%0 Generic %A Satoh, Masaki %A Yamada, Yohei %A Sugi, Masato %A Kodama, Chihiro %A Noda, Akira %D 2020 %T Tropical cyclone position and intensity in NICAM AMIP-type simulation %U https://jstagedata.jst.go.jp/articles/dataset/Tropical_cyclone_position_and_intensity_in_NICAM_AMIP-type_simulation/12599630 %R 10.34474/data.jmsj.12599630.v1 %2 https://jstagedata.jst.go.jp/ndownloader/files/23600051 %K tropical cyclone %K convective mass flux %K eye wall %K future projection of tropical cyclones %K global non-hydrostatic model %K NICAM %X These files indicate tropical cyclone (TC) position and intensity in NICAM AMIP-type simulation, which are used in Kodama et al. (2015) and Satoh et al. (2015).

Lines
1. Date (HHzDDMMMYYYY)
2. Longitude [degree]
3. Latitude [degree]
4. Maximum 10m wind speed [m/s]
5. Central sea level pressure [hPa]
6. Hours from genesis [hour] (positive/negative value means after/before genesis)
7. Time since 00z01JAN0000 [hour]
8. Flag (TC or not TC) 0: not TC, 1: TC
9. Same as 4th line (please ignore)
10. Vertical wind shear [m/s]
11. Sum of temperature anomalies [K]
12. Relative vortecity at 850hPa [1/s]
13. Steps from initial time step (6-hourly)
14. Environmental sea level pressure [hPa]

SAMPLE
1 2 3 4 5 6 7 8 9 10 11 12 13 14
06Z01JAN1979 55.045 -10.631 15.50 1003.10 -60 17338782 0 15.50 3.18 4.70 -8.80e-04 857 1011.70

References:
Satoh, M., Yamada, Y., Sugi, M., Kodama, C., Noda, A. T. (2015) Constraint on future change in global frequency of tropical cyclones due to global warming. J. Meteorol. Soc. Japan, 93, 489-500, doi:10.2151/jmsj.2015-025.

Kodama, C., Yamada, Y., Noda, A. T., Kikuchi, K., Kajikawa , Y., Nasuno, T., Tomita, T., Yamaura, T., Takahashi, T. G., Hara, M., Kawatani, Y., Satoh, M., Sugi, M. (2015) A 20-year climatology of a NICAM AMIP-type simulation. J. Meteor. Soc. Japan, 93, 393-424, doi:10.2151/jmsj.2015-024.
%I Meteorological Society of Japan