihiko Susuki, Igor Mezic, Fredric. Raak, and Takashi Hikihara, Applied Koopman operator theory for power systems technology, Nonlinear Theory and Its Applications, IEICE, Vol. 7(4), 430-459 (2016). doi
  115. Ryo Takahashi, Shunichi Azuma, and Talkashi Hikihara, Power Regulation with Predictive Dynamic Quantizer in Power Packet Dispatching System, IEEE Transactions on Industrial Electronics, 63(12), pp.7653-7661 (July 18, 2016). doi
  116. Shinya Nawata, Ryo Takahashi, and Takashi Hikihara, "Up-stream Dispatching of Power by Density of Power Packet" IEICE Trans. Vol.E99-A, No.12, pp.2581-2584 (Dec. 1, 2016). doi
  117. Masayuki Kimura, Yasuo Matsushita, Takashi Hikihara, Parametric resonance of intrinsic localized modes in coupled cantilever arrays, Physics Letters A, 380, 2823–2827(2016). doi
  118. Atsushi Yao and Takashi Hikihara, Reprogrammable logic-memory device of a mechanical resonator, International Journal of Non-linear Mechanics, Vol.94, 406-416 (2017). doi
  119. Ryo TAKAHASHI, Shun-ichi AZUMA, Mikio HASEGAWA, Hiroyasu ANDO, and Takashi HIKIHARA, Power Processing for Advanced Power Distribution and Control, IEICE Transaction B Position Paper. doi
  120. Michihiro Shintani, Yohei Nakamura, Masayuki Hiromoto, Takashi Hikihara, and Takashi Sato: ¡ÈMeasurement and Modeling on Gate-Drain Capacitance of Silicon Carbide Vertical MOSFET,¡É Japanese Journal of Applied Physics, Vol.56, No.4S, 04CR07. doi
  121. ²ÏÌîÍÎÊ¿¡¤ÇöÎÉɧ¡¤ÎÓÅĸ÷µª¡¤°ú¸¶Î´»Î¡¤¡É¥Ó¥ëÆ⥢¥È¥ê¥¦¥à¤ÎÇ®°ÜÆ°¥â¥Ç¥ê¥ó¥°¤Ø¤Î¥¯¡¼¥×¥Þ¥ó¥â¡¼¥Éʬ²ò¤ÎŬÍÑ---I---¾®¥¹¥±¡¼¥ëή®¾ì¤Ë¤è¤ëÍ­¸úÇ®³È»¶¡É¡¤·×¬¼«Æ°À©¸æ³Ø²ñÏÀʸ½¸¡¤V0l.53, No.2, 123--133 (2017)¡¥ doi
  122. ²ÏÌîÍÎÊ¿¡¤ÇöÎÉɧ¡¤°ú¸¶Î´»Î¡¤¡É¥Ó¥ëÆ⥢¥È¥ê¥¦¥à¤ÎÇ®°ÜÆ°¥â¥Ç¥ê¥ó¥°¤Ø¤Î¥¯¡¼¥×¥Þ¥ó¥â¡¼¥Éʬ²ò¤ÎŬÍÑ---II---Â祹¥±¡¼¥ëή®¾ì¤Ë¤è¤ë°Üή¡É¡¤·×¬¼«Æ°À©¸æ³Ø²ñÏÀʸ»ï¡¤V0l.53, No.2, 188--197 (2017). doi
  123. À±Ìî¸÷¡¤ÇöÎÉɧ¡¤T.J.Koo¡¤°ú¸¶Î´»Î¡¤2 ¥µ¥¤¥ÈÃϰ襨¥Í¥ë¥®¡¼¥·¥¹¥Æ¥à¤Ë¤ª¤±¤ë¥³¡¼¥¸¥§¥Í¥ì¡¼¥·¥ç¥ó¥æ¥Ë¥Ã¥È¤ÎÈóÀþ·ÁÀ©¸æ ¡½Åŵ¤¤ª¤è¤Ó¥¬¥¹¥Õ¥í¡¼¤ÎƱ»þÄ´À°¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï¡¤Vo.30, No.5, pp.157-166 (2017).
