WP04 Data Compilation and Analysis by DEU Water Resources Management Research and Application Center...
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Transcript of WP04 Data Compilation and Analysis by DEU Water Resources Management Research and Application Center...
WP04WP04
Data Compilation and AnalysisData Compilation and Analysis
by
DEU Water Resources Management Research and Application Center (SUMER), TURKEY
DEU Water Resources Management Research and Application Center
...the work package of SMART to compile, analyze and compare data used in each case study by means of a standardized database.
The main objective of WP04 is...
...to compile and process the data required for the individual case study applications of the methods defined in WP02 and the numerical tools described and configured in WP03, subject to the constraints...
...for the final purpose of facilitating
i. the use of the common set of methods across case studies; and
ii. the comparative analysis across case studies.
WORK PACKAGE: 04WORK PACKAGE: 04
Main Tasks:Main Tasks:
•Compilation, analysis, and processing of socio-economic data, which areCompilation, analysis, and processing of socio-economic data, which are defined and detailed in defined and detailed in WP02;WP02;
• Compilation, analysis, and processing of physiographic and hydrological dataCompilation, analysis, and processing of physiographic and hydrological data identified inidentified in WP03;WP03;
• Building of a consistent database across case studies, which cover all socioeconomicBuilding of a consistent database across case studies, which cover all socioeconomic and and modeling data;modeling data;
• Comparative analysis of the data on case studies with respect to theirComparative analysis of the data on case studies with respect to their availability, completeness, availability, completeness, consistency and plausibility;consistency and plausibility;
• Preparation of the data report.Preparation of the data report.
WORK PACKAGE: 04WORK PACKAGE: 04
Further Tasks to be performed:Further Tasks to be performed:
All case study partners will prepare their own Data Compilation and Analysis Report.All case study partners will prepare their own Data Compilation and Analysis Report.
Having all reports forwarded to SUMER, the final “Data Compilation and AnalysisHaving all reports forwarded to SUMER, the final “Data Compilation and Analysis R Report” eport” summary report will be prepared by SUMER as a deliverable. summary report will be prepared by SUMER as a deliverable.
At the end ofAt the end of WP04, a comprehensive database of SMART test cases will WP04, a comprehensive database of SMART test cases will have have bebeenen constructed, constructed,
and thisand this will enable the comparison of all case studies in view of data availability, consistencywill enable the comparison of all case studies in view of data availability, consistency and and quality. quality.
Furthermore, this database will feed the analytical tools, Telemac andFurthermore, this database will feed the analytical tools, Telemac and WaterWare. WaterWare.
The scenario-based conditions will also be held in the database for eachThe scenario-based conditions will also be held in the database for each case study area.case study area.
WORK PACKAGE: 04WORK PACKAGE: 04
A sound database provides in general; •Reliable information storage that allows retrieval at a later date
• Up-to-date information, which requires well-defined functions for updating the Information
• Analytical functions that allow, amongst others, to pose what-if questions, to run simulations,to assess alternative scenarios etc.
Formal database design is composed of certain steps as follows:
Requirements Analysis what data are to be stored in the database, what applications must be built on top of it, and what operations are the most frequent and subject to performance requirements.
Conceptual Design the formation of the Entity-Relationship (ER) Model, which is a popular high-level conceptual data model.
Logical Design the actual implementation of the database, using a commercial Database Management System (DBMS).
Physical Design internal storage structures (tabular structures) and file organisations for the database are specified.
NEED FOR A DATABASE IN SMARTNEED FOR A DATABASE IN SMART
CONCEPTUAL DESIGN OF THE DATABASE CONCEPTUAL DESIGN OF THE DATABASE FOR SOCIO-ECONOMIC DATAFOR SOCIO-ECONOMIC DATA
CONCEPTUAL DESIGN OF THE DATABASE CONCEPTUAL DESIGN OF THE DATABASE FOR FOR MODELINGMODELING DATA DATA
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR SOCIO-ECONOMIC DATAFOR SOCIO-ECONOMIC DATA
Relational Schema
CASE_COUNTRY (CName, C_Code)
REGION (RName, R_Code)
MUNICIPALITY (MName, M_Code, R_Code)
