$B8&5f6H@S(B (Publication Lists)
Last Update: October 24, 2012

  1. $B86CxO@J8!&2r@bO@J8(B ($B::FIO@J8(B), Refreed original papers
    1. Morotomi, K. T. Shinoda, Y. Shusse, T. Kouketsu, T. Ohigashi, K. Tsuboki, H. Uyeda, I. Tamagawa, 2012: Maintenance mechanisms of a precipitation band formed along the Ibuki-Suzuka Mountains on September 2-3, 2008. J. Meteor. Soc. Japan, 90, accepted.
    2. Nomura, M., K. Tsuboki, T. Shinoda, 2012: Impact of sedimentation of cloud ice on cloud?top height and precipitation intensity of precipitation systems simulated by a cloud-resolving model. J. Meteor. Soc. Japan, 90, accepted.
    3. You, C.-H., D.-I. Lee, S.-M. Jang, M. Jang, H. Uyeda, T. Shinoda, F. Kobayashi, 2010: Characteristics of rainfall systems accompanied with Changma front at Chejado in Korea. Asia-Pacific Journal of Atmospheric Sciences, 46, 41-51.
    4. Shinoda, T., A. Higuchi, K. Tsuboki, T. Hiyama, H. Tanaka, S. Endo, H. Minda, H. Uyeda, K. Nakamura, 2009: Structure of convective circulation in the atmospheric boundary layer over the northwestern Pacific Ocean under a subtropical high. J. Meteor. Soc. Japan, 87, 979-996.
    5. $B$B!&(B $B;3ED9-9,!&1sF#CR;K!&EDCf9-eEDGn(B, 2009: $BCf9q2ZCf0h$K$*$1$kBg5$6-3&AX!&9_?e%7%9%F%`8&5f$N?JE8(B $B!A(B GAME/HUBEX $BFCJL=8Cf4QB,$+$i$N(B10 $BG/!A(B. $BE75$(B, 56, 739-745.
    6. Shinoda, T., T. Amano, H. Uyeda, K. Tsuboki, H. Minda, 2009: Structure of line-shaped convective systems obliquely training to the Baiu front observed around the Southwest Islands of Japan. J. Meteor. Soc. Japan, 87, 971-981.
    7. Maeda, S., K. Tsuboki, Q. Moteki, T. Shinoda, H. Minda, H. Uyeda, 2008: Detailed structure of wind and moisture fields around the Baiu frontal zone over the East China Sea. Scientific Online Letters on the Atmosphere (SOLA), 4, 141-144.
    8. Endo, S., T. Shinoda, H. Tanaka, T. Hiyama, K. Tsuboki, H. Uyeda, K. Nakamura, 2008: Characteristics of vertical circulation in the convective boundary layer over the Huaihe River Basin in China in the early summer of 2004. J. Appl. Meteor. Climatol., 47, 2911-2928.
    9. Tanaka, H., T. Hiyama, K. Yamamoto, H. Fujinami, T. Shinoda, A. Higuchi, S. Endo, S. Ikeda, W. Li and K. Nakamura, 2007: Surface flux and atmospheric boundary layers observations from the LAPS project over the middle of the Huaihe River basin in China. Hydrol. Process., 21, 1997-2008. [HyP]
    10. Moteki, Q., T. Shinoda, S. Shimizu, S. Maeda, H. Minda, K. Tsuboki and H. Uyeda, 2006: Multiple frontal structures in the Baiu frontal zone observed by aircraft on 27 June 2004. Scientific Online Letters on the Atmosphere (SOLA), 2, 132-135, doi:10.2151/sola.2006-034. [SOLA]
    11. Shinoda, T., H. Uyeda, K. Yoshimura, 2005: Structure of moist layer and sources of water over the southern region far from the Meiyu/Baiu front. J. Meteor. Soc. Japan, 83, 137-152. [JMSJ]
    12. Moteki, Q., H. Uyeda, T. Maesaka, T. Shinoda, M. Yoshizaki, and T. Kato, 2004: Structure and development of two merged rainbands observed over the East China Sea during X-BAIU-99 Part II: Meso-$B&A(B-scale structure and build-up processes of convergence in the Baiu frontal region. J. Meteor. Soc. Japan, 82, 45-65. [JMSJ]
    13. Moteki, Q., H. Uyeda, T. Maesaka, T. Shinoda, M. Yoshizaki, and T. Kato, 2004: Structure and development of two merged rainbands observed over the East China Sea during X-BAIU-99 Part I: Meso-$B&B(B-scale structure and development processes. J. Meteor. Soc. Japan, 82, 19-44. [JMSJ]
    14. Shinoda, T. and H. Uyeda, 2002: Effective factors in the development of deep convective clouds over the wet region of eastern China during the summer monsoon season. J. Meteor. Soc. Japan, 80, 1395-1414. [JMSJ]
    15. Shinoda, T., H. Uyeda and M. Yoshizaki, 1998: Analyses on the mechanism of a convective cloud system over the Ishikari Plain on September 23, 1988. J. Fac. Sci., Hokkaido Univ., Ser. $B-;(B (Geophysics), Vol. 11, No. 1, 207-227.