  124. ã·Æ£»Ê, ÇöÎÉɧ, °ú¸¶Î´»Î¡¤²ÈÄíÆâÅÅÎÏ¥·¥¹¥Æ¥à¤Î½ÐÎÏÊ¿½à²½¤Î¤¿¤á¤Î¥â¡¼¥É¥¹¥¤¥Ã¥Á¥ó¥°À©¸æ:¼Âµ¡¼Â¸³¤ÈÀ­Ç½É¾²Á¡¤ÅŻҾðÊóÄÌ¿®³Ø²ñÏÀʸ»ïA, Vol. J100-A, No.5, pp.183-194 (2017). repository
  125. Shiu Mochiyama, Ryo Takahashi, and Takashi Hikihara, Trajectory control of manipulator fed by power packets, International Journal of Circuit Theory and Applications, vol.45, no.6, pp.832--842, (2017). doi
  126. Shiu Mochiyama, Ryo Takahashi, and Takashi Hikihara, Close-loop Angle Control of Stepper Motor Fed by Power Packets, IEICE Trans. A, Vol.E100-A,No.7,pp.1571-1574, Jul. 2017. doi
  127. ÃæÌîÀµ»Ì¡¤°ú¸¶Î´»Î¡¤±Êµ×¼§ÀХ⡼¥¿¤Î¥¤¥ó¥Ô¡¼¥À¥ó¥¹¤òÍѤ¤¤¿¥­¥ã¥ê¥¢¹âÄ´ÇȤˤè¤ë²óž»Ò±²ÅÅή»¤Î·×»»¼êË¡¡¤Åŵ¤³Ø²ñÏÀʸ»ïD, Vol.137, No.8, pp.663-672 (2017). doi
  128. Fredrik Raak, Yoshihiko Susuki, Kazuhisa Tsuboki, Masaya Kato, and Takashi Hikihara, Quantifying Smoothing Effects of Wind Power via Koopman Mode Decomposition: A Numerical Test with Wind Speed Predictions in Japan, NOLTA, IEICE (accepted). doi
  129. Toko Mannari and Takashi Hikihara, Transient Behavior of Redox Flow Battery Connected to Circuit Based on Global Phase Structure, NOLTA, IEICE, Volume 9, Issue 1, 137-147 (2018) . doi
  130. Rochelle Nieuwenhuis, Madoka Kubota, M. R. Flynnc, Masayuki Kimura, Takashi Hikihara, and Vakhtang Putkaradze, Dynamics regularization with tree-like structures, Applied Mathematical Modelling, Volume 55, Pages 205-223 (2018). doi
  131. Ryosuke Meda, Takafumi Okuda, Takashi Hikihra, Analysis of ynamic characteristics of SiC SBDs at high switching frequency based on junction capacitance, Japanese Journal of Applied Physics 57(4S):04FF01. doi
  132. ±üÅĵ®»Ë¡¤°ú¸¶Î´»Î¡¤ÂçÅÅÎϹ⮥ѥ륹À¸À®´ï¤Ë¤è¤ë¥ª¥·¥í¥¹¥³¡¼¥×¤Î¥¹¥­¥å¡¼ÊäÀµ¡¤Åŵ¤³Ø²ñÏÀʸ»ïC, Vol.138, No.1, pp.37-40 (2018). doi
  133. M.Shintani, Y. Nakamura, K.Oishi, M. Hiromoto, T.Hikihara, and T.Sato, "Surface-Potential-Based Silicon Carbide Power MOSFET Model for Circuit Simulation", IEEE Trans. Power Electronics (2018.2.13). doi
  134. Shinya Nawata, Ryo Takahashi, and Takashi Hikihara, "Design possibility for covert power packet transfer using asynchronous sampling", NOLTA, IEICE, Vol. 9 Issue 3, pp. 374-381 (2018). doi
  135. Shinya Nawata, Atsuto Maki, Takashi Hikihara, Power packet transferability via symbol propagation matrix, Proc. R. Soc. A 2018 474 20170552. doi Published 16 May 2018.pdf
  136. Yohei Kono, Yoshihiko Susuki, Mitsunori Hayashida, Igor Mezi¡­c, and Takashi Hikihara, Multiscale Modeling of In-Room Temperature Distribution with Human Occupancy Data: A Practical Case Study, Journal of Building Performance Simulation, 11, 2, 145-163 (2018). doi
  137. Manuel Sanchez, Takafumi Okuda, and Takashi Hikihara, "Stabilization of Mode in Imbalanced Operation of Matrix Converter by Time-Delayed Feedback Control" , International Journal of Circuit Theory and Applications, John Wiley doi
  138. Manuel Sanchez and Takashi Hikihara, Symmetry Recovering of an AC/AC Converter Working in a Chaotic Regime, NOLTA, IEICE¡¤Vol. 10, Issue 2, pp.131-139 (2019). doi
