Full text: Proceedings, XXth congress (Part 3)

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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B3. Istanbul 2004 
START 
Open Database 
  
  
  
  
  
  
  
  
    
h=h+F(l) 
  
   
  
    
   
  
  
  
  
T0 
T(M*1) 7 Y(1) 
Y(0)= Y(M) X(D, Y(I) 
I— LM 
  
T=T+X(I)* [ Y(I+]) = Y(I-1)] 
  
  
  
  
  
  
  
=T/2 
  
  
  
BN « A 
  
  
  
  
  
  
  
  
  
= pp A 
OTKPO =(h-r-a)/h 
— 
|OTKP(I) = F(I) * OTKPO| 
  
  
  
  
«— 7 
  
  
  
Y 
| GF(l) - F(I) - OTKP(I) | 
  
Save Database 
  
  
Figure 3. Flow chart prepared for calculate of sharing ratio of 
common area and land area given back to owner 
669 
3.3. Classification Study 
Parcels that are located in consolidation areas are ranked for 
computed transformation values. Equation (2) is used to 
compute Land Index (PE) 
PE=070* ST +P +E (2) 
Where SI is defined soil index and derived from the soil profile, 
soil structure, and slopes of the land, salinity of the soil, pH, 
erosion, microroliyef and other soil qualifications and then 
marked as 100 point. P is referred productivity of the soil, and 
marked as 10 points. Where L is the location index of the parcel 
and marked as 20 points. 
According to this law, agricultural lands are grade 10 degrees. 
Between 1-7 degree lands are arranged in a one group. Between 
8-10 degree lands are not evaluated ( Demir, et. al., 2002 3 
Unique index value is established depending on the index and 
areas of the index values which are inside the same degree 
scale. The ratio of these different degree index values between 
each other gives the transformation table. If different degree 
value apart from the participation degree is determined to the 
holdings; this table can be used for transformation between 
degree values (Demirel, 2003). 
In application is used number of parcel value (Parsel Deger 
Sayisi - PDS) instead of transformation value. 
Equation (3) is used to compute number of parcel value 
PDS - PE * (Area) / 100 (3) 
The Algorithm 2 will need to be capable of performing two 
tasks. The first is the calculation of number of parcel value 
given back to owner. Second, The Algorithm 2 will calculate 
separately number of parcel value for each holding. This is 
showed us that which holdings will be given how many value. 
There is all information of cadastre parcels in Database System. 
These thinking, terms shown below is used in the Algorithm 2. 
GF - land area given back to owner, 
I and J = loop, 
N = number of cadastre parcels, 
S = number of holdings, 
TPDS = total number of parcel value for a holding, 
Algorithm 2. Calculation of Number of Parcel Value for Each 
Holding in General Directorate of Rural Service Applications 
1- START 
2- Open Database 
3- Input N from Database 
4. I LN 
5- Read PE(I) and GF(T) 
PE(T)*GF(1) 
6- Calculate PDS(I) = P BO 00 
7- Save Database 
8- Input S from Database 
9- JS 
10- TPDS=0 
11- I LN 
12- Calculate TPDS » TPDS + PDS (J, I) 
 
	        
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