  2. International Conference and Wrokshp & its proceeding ($B<+J,$G(B proceeding $B$r5-=R(B or $BH/I=$7$?$b$N$N$_(B)
    1. Shinoda, T., H. Masunaga, M. K. Yamamoto, M. Kato, A. Higuchi, K. Tsuboki, and H. Uyeda, 2012: Evaluation of Simulation Results of a Cloud-Resolving Model Using Satellite Data and a Satellite Simulator. International Symposium on Heavy Rainfall over East Asia: Observation and Modeling at Cloud-resolving Scales, Jeju, Korea. (invited talk).
    2. Shinoda, T., S. Okawara, S. Shimizu, K. Tsuboki, and H. Uyeda, 2012: Improvement of a Detection Algorithm for Stages of Precipitation Cells. 9th Asia Oceania Geosciences Society (AOGS) Conference, Singapore, Singapore..
    3. Shinoda, T., M. K. Yoshioka, H. Aiki, M. Kato, L. F. Smedstad, M. Katsumata, K. Yoneyama, A. Higuchi, H. Masunaga, K. Tsuboki, and H. Uyeda, 2012: Daily Simulation Using a Three-Dimensional Atmosphere-Ocean Regional Coupled Model, CReSS-NHOES over the CINDY/DYNAMO Observation Region. 9th Asia Oceania Geosciences Society (AOGS) Conference, Singapore, Singapore. (invited talk).
    4. Shinoda, T., H. Masunaga, M. K. Yamamoto, M. Kato, A. Higuchi, K. Tsuboki, and H. Uyeda, 2012: Evaluation of Simulation Results of a Cloud-Resolving Model Using Satellite Data and a Satellite Simulator. 16th International Conference on Clouds and Precipitation, Leipzig, Germany.
    5. Shinoda, T., 2012: Short term heavy rain monitoring and forecast. 2012 1st ACTS Workshop on Advanced Technology for Reducing Public Health Impacts after Heavy Rains, Bangkok, Thailand. (invited talk).
    6. Shinoda, T., M. K. Yoshioka, H. Aiki, M. Kato, L. F. Smedstad, H. Masunaga, K. Yoneyama, M. Katsumata, K. Tsuboki, and H. Uyeda, 2012: Daily simulation using the 3-dimensional atmosphere-ocean regional coupled model, CReSS-NHOES over CINDY/DYNAMO observation region. 30th Conference on Hurricanes and Tropical Meteorology, Ponte Vedra Beach, Florida, USA.
    7. Shinoda, T., H. Masunaga, M. K. Yamamoto, M. Kato, A. Higuchi, K. Tsuboki, and H. Uyeda, 2011: Development of a validation method for a cloud-resolving model using satellite data of infrared and microwave bands. American Geophysical Union (AGU) Fall Meeting 2011, San Francisco, USA.
    8. K. Morotomi, T. Shinoda, Y. Shusse, T. Ohigashi, K. Tsuboki, and H. Uyeda, 2011: Maintenance and enhancement mechanisms of the precipitation band formed along the Ibuki-Suzuka Mountains on 2-3 September 2008. 8th Asia Oceania Geosciences Society (AOGS) Conference, Taiwan, Taipei.
    9. Shinoda, T., H. Masunaga, M. K. Yamamoto, M. Kato, A. Higuchi, K. Tsuboki, and H. Uyeda, 2011: Development of a validation method for a cloud-resolving model using satellite data of infrared and microwave bands. 8th Asia Oceania Geosciences Society (AOGS) Conference, Taiwan, Taipei.