  139. Shiu Mochiyama and Takashi Hikihara, Packet-based feedback control of electrical drive and its application to trajectory tracking of manipulator, International Journal of Circuit Theory and Applications, Vol.47, Iss. 4, 612-632 (2019). doi
  140. Ä«»³Ï¹ᡤ°ú¸¶Î´»Î¡¤¥Þ¥¤¥¯¥í¥°¥ê¥Ã¥É±¿ÍѤËÂФ¹¤ë²ÄÅþ㽸¹ç¤ÎÍøÍÑ¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï, Vol.63, No. 4, 137-144 (2019).doi
  141. ÊÒ»³¿µ¼£, ¹â¶¶Î¼, °ú¸¶Î´»Î, "ÅÅÎϥѥ±¥Ã¥ÈÅÁÁ÷¥·¥¹¥Æ¥à¤Ë¤ª¤±¤ëʬ»¶ÅÅÎϼûµëÀ©¸æ¤Î̵Àþ¤òÍѤ¤¤¿¼Âµ¡¸¡¾Ú", ÅŻҾðÊóÄÌ¿®³Ø²ñÏÀʸ»ï A Vol. J102–A No. 9 pp. 240–248 (2019) IEICE
  142. Toko Mannari; Takafumi Okuda, Takashi Hikihara, Model for charging/discharging dynamics of cells in redox flow battery with transport delay, Pyisica Scripta Volume 94, 1-9 (2019). doi
  143. Fredrik Raak, Yoshihiko Susuki, Shinya Eguchi, and Takashi Hikihara, Role of deterministic electromechanical conversion in short-term wind power fluctuations: A case study in Japan, Physical Review Applied, Phys. Rev. Applied 12, 034013 (2019). doi
  144. Hoshino H, Susuki Y, John Koo TT, Hikihara T. Structural Analysis and Control of a Model of Two-Site Electricity and Heat Supply. ASME. J. Dyn. Sys., Meas., Control. 2019;141(10):101004. doi
  145. Rutivika Manohar and Takashi Hikihara, Dynamic behaviour of a ring coupled boost converter system with passivity-based control, NOLTA, IEICE, Vol. 11, Iss. 1, pp. 109-122 (2020)¡¥ doi
  146. Yuma Murakawa, Yohei Sadanda, and Takashi Hikihara, Parallelization of Boost and Buck Type DC-DC Converters by Individual Passivity-Based Control, IEICE Trans. A Vol.E103-A, No.3, pp.589-595 (2020). doi
  147. Naomitsu Yoshida, Ryo Takahashi, and Takashi Hikihara, Power Regeneration from DC Motor with Bidirectional Router in Power Packet Dispatching System, IEEE Transactions on Circuits and Systems II: Express Briefs, Express Letter (2020). doi
  148. Rutvika Manohar and Takashi Hikihara, Phase synchronization of autonomous AC grid system with passivity-based control, International Journal of Circuit Theory and Applications. doi
  149. Baek Seongcheol, Hiroyasu Ando, Takashi Hikihara, Consensus-Based Distribution of Power Packets and Decentralized Control for Routing, AIP, Chaos, 30, 033115 (2020) doi
  150. Kazuki Hashimoto, Takafumi Okuda, and Takashi Hikihara, Measurement of internal magnetic flux density distribution in air-core toroidal transformer under high-frequency excitation, Review of Scientific Instruments 91, 044703 (2020); doi
  151. Shinji Katayama and Takashi Hikihara, "Power packet router with power and signal switches for a single power packet", IEEE Transactions on Circuits and Systems II: Express Briefs (2020) doi
  152. Rutvika Manohar and Takashi Hikihara, Phase synchronization of autonomous AC grid system with passivity-based control, International Journal of Circuit Theory and Applications (2020.6.9). doi
  153. Shiu Mochiyama and Takashi Hikihara, Impulsive torque control of biped gait with power packets, Nonlinear Dynamics (2020.6.19). doi