REG_POP (Year, Value, Pop_Char, R_Code)
MUN_POP (Year, Value, Pop_Char, M_Code)
IND_LOOKUP (Ind_Code, Ind_Name, Unit)
NAT_IND (Ind_Code, Value, C_Code)
REG_IND (Ind_Code, Value, R_Code)
MUN_IND (Ind_Code, Value, M_Code)
NAT_IND_DTL (Ind_Code, Class, Value, C_Code)
REG_IND_DTL (Ind_Code, Class, Value, R_Code)
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR SOCIO-ECONOMIC DATAFOR SOCIO-ECONOMIC DATA
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR SOCIO-ECONOMICSOCIO-ECONOMIC DATA DATA
AR
EA
-SC
ALE
D E
NT
ITIE
S
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR SOCIO-ECONOMICSOCIO-ECONOMIC DATA DATA
DE
MO
GR
AP
HIC
EN
TIT
IES
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR SOCIO-ECONOMICSOCIO-ECONOMIC DATA DATA
INDICATOR DATA
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR SOCIO-ECONOMICSOCIO-ECONOMIC DATA DATA
INDICATOR SUBCLASSES DATA
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR MODELINGMODELING DATA DATA
Relational Schema
RBO_LOOKUP (A_Code, A_Name, Class_Code, Explanation)
RBO_TYPE (Class_Name, Class_Code)
RBO_DATA (RBO_ID, A_Code, Value)
RBO (RBO_ID, RBO_Type, RBO_Name, R_Code)
PRECIPITATION (Year, Month, Day, Value, RBO_ID)
STREAMFLOW (Year, Month, Day, Value, RBO_ID)
AIR_TEMP (Year, Month, Day, Value, RBO_ID)
LUSE_DATA (Percent_Value, LUse_Type, RBO_ID)
SOIL_TYPE (Soil_Type)
SOIL_DATA (Soil_Type, RBO_ID)
HYPSO_CURVE (Elevation, Area, RBO_ID)
RNO (RNO_ID, From_Node, To_Node, Length, Slope, Roughness, #_of_XS, R_Code)
XS_DATA (XS_ID, Ref_X, Ref_Y, Ref_Z, RNO_ID)
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR MODELINGMODELING DATA DATA
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR MODELINGMODELING DATA DATA
RIVER BASIN OBJECT GROUP DATA
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR MODELINGMODELING DATA DATA
TIM
E S
ER
IES
DA
TA
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR MODELINGMODELING DATA DATA
ADDITIONAL DATA
LOGICLOGICAL DESIGN OF THE DATABASE AL DESIGN OF THE DATABASE FOR FOR MODELINGMODELING DATA DATA
RIV
ER
NE
TW
OR
K O
BJE
CT
GR
OU
P
JUST AS AN EXAMPLE...JUST AS AN EXAMPLE...
Subcatchment 1 Subcatchment 2
Buldan ReservoirAfsar Reservoir
Sarıgol IrrigationAlasehir Irrigation
Buldan Weir
Confluence Node 1
Diversion
Confluence Node 2
Confluence Node 3
JUST AS AN EXAMPLE...JUST AS AN EXAMPLE...
Sarıgol Irrigation
Subcatch. 1 Subcatch. 2
Buldan Reservoir
Afsar Reservoir
Alasehir Irrigation
Buldan Weir
Confluence Node 1
Diversion
Confluence Node 2
Confluence Node 3
INFORMATION EXTRACTION FROM THE INFORMATION EXTRACTION FROM THE DATADATABASEBASE
If we want to get industrial water consumption per capita for all case-study regions...
And the result is...
IND_CODE INDICATOR NAME TURKEY TUNISIA JORDAN LEBANON EGYPT
D6 Life Expectancy at Birth
E1 Growth of G.D.P.
E2 Activity Rate
E3 Agricultural Income Distr. by the Main Types of Production
E4 Industrial Income Distr. by the Main Types of Production
E5 Percentage of Tertiary Employment
E6 Tourism Income Contribution to the Reg. Product
P1 Water Price for the Domestic Use
P2 Water Price for the Agriculture Use
P3 Water Price for the Industry
P4 Water Price for the Tourism Units
P5 Water Treatment Investments
P6 Reservoir Storage Investments
P7 Water Distribution and Use Systems Investments
W1 Water Consumption per capita
W2 Domestic Water Consumption per capita
W3 Commercial Water Consumption per capita
W4 Agricultural Water Consumption per capita
W5 Industrial Water Consumption per capita
W6 Total Water Consumption
DATA AVAILABILITYDATA AVAILABILITY (national level)
DATA AVAILABILITYDATA AVAILABILITY (regional level)IND_CODE INDICATOR NAME TURKEY TUNISIA JORDAN LEBANON EGYPT
D1 Population Growth Rate
D2 Migratory Rate
D3 Population Density
D4 Crude Death Rate
D5 Crude Birth Date
D6 Life Expectancy at Birth
E1 Growth of G.D.P.
E2 Activity Rate
E3 Agri. Income Distr. by the Main Types of Produc.
E4 Inds. Income Distr. by the Main Types of Produc.
E5 Percentage of Tertiary Employment
E6 Tourism Income Contribution to the Reg. Product
P1 Water Price for the Domestic Use
P2 Water Price for the Agriculture Use
P3 Water Price for the Industry
P4 Water Price for the Tourism Units
P5 Water Treatment Investments
P6 Reservoir Storage Investments
P7 Water Distribution and Use Systems Investments
W1 Water Consumption per capita
W2 Domestic Water Consumption per capita
W3 Commercial Water Consumption per capita
W4 Agricultural Water Consumption per capita
W5 Industrial Water Consumption per capita
W6 Total Water Consumption
IND_CODE INDICATOR NAME TURKEY TUNISIA JORDAN LEBANON EGYPT
D1 Population Growth Rate
D3 Population Density
DATA AVAILABILITYDATA AVAILABILITY (municipal level)
...some data from Lebanon and Tunisia on other indicators...(?)
Thank You…Thank You…