    10. Yoshioka, M. K., H. Aiki, T. Shinoda, M. Kato, K. Tsuboki, A. Sakakibara, and W. Ohfuchi, 2010: Typhoon simulation using the 3-dimensional atmosphere-ocean regional coupled model, CReSS-NHOES. Third SoWMEX/TiMREX Science Workshop, Taipei, Taiwan.
    11. Shinoda, T., M. K. Yamamoto, H. Masunaga, M. Kato, A. Higuchi, K. Tsuboki, and H. Uyeda, 2010: Validation of the results of the cloud-resolving model with the satellite data of infrared and microwave bands around the Taiwan region during the Meiyu season. Third SoWMEX/TiMREX Science Workshop, Taipei, Taiwan.
    12. Shinoda, T., H. Masunaga, M. K. Yamamoto, M. Kato, A. Higuchi, K. Tsuboki, and H. Uyeda, 2010: Validation of the results of the cloud-resolving model with the satellite data of infrared and microwave bands around Japan region during the winter season. First International Workshop on Nonhydrostatic Numerical Models, Kyoto, Japan.
    13. Shinoda, T., H. Masunaga, M. K. Yamamoto, M. Kato, A. Higuchi, K. Tsuboki, and H. Uyeda, 2010: Validation of the results of the cloud-resolving model with the satellite data of infrared and microwave bands around Japan region during the winter season. 2010 International Symposium on Environmental Monitoring in East Asia - Remote Sensing and Field Research for Forest and Precipitation Monitoring -, Kanazawa, Japan.
    14. Shinoda, T., M. Kato, Y. Shusse, M. Nomura, M. Oue, T. Kouketsu, K. Tsuboki, and H. Uyeda, 2009: Structure of a precipitation system developed around Aichi Prefecture, Japan, on August 28-29, 2008. Conference on Mesoscale Convective Systems (MCSs) and High-Impact Weather/Climate in East Asia (ICMCS-VII), Seoul, Korea.
    15. Shinoda, T., Y. Fukamachi, H. Uyeda, and K. Tsuboki, 2009: Development of a three-dimensional detection algorithm for precipitation cells in East Asia during the Meiyu/Baiu period. Conference on Mesoscale Convective Systems (MCSs) and High-Impact Weather/Climate in East Asia (ICMCS-VII), Seoul, Korea.
    16. Shinoda, T., M. Kato, Y. Shusse, M. Nomura, M. Oue, T. Kouketsu, K. Tsuboki, and H. Uyeda, 2009: Structure of a precipitation system developed around Aichi Prefecture, Japan, on August 28-29, 2008. Fourth Japan-China-Korea Joint Conference on Meteorology, Tsukuba, Japan.
    17. Shinoda, T., Y. Fukamachi, H. Uyeda, and K. Tsuboki, 2009: Development of a three-dimensional detection algorithm for precipitation cells in East Asia during the Meiyu/Baiu period. Second SoWMEX/TiMREX Science Workshop, Taipei, Taiwan.
    18. Shinoda, T., M. Nomura, M. Kato, M. Watanabe, and K. Tsuboki, 2008: Results on daily simulation using a cloud resolving model over the tropical Indian Ocean during the MISMO. MISMO Workshop, Yokohama, Japan.
    19. Shinoda, T., K. Tsuboki, M. Kato, M. Nomura, and H. Uyeda, 2008: Daily simulations around Taiwan area during the SoWMEX/TiMREX IOP in 2008 using the cloud resolving model. First SoWMEX/TiMREX Science Workshop, Taipei, Taiwan.
    20. Shinoda, T., R. Maki, S. Shimizu, K. Tsuboki, and H. Uyeda, 2007: Statistical features of precipitaion cells observed in east Asia during the Meiyu/Baiu period. Japan-China Joint Workshop on Cloud and Precipitation, Yokohama, Japan.
    21. Shinoda T., R. Maki, S. Shimizu, K. Tsuboki, and H. Uyeda, 2007: Statistical features of precipitation cells observed in East Asia during the Meiyu/Baiu period. Conference on Mesoscale Meteorology and Typhoon in East Asia (ICMCS-VI), Taipei, Taiwan, 199-203.
    22. Tsuboki, K., and T. Shinoda, 2006: Typhoon simulations by using a cloud resolving model CReSS. The International Symposium on Regional Ensemble Prediction, Tropical Cyclone and Heavy Rainfall Forecast, Chengdu, China.