  154. Manuel Sánchez Tejada, Takashi Hikihara, "The Broken Symmetry of Output Currents in a Matrix Converter and Its Recovery Control", Journal of Circuits, Systems, and Computers, World Scientific, Vol.30, No.4, 2150072 (2020). doi
  155. Yanran Wang and Takashi Hikihara, Two Dimensional Swarm Formation in Time-invariant External Potential: Modelling, Analysis, and Control, AIP Chaos (2020). doi, arXiv
  156. Toko Mannari, Takafumi Okuda, and Takashi Hikihara, Prediction of restriction in output current by reactant flow in redox flow battery for compensating load variations, International Journal of Circuit Theory and Applications. doi
  157. Kazuki Hashimoto and Takashi Hikihara, Equivalent Circuit of Interleaved Air-Core Toroidal Transformer Derived from Analogy with Coupled Transmission Lines, IEICE, ELEX, 17 Issue 21 Pages 20200262 (2020). doi
  158. Shiu Mochiyama, Takafumi Okuda, and Takashi Hikihara, Power Packet Dispatching with Shared Power Line: Experimental Verification for Industrial Applications, IEEE Journal of Emerging and Selected Topics in Industrial Electronics (early published).pdf, doi
  159. Seongcheol Baek, Hiroyasu Ando, and Takashi Hikihara, Decentralized Algorithms for Consensus-Based Power Packet Distribution, NOLTA,IEICE,Vol.12,No.2, pp.181 - 193 (2021). arXiv,doi
  160. Yuma Murakawa and Takashi Hikihara, Output Series-Parallel Connection of Passivity-Based Controlled DC-DC Converters: Generalization of Asymptotic Stability, IEEE Trans. CAS I: Regular Papers, Vol. 68, Iss. 4, pp.1750 - 1759 (2021). arXiv, doi
  161. Shota Inagaki, Shiu Mochiyama, and Takashi Hikihara, "Electric Power Processing Using Logic Operation and Error Correction," Royal Society Open Science, Vol. 8, Iss. 7, 8202344 (2021.7.21). arXiv, doi
  162. Nobuo Sato, Jimin Oh, and Takashi Hikihara, "Photo radiation pressure at resonance of frequency modulated micro cantilever," NOLTA, IEICE, Vol.E12-N, No.4 (2021) doi.
  163. Hajime Takayama, Takafumi Okuda, and Takashi Hikihara, "Digital Active Gate Drive of SiC MOSFETs for Controlling Switching Behavior --- Preparation toward Universal Digitization of Power Switching", International Journal of Circuit Theory and Applications, 50, 1, 183-196, 2022.. doi
  164. Shiu Mochiyama, Kazuhiro Koto, and Takashi Hikihara, Routing optimization on power packet dispatching system based on energy loss minimization, IEICE NOLTA, Volume 13 Issue 1 Pages 139-148 (2022.1.1).arXiv, doi
  165. Yohei Kono, Yoshihiko Susuki, and Takashi Hikihara, Characterizing scale dependence of effective diffusion driven by fluid flows, Phys. Rev. E 105, 045103 (2022.4.12). arXiv, doi
  166. Shuhei Fukunaga, Hajime Takayama, and Takashi Hikihara, Slew rate control of switching transient for SiC MOSFET in boost converter using digital active gate driver, IET Power Electronics (2022.10.18) doi
  167. Æ£¸¶Ä¾¼ù,Ä«»³Ï¹á,°ú¸¶Î´»Î,²¾ÁÛƱ´üȯÅŵ¡¤ò´Þ¤à¥Þ¥¤¥¯¥í¥°¥ê¥Ã¥É¤ÎÈùʬ¥²¡¼¥à¤Ë´ð¤Å¤¯°ÂÁ´±¿ÍÑ¡¤¥·¥¹¥Æ¥àÀ©¸æ¾ðÊó³Ø²ñÏÀʸ»ï, Vol.36, No.9,¡¡pp¡¥316¡Ý326 (2023).
