cation and the factoral analysis of the 
structural accordance between elements of 
the landscape by the method of the clas- 
teral,correlational,regressional,factoral 
informational-statistical analysis and 
others). 
Basic-program is composed in the opera- 
tional system of MS DOS 3.3 version which 
is designed for composing the colour 
structural-analytical maps (complex of 
Basic-program is called "GEOGRAPHICAL 
EDITOR" (GEOEDIT) of the landscape struc- 
ture of the place, 
By means of this program of supply phy- 
sico-geographical regionating of the Eas- 
tern part of the Caucasis-Minor on the 
basic of the structural pecularities of 
the components of the geographical lan- 
dscape is conducted by us. While doing it 
the large-scaled geological,geomorpholo- 
gical,soil,geobotanic,landscapian,hydro- 
logical,topographic maps and others had 
been used by us, 
At first in the grid of squares with si- 
de size of 5 sm. equal to 100 km^.squ- 
are had been put into all maps and then 
all the territory of the investigated 
region was divided into 273 square 100 
of which were full ones. Then for each 
square above-mentioned characteristics 
of the space structure of the landscape 
and its components were found out and 
other thorough analysis of the mathema- 
tical-geographic models the physico-geo- 
graphical areas of the investigated re- 
gion was distributed by us. In the last 
Space structural-analytical maps were 
composed on the printer of personal com- 
puters IBM PC AT, 
EXAMPLE PROGRAM SUPPLY AND RESULT. 
1.Classification Of "Landscape-Hydrolo- 
  
gical complexes" 
The function of the distance of Euclid: 
N f 
: Y. mM e, Md 
d (X X)={2, 0x Xi) 
where d(X;,X) -is the Euclide distance, 
Xik -the amount of "k" changeable on the 
"i" object, XjK the value of "k" changab- 
le on the "j" object. 
2.Program Supply. 
Programming language-"FORTRAN-ST", 
126 
   
  
Operational system OS US 6,1 version. 
-//CLUSTER JOB MSGIEVEL#(1,1),MSGCLASS=P 
//KAVKAZ EXEC FORTGCLG,PARM.FORT=SOURCE 
//FORT.SYSPRINT DD SYSOUT zP 
//FORT.SYSIN DD * 
C NABIYEV ALIPASHA ALIBEK 
DIMENSION X(200,200),8(200,200) 
READ(5,4)N,M 
PRINT 4,N,M 
4 FORMAT(2I3) 
DO 5 1=1,N 
READ(5,6) (X(1,J) ,J24,M) 
WRITE (6,6) (X(I,J),J=1,M) 
6 FORMAT(10F8.2) 
S CONTINUE 
AN=N 
DO 100 I=1,M 
DO 100 J=1,M 
RASTOzO, 
DO 50 K=1,N 
RAS TO=RASTO+(X(K,1)-X(K,J))**2 
50 CONTINUE 
S(I,J)sSQRT(RASTO/AN) 
100 CONTINUE 
STOP 
END 
/* 
//LKED,.SYSPRINT DD SYSOUT-P 
//G60.FT96F001 DD SYSOWT=P 
//GO.SYSIN DD * 
******Landscape - Hydrolozival data*****+ 
// 
RESULT 
The Classificational map of the River fustens aoconding to the 
similarity sf the Hydralagisal data -Rivers Caucasi Minor 
? 
- 
"- 
MeAsune e - 
Classification Level similarity acxi X J2-90(7043, 
Hamer River Systems: i.Janjachai-v.Euranpad-à Curakuhai=v.Dosular 
DUpranchai-v.Jukhari-AgJakend.4.Tartar-v.Madagiz.3.Khachinohai 
pM TVAAHSITUHDD ASH ATH HmHad vA» mn T.Gondt ai - -— 
Cusuchai-u.Tuag,9.Atagust-u.Tug.10.Hekaniohal nn NY rA TE 8: 
n 
A 
11.Zabukhohai-v.Zabukh and others, haaHer, 
  
The Classificational map af the River systems according to the 
similarity of the landscapes somlexes data -Rivers Causasis Minor 
Trot 
The measures Euslide distance: OMiJ-0 SUMCHIE-X jEO««2)2«1/2 
Classification level zimilarity diXi.X,psiSO(CTÓX) 
Hame River systeus: LJanjaohal —wZurnahbad,Z.Gurakohal-v.Dozu- 
lar,3.Jpranohai-u.Iukhari-Agjakend,4.Tantar-v.Madagiz, 
JT.Khaohinohai-v.Uanolu,6.Caroanohai-v.AsKenan 
f cL c 9, 009 —— 
I. 
p—— d I RP int AN fam]