    23. Shinoda, T., S. Endo, H. Tanaka, K. Tsuboki, and K. Nakamura, 2006: Effects of shallow cumulus clouds on the environment over the Huaihe River Basin in China during early summer season. The Fourth China-Japan Joint Workshop on Lower Atmosphere and Precipitation Study (LAPS), Beijing, China, 48-52.
    24. Shinoda, T., K. Tsuboki, A. Sakakibara, and K. Nakamura, 2005: Large eddy simulation on turbulence in the atmospheric boundary layer over the ocean under the Pacific subtropical high. The Third Japan-China Joint Workshop on Lower Atmosphere and Precipitation Study (LAPS), Nagoya, Japan, 32-35.
    25. Shinoda, T., H. Uyeda, and K. Yoshimura, 2004: Structure of moist layer and sources of water over the southern region far from the Meiyu/Baiu front. The 6th International Study Conference on GEWEX in Asia and GAME, Kyoto, Japan.
    26. Shinoda, T., H. Uyeda, and K. Yoshimura, 2004: Structure of moist layer and sources of water over the southern region far from the Meiyu/Baiu front. The 3rd International Workshop on Monsoons (IWM-III), Hangzhou, China.
    27. Shinoda, T., A. Higuchi, T. Hiyama, H. Tanaka, and K. Nakamura, 2004: In-situ observation of structure of turbulence in the atmosphere boundary layer over the ocean under the Pacific subtropical high. The Second China-Japan Joint Workshop on Lower Atmosphere and Precipitation Study (LAPS), Hefei, China, 70-73.
    28. Shinoda, T., H. Uyeda, and K. Yoshimura, 2004: Structure of moist layer and sources of water over the southern region far from the Meiyu/Baiu front. The Second China-Japan Joint Workshop on Lower Atmosphere and Precipitation Study (LAPS), Hefei, China, 23-26.
    29. Shinoda, T., H. Uyeda and K. Yoshimura, 2003: Difference of structure of moist layer between over mainland China and over the East China Sea of the southern region far from the Meiyu/Baiu front. Summary Meeting on the 2001/2002 Field Experiment of Heavy Rainfall and the Second China-Japan Workshop on Heavy Rainfall Experiment and Study, Wuhan, China.
    30. Shinoda T. and H. Uyeda, 2001: Factors in the development of deep convection in the southern region far from the Mei-yu front over eastern China during the GAME/HUBEX IOP '98. The Fifth International Study Conference on GEWEX in Asia and GAME, Nagoya, Japan, 185-190.
    31. Shinoda T. and H. Uyeda, 2001: Factors in the development of deep convection in the southern region far from the Mei-yu front over eastern China during the GAME/HUBEX IOP '98. The International Conference on Mesoscale Meteorology and Typhoon in East Asia, Taipei, Taiwan, 353-358.
    32. Shinoda T. and H. Uyeda, 2001: Factors on the development of deep convection in the southern region far from the Baiu front over eastern China during the GAME/HUBEX IOP '98. 4th International Scientific Conference on the Global Energy and Water Cycle, Paris, France.
    33. Shinoda T. and H. Uyeda, 2001: Effect of a grid resolution a development of convective mixing layer in a cloud-resolving model. Climate Conference 2001, Utrecht, Holland, 44-45.
    34. Shinoda, T., H. Uyeda and M. Yoshida, 1999: Simulating the amount of water vapor in a convective system: case study on July 14, 1998 in GAME/HUBEX IOP. Workshop on Meso-scale Systems in Meiyu/Baiu Front and Hydrological Cycle, Xi$B!G(Ban, China, 175-178.
  3. $B9qFb3X2qH/I=(B ($B<+J,$GMW;]$r5-=R(B or $BH/I=$7$?$b$N$N$_(B)
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    2. $B$B!&(B $B;3K\=!>0!&A}1J9@I'!&2CF#2mLi!&Hu8}FF;V!&DZLZOB5W!&(B $B>eEDGn(B, 2010: $B1R@1$h$j4QB,$5$l$k@V30!&%^%$%/%mGH51EY29EY$rMQ$$$?(B $B1@2rA|%b%G%k$N7k2L$N8!F$(B. $BF|K\5$>]3X2q(B2010$BG/EY(B $B=)5(Bg2q(B, $B5~ET(B,, P195.