  168. Hajime Takayama, Shuhei Fukunaga, and Takashi Hikihara: Digital-twin-compatible Optimization of Switching Characteristics for SiC MOSFETs using Genetic Algorithm, IEEE Journal of Emerging and Selected Topics in Industrial Electronics, 4, 4, 1024 - 1033 (2023). doi
  169. ºØÆ£ÐÒÅÍ, ±öÌîͧÌé, ÅļÃι§, ¿·°æ¹À»Ö, °ú¸¶Î´»Î, º´Æ£ÀëÉ×, ÅÅÎϥѥ±¥Ã¥È¤òŬÍѤ·¤¿¶â°À½¥Ü¥Ç¥£ÄÌÅŤˤè¤ëÇÛÅŵ»½Ñ¤Î¸¡Æ¤¡¤Åŵ¤³Ø²ñÏÀʸ»ïD¡¤Vol.144, No.1, pp.16-22(2024). doi
  170. Shiu Mochiyama and Takashi Hikihara, Stochastic Power Processing through Logic Operation of Power Packets, Royal Society Open Science, Vol.10, 230583 (2023). arXiv, doi
  171. Hirotaka Araki and Takashi Hikihara, Shift manipulation of intrinsic localized mode in ac driven Klein Gordon lattice, Physics Letters A, Vol. 493, 5, 129270 (2024).arXiv, doi
  172. Takahiro Mamiya, Shiu Mochiyama, and Takashi Hikihara, Router for wireless power packet transmission: Design and application to intersystem power management, IEEE Journal of Emerging and Selected Topics in Industrial Electronics, vol.5, no.2, pp.475-487, April 2024. arXiv, doi
  173. Yanran Wang, Tatsuya Baba, and Takashi Hikihara, Robot formation control in nonlinear manifold using Koopman operator theory, IEICE NOLTA, Vol.E15-N, No.2, pp.501-517 (2024) . arXiv, doi
  174. Rutvika Manohar and Takashi Hikihara, Design of a Stand-alone Hybrid Dispersed Generation Network Unified by Passivity Based Control, Royal Society Open Science, Vol. 11, Issue 7 (2024). doi

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  4. ¡ÖÅÅÎÏÊÑ´¹ÁõÃÖ¡¢ÅÅÎÏÊÑ´¹ÁõÃ֤ν¼ÊüÅÅÀ©¸æÊýË¡¡¢ÅÅÎÏÊÑ´¹ÁõÃÖÀ©¸æ¥×¥í¥°¥é¥à¡¢Ê¤ӤËÅÅÎÏÊÑ´¹ÁõÃÖÀ©¸æ¥×¥í¥°¥é¥à¤òµ­Ï¿¤·¤¿µ­Ï¿ÇÞÂΡס¤À¾Â¼Ï¿Ρ¤°ú¸¶Î´»Î¡ÊÆôê2008-322808 (2008.12.18), Æó«2010-148242 (2010.7.10)), ÅÐÏ¿(ÆõöÂè5549904¹æ)(2014.5.30). ¡¤
  5. ¡ÖÅÅÎÏÀþÄÌ¿®ÁõÃÖ¡¢ÄÌ¿®µ¡Ç½ÉÕ¤­ÅŸ»²óÏ©¡¢Åŵ¤µ¡´ïµÚ¤ÓÀ©¸æ´Æ»ë¥·¥¹¥Æ¥à¡×, °ú¸¶Î´»Î, ÂðÌî»ÌÂç, ¹°ÄŸ¦°ì, ²¼¸ý¹ä»Ë, ¼ÆÅĽÓÏÂ, ÃÛÌ, ½éÀîÁï (Æôê2009-183745, Æó«2011-040829 (2011.2.24), ¹ñºÝÆôêPCT/JP2010/063146)ÅÐÏ¿, ÆõöÂè5432628¹æ(2013.12.13).
  6. ¡ÖÅÅÎϥ롼¥¿µÚ¤ÓÅÅÎϥͥåȥ¥¯¡×¡¤°ú¸¶Î´»Î¡¤¹â¶¶Î¼¡¤ÅÄÂå·½»Ê¡Ê½Ð´êÈÖ¹æ2012-250529 (2012.11.14), PCT/JP2013/080204, ÆôêÂè 6210496 (2017.9.22)
  7. ¡ÖÅÅÎϥХ±¥Ã¥ÈÀ¸À®ÁõÃÖ¡¢ÅÅ¥«¥ë¡¼¥¿¤ª¤è¤ÓÅÅ¥«¥Í¥Ã¥È¥ï¡¼¥¯¡×¡¤°ú¸¶Î´»Î¡¤Åì½Ó°ì¡¤¹â¶¶Î¼¡¤ÅÄÂå·½»Ê, Æôê2013-107393 (2013.5.21), ÆõöÂè6322835 (2018.4.20)
  8. ¡ÖȯÅÅ¥·¥¹¥Æ¥à¡×¡¤°ú¸¶Î´»Î¡¤¥×¥È¥¥¥¯¥é¡¼¥¼¡¡¥ô¥¡¥¯¥¿¥ó¡¤¥Õ¥ê¥ó¡¡¥â¥ê¥¹¡¤Æó¥æ¡¼¥¦¥§¥ó¥Ò¥å¡¼¡¡¥í¥·¥§¥ë¡¤ÌÚ¼¿¿Ç·, Æôê2014-094500 (2014.5.1)
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