2. SP 1 By Satoru Yamamoto
SP in C SPINCforTANSA140121.tar.gz (e.g., X11) e.g., gnuplot) (e.g, vi) (e.g., or ) 2
3 2.1 spinc
2.1 spinc &tar (1) SPINCforTANSA140121.tar.gz (2) terminal spinc (3) > tar xvf SPINCforTANSA140121.tar.gz 4 SPINC_for_TANSA_v3/
2.1 spinc (4) SPINC_for_TANSA_v2/ > cd SPINC_for_TANSA_v2/ > ls SPINC_for_TANSA_v3 5
6 2.2 SP
SP SELENE http://www.soac.selene.isas.jaxa.jp/ 7
2.2 SP 8
2.2 SP 9
2.2 SP SP LISM 10
2.2 SP SP 11
2.2 SP SP SP / 12
2.2 SP SP Add SP / 13
2.2 SP SP SP 14
2.2 SP SP 15
2.2 SP 16
2.2 SP A B 17
2.2 SP A 18
2.2 SP SP 339.4 340 9.30396 9.90820 19
2.2 SP SP 20
2.2 SP add cart 21
2.2 SP order list SP 22
2.2 SP 23
2.2 SP 24
2.2 SP L2B1 25
2.2 SP LISM( )/ /SP / ( ) L2B1 26
2.2 SP 27
2.2 SP 28
2.2 SP 29
30 2.3 SP
2.3 SP SP (***.sl2) SPINC_for_TANSA_v3/ 31
2.3 SP ***.sl2 tar xvf [ ] > tar xvf SP_2B2_01_04208_N096_E3400.sl2 SP PDS (spc) (ctg) L2B2 (jpg) 32 (1) (2) (P )
2.3 SP spinc MAIN_simple_reading_L2B.c main make simple > make simple SPINC_simplereadL2B 33
2.3 SP SPINC_simplereadL2B SPINC_simplereadL2B [spc ] [ ] >./SPINC_simplereadL2B SP_2B2_01_04208_N096_E3400.spc 10 Spectrum.dat 34
2.3 SP Spectrum.dat >less Spectrum.dat [nm] [W/m 2 /µm/sr] DN DN QA 35
2.3 SP (1) gnuplot >gnuplot (2) gnuplot (1) gnuplot> plot "Spectrum.dat" using 1:2 with line (2) gnuplot> plot "Spectrum.dat" using 1:3 with line gnuplot using 1 [nm] 2 [W/m 2 /µm/sr] 3 4 DN 36 5 DN 6 QA
2.3 SP (a)vis NIR1 (b) (c) S/N 2.5µm (a) (b) (c) 37
2.3 SP Spectrum.dat vi > vi Spectrum.dat vi :set number 285 2500.1 nm 296 2587.9nm vi dd 38
2.3 SP 181 1652.1 nm 186 1709.8nm 75 956.6 nm 93 947.4nm 39
2.3 SP vi :w vi :q gnuplot VIS-NIR1 40
2.3 SP 41 spinc
2.4 2.4.1 SP 2.4.2 42
2.4 SP SPINC_simplereadL2B Revolution Total line number Solar Distance [km] TI Altitude [km] SP Observation Latitude/Longitude SP / Incident/Emission/Phase Angle,, SP1-4 Temperature 1,2,3,4 Peltier/N1 Focal Temperature /NIR1 43 Kaguya Direction (+1 or -1) (Ascending or Descending)
2.4.2 10km 44
2.4.2 TC MI SP SP_2B2_01_04208_N096_E3400.jpg 45
2.4.2 SP! (x1,y1) (x2,y2) (1) 4!!! (2) SP SP (x3,y3) (x4,y4) 46
2.4.2 spc >less SP_2B2_01_04208_N096_E3400.spc spc (x1,y1) (x2,y2) (x3,y3) (x4,y4) 47
UPPER TM_UPPER_LEFT_LATITUDE = 9.275566 <deg> (x1,y1) (x2,y2) TM_UPPER_LEFT_LONGITUDE = 340.387687 <deg> TM_UPPER_RIGHT_LATITUDE = 9.266009 <deg> TM_UPPER_RIGHT_LONGITUDE = 339.609909 <deg> TM_LOWER_LEFT_LATITUDE TM_LOWER_LEFT_LONGITUDE = 9.974713 <deg> = 340.376993 <deg> LEFT RIGHT TM_LOWER_RIGHT_LATITUDE = 9.965131 <deg> TM_LOWER_RIGHT_LONGITUDE = 339.598251 <deg> LEFT_LONGITUDE > RIGHT_LONGITUDE (x3,y3) (x4,y4) LOWER UPPER LATITUDE < LOWER_LATITUDE UPPER < LOWER 48
SP_2B2_01_04208_N096_E3400P.jpg SP_2B2_01_04208_N096_E3400.jpg TM_UPPER_LEFT_LATITUDE TM_UPPER_LEFT_LONGITUDE TM_UPPER_RIGHT_LATITUDE TM_UPPER_RIGHT_LONGITUDE TM_LOWER_LEFT_LATITUDE TM_LOWER_LEFT_LONGITUDE TM_LOWER_RIGHT_LATITUDE TM_LOWER_RIGHT_LONGITUDE = 9.275566 <deg> = 340.387687 <deg> = 9.266009 <deg> = 339.609909 <deg> = 9.974713 <deg> = 340.376993 <deg> = 9.965131 <deg> = 339.598251 <deg> 49 KAGUYA
TM_UPPER_LEFT_LATITUDE = 9.275566 <deg> TM_UPPER_LEFT_LONGITUDE = 340.387687 <deg> TM_UPPER_RIGHT_LATITUDE = 9.266009 <deg> TM_UPPER_RIGHT_LONGITUDE = 339.609909 <deg> TM_LOWER_LEFT_LATITUDE = 9.974713 <deg> TM_LOWER_LEFT_LONGITUDE = 340.376993 <deg> TM_LOWER_RIGHT_LATITUDE = 9.965131 <deg> TM_LOWER_RIGHT_LONGITUDE = 339.598251 <deg> Xa Xb Yb LONGITUDE min max Xa Xb Xa = 339.60408 Xb = 340.38234 LATITUDE min max Xa Xb Ya = 9.266009 Yb = 9.974713 Ya 50
SPINC_simplereadL2B SP Xsp = 340.011015 SP Ysp = 9.346907 51
<Mac> Command+I ( <Windows> Lx=456, Ly=512 52
Xa = 339.60408 Xb = 340.38234 Yb = 9.974713 Xsp = 340.011015 Ysp = 9.346907 Ly=512 Ya = 9.266009 Lx=456 (U,V) U = Lx * (Xsp -Xa)/(Xb-Xa) +1 234 ( 0.51) V = Ly * (Ysp -Ya)/(Yb-Ya) +1 92 ( 0.18) 53
U = 234.07877573 ( 0.51) V = 91.84173929 ( 0.18)! (1) (2) / / 54