    3. $B$B!&(B $B2CF#2mLi!&5WJ]eEDGn(B, 2009: $BCO>e4QB,%G!<%?$rMQ$$$?1@2rA|%b%G%k(BCReSS$B$K$*$1$k@c$HpG$N3d9g$N8!>Z(B. $BF|K\5$>]3X2q(B2009$BG/EY(B $B=)5(Bg2q(B, $BJ!2,(B,, P324.
    4. $B2CF#2mLi!&(B$B$B!&(B $BLnB<8w=U!&DZLZOB5W!&>eEDGn(B, 2009: 2008$BG/(B8$B7n(B28$BF|!A(B29$BF|$K0&CN8)<~JU$K7c$7$$9_?e$r$b$?$i$7$?9_?e%7%9%F%`$N(B $B9=B$(B $B!A$=$N(B2: $B1@2rA|%b%G%k(BCReSS$B$rMQ$$$?2r@O7k2L(B $B!A(B $BF|K\5$>]3X2q(B2009$BG/EY(B $B=U5(Bg2q(B, $B$D$/$P(B, P317.
    5. $B$B!&(B $B=P@$$f$+$j!&Hx>eK|N$;R!&ever>f@2!&DZLZOB5W!&>eEDGn(B, 2009: 2008$BG/(B8$B7n(B28$BF|!A(B29$BF|$K0&CN8)<~JU$K7c$7$$9_?e$r$b$?$i$7$?9_?e%7%9%F%`$N(B $B9=B$(B $B!A$=$N(B1: $B%^%k%A%Q%i%a!<%?%l!<%@$rMQ$$$?2r@O7k2L(B $B!A(B $BF|K\5$>]3X2q(B2009$BG/EY(B $B=U5(Bg2q(B, $B$D$/$P(B, P316.
    6. $B?$B$B!&(B $B>eEDGn!&DZLZOB5W(B, 2009: $B9_?e%;%k$NH/C#CJ3,$r5R4QE*$KH=JL$9$k%"%k%4%j%:%`$N3+H/(B. $BF|K\5$>]3X2q(B2009$BG/EY(B $B=U5(Bg2q(B, $B$D$/$P(B, D103.
    7. $B$B!&(B $BDZLZOB5W!&2CF#2mLi!&=P@$$f$+$j!&LnB<8w=U!&ever>f@2!&(B $BHx>eK|N$;R!&BgElCiJ]!&>eEDGn(B, 2008: $B%^%k%A%Q%i%a!<%?%l!<%@$H1@2rA|%b%G%k(BCReSS$B$rMQ$$$?(B $BJ?@.(B20$BG/(B8$B7nKv9k1+$N=i4|2r@O7k2L(B. $BJ?@.(B20$BG/EY5$>]3X2q(B $BCfIt;YIt8&5f2q(B, $B6bBt(B, p. 63-66.
    8. $B$B!&(B $B;3ED9-9,!&1sF#CR;K!&>eEDGn(B, 2008: $BCf9q2ZCf0h$K$*$1$kBg5$6-3&AX!&9_?e%7%9%F%`8&5f$N?JE8(B $B!A(B GAME/HUBEX IOP $B$+$i$N(B10$BG/(B $B!A(B. $BF|K\5$>]3X2q(B2008$BG/EY(B $B=)5(Bg2q(B, $B@gBf(B, A154.
    9. $B$B!&(B $BLnB<8w=U!&2CF#2mLi!&EOIt2m9@(B, 2008: $B9_?e%7%9%F%`$N@9?j$KBP1~$7$?1@J*M}NL$N3NN(L)EYJ,I[$NJQ2=(B $B!A1@2rA|%b%G%k$N7k2L$rMQ$$$?2r@O!A(B. $BF|K\5$>]3X2q(B2008$BG/EY(B $B=U5(Bg2q(B, $B2#IM(B, P405.
    10. $B$B!&(B $BEOIt2m9@!&9>$BF|K\5$>]3X2q(B2007$BG/EY(B $B=U5(Bg2q(B, $BEl5~(B, A464.
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    14. $B$B!&(B $BJF;3K.IW!&>!Ks>;8J!&(BRandolph Ware$B!&CfB<7r<#(B, 2004: $B!V$_$i$$!W$KEk:\$5$l$?%^%$%/%mGHJ|e$N(B $B5$29$H?e>x5$:.9gHf$N1tD>%W%m%U%!%$%k4QB,(B. $BF|K\5$>]3X2q(B2004$BG/EY(B $B=)5(Bg2q(B, $BJ!2,(B, P327.
