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PDP-10 Archives
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decuslib10-02
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43,50145/momen.ssp
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C MOME 10
���C ..................................................................MOME 20
���C MOME 30
���C SUBROUTINE MOMEN MOME 40
���C MOME 50
���C PURPOSE MOME 60
���C TO FIND THE THE FIRST FOUR MOMENTS FOR GROUPED DATA ON MOME 70
���C EQUAL CLASS INTERVALS. MOME 80
���C MOME 90
���C USAGE MOME 100
���C CALL MOMEN (F,UBO,NOP,ANS) MOME 110
���C MOME 120
���C DESCRIPTION OF PARAMETERS MOME 130
���C F - GROUPED DATA (FREQUENCIES). GIVEN AS A VECTOR OF MOME 140
���C LENGTH (UBO(3)-UBO(1))/UBO(2) MOME 150
���C UBO - 3 CELL VECTOR, UBO(1) IS LOWER BOUND AND UBO(3) UPPER MOME 160
���C BOUND ON DATA. UBO(2) IS CLASS INTERVAL. NOTE THAT MOME 170
���C UBO(3) MUST BE GREATER THAN UBO(1). MOME 180
���C NOP - OPTION PARAMETER. IF NOP = 1, ANS(1) = MEAN. IF MOME 190
���C NOP = 2, ANS(2) = SECOND MOMENT. IF NOP = 3, ANS(3) =MOME 200
���C THIRD MOMENT. IF NOP = 4, ANS(4) = FOURTH MOMENT. MOME 210
���C IF NOP = 5, ALL FOUR MOMENTS ARE FILLED IN. MOME 220
���C ANS - OUTPUT VECTOR OF LENGTH 4 INTO WHICH MOMENTS ARE PUT. MOME 230
���C MOME 240
���C REMARKS MOME 250
���C NOTE THAT THE FIRST MOMENT IS NOT CENTRAL BUT THE VALUE OF MOME 260
���C THE MEAN ITSELF. THE MEAN IS ALWAYS CALCULATED. MOMENTS MOME 270
���C ARE BIASED AND NOT CORRECTED FOR GROUPING. MOME 280
���C MOME 290
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED MOME 300
���C NONE MOME 310
���C MOME 320
���C METHOD MOME 330
���C REFER TO M. G. KENDALL, 'THE ADVANCED THEORY OF STATISTICS',MOME 340
���C V.1, HAFNER PUBLISHING COMPANY, 1958, CHAPTER 3. MOME 350
���C MOME 360
���C ..................................................................MOME 370
���C MOME 380
��� SUBROUTINE MOMEN (F,UBO,NOP,ANS) MOME 390
��� DIMENSION F(1),UBO(1),ANS(1) MOME 400
���C MOME 410
��� DO 100 I=1,4 MOME 420
��� 100 ANS(I)=0.0 MOME 430
���C MOME 440
���C CALCULATE THE NUMBER OF CLASS INTERVALS MOME 450
���C MOME 460
��� N=(UBO(3)-UBO(1))/UBO(2)+0.5 MOME 470
���C MOME 480
���C CALCULATE TOTAL FREQUENCY MOME 490
���C MOME 500
��� T=0.0 MOME 510
��� DO 110 I=1,N MOME 520
��� 110 T=T+F(I) MOME 530
���C MOME 540
��� IF(NOP-5) 130, 120, 115 MOME 550
��� 115 NOP=5 MOME 560
��� 120 JUMP=1 MOME 570
��� GO TO 150 MOME 580
��� 130 JUMP=2 MOME 590
���C MOME 600
���C FIRST MOMENT MOME 610
���C MOME 620
��� 150 DO 160 I=1,N MOME 630
��� FI=I MOME 640
��� 160 ANS(1)=ANS(1)+F(I)*(UBO(1)+(FI-0.5)*UBO(2)) MOME 650
��� ANS(1)=ANS(1)/T MOME 660
���C MOME 670
��� GO TO (350,200,250,300,200), NOP MOME 680
���C MOME 690
���C SECOND MOMENT MOME 700
���C MOME 710
��� 200 DO 210 I=1,N MOME 720
��� FI=I MOME 730
��� 210 ANS(2)=ANS(2)+F(I)*(UBO(1)+(FI-0.5)*UBO(2)-ANS(1))**2 MOME 740
��� ANS(2)=ANS(2)/T MOME 750
��� GO TO (250,350), JUMP MOME 760
���C MOME 770
���C THIRD MOMENT MOME 780
���C MOME 790
��� 250 DO 260 I=1,N MOME 800
��� FI=I MOME 810
��� 260 ANS(3)=ANS(3)+F(I)*(UBO(1)+(FI-0.5)*UBO(2)-ANS(1))**3 MOME 820
��� ANS(3)=ANS(3)/T MOME 830
��� GO TO (300,350), JUMP MOME 840
���C MOME 850
���C FOURTH MOMENT MOME 860
���C MOME 870
��� 300 DO 310 I=1,N MOME 880
��� FI=I MOME 890
��� 310 ANS(4)=ANS(4)+F(I)*(UBO(1)+(FI-0.5)*UBO(2)-ANS(1))**4 MOME 900
��� ANS(4)=ANS(4)/T MOME 910
��� 350 RETURN MOME 920
��� END MOME 930