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    17. $B$B!&(B $B@nH*Nh!&DZLZOB5W!&>eEDGn(B, 2002: $BG_1+A0@~BS$X$N?e>x5$6!5k8;$H$7$F$NCf9qBgN&>e$NN&LL$NLr3d(B. $BF|K\5$>]3X2q(B2002$BG/EY(B $B=)5(Bg2q(B, $B;%KZ(B, P145.
    18. $B$B!&(B $B>eEDGn!&A0:d9d!&LPLZ9L:n!&@6?e?58c!&@>2,M';R!&9)F#Nh!&(B $B>e9@0lO:!&?7>10lM:!&e4QB,(B ($B$=$N#2(B), $BF|K\5$>]3X2q(B2001$BG/EY(B $B=)5(Bg2q(B, $B4tIl(B, A151.
    19. $B$B!&(B $B>eEDGn(B, 2001: $BBPN.:.9gAX$NH/C#2aDx$KBP$9$k?tCM%b%G%k$N?eJ?2rA|EY$N1F6A(B. $BF|K\5$>]3X2q(B2001$BG/EY(B $B=)5(Bg2q(B, $B4tIl(B, P120.
    20. $B$B!&(B $B>eEDGn(B, 2001: GAME/HUBEX '98 $B4|4VCf$NG_1+A0@~BS$NFnB&NN0h$K$*$1$k(B $BBPN.1@$NH/@8MW0x(B. $BF|K\5$>]3X2q(B2001$BG/EY(B $B=U5(Bg2q(B, $BEl5~(B, A157.
    21. $B$B!&(B $B>eEDGn(B, 2000: $B?tCM$BF|K\5$>]3X2q(B2000$BG/EY(B $B=U5(Bg2q(B, $B$D$/$P(B, P256.
    22. $B$B!&(B $BA0:d9d!&LPLZ9L:n!&>eEDGn!&>e9@0lO:!&?7>10lM:!&e4QB,(B, $BF|K\5$>]3X2q(B2000$BG/EY(B $B=U5(Bg2q(B, $B$D$/$P(B, B205.
    23. $B$B!&(B $B>eEDGn(B, 1999: $B?tCMx5$<};Y$N8+@Q$j(B $B!A(B GAME/HUBEX IFO $B4|4VCf$N(B7$B7n(B14$BF|$N%1!<%9$K$D$$$F(B $B!A(B. $BF|K\5$>]3X2q(B1999$BG/EY(B $B=U5(Bg2q(B, $BJ!2,(B, P131.
    24. $B$B!&(B $B>eEDGn(B, 1999: $B@P$BF|K\5$>]3X2q(B1999$BG/EY(B $B=U5(Bg2q(B, $BEl5~(B, P343.
    25. $B$B!&(B $B>eEDGn!&H>ED?8FsO:(B, 1998: $B@P$BF|K\5$>]3X2q(B1998$BG/EY(B $B=)5(Bg2q(B, $B@gBf(B, P329.
  4. $B>7BT9V1i$J$I(B
    1. $B, 2010: $B=8Cf9k1+$r$b$?$i$99_?e%7%9%F%`$N9=B$(B $B!AJ?@.(B20$BG/(B8$B7nKv9k1+$rNc$H$7$F!A(B. $BF|K\5$>]3X2qCfIt;YIt8x3+9V1i2q(B $B!V=8Cf9k1+!W(B, $BL>8E20(B (2010$BG/(B8$B7n(B25$BF|(B)
    2. $BDZLZOB5W!&(B $B, 2009: $B%3%s%T%e!<%?!<$GBfIw$NK=Iw1+$O$I$3$^$G:F8=$G$-$k$+(B. $BF|K\5$>]3X2qCfIt;YIt8x3+9V1i2q(B $B!VBfIw8&5f$N:GA0@~!W(B, $BL>8E20(B (2009$BG/(B8$B7n(B25$BF|(B)
    3. $B $B!&DZLZOB5W(B, 2008: $B1@2r@O%b%G%k(BCReSS$B$rMQ$$$?7c$7$$5$>]8=>]$N:F8=$BD9Ln8)8&5fH/I=!&8rN.2q(B, $BD9Ln(B (2008$BG/(B12$B7n(B5$BF|(B)
  5. $B3X0LO@J8(B