Hydroinformatics: Data Integrative Approaches in Computation, Analysis, and ModelingModern hydrology is more interdisciplinary than ever. Staggering amounts and varieties of information pour in from GIS and remote sensing systems every day, and this information must be collected, interpreted, and shared efficiently. Hydroinformatics: Data Integrative Approaches in Computation, Analysis, and Modeling introduces the tools, approache |
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Page 1
... components that provide stores and flow paths for water through the physical environment of the earth, including oceans, atmosphere, lakes, rivers, soils, aquifers, etc. Numerous processes are associated with the movement of water ...
... components that provide stores and flow paths for water through the physical environment of the earth, including oceans, atmosphere, lakes, rivers, soils, aquifers, etc. Numerous processes are associated with the movement of water ...
Page 3
... components. An introduction to UML is provided in Chapter 2. This introduction will enable the reader to understand and create ... component of the data management process, particularly as the number of records stored in a database grows ...
... components. An introduction to UML is provided in Chapter 2. This introduction will enable the reader to understand and create ... component of the data management process, particularly as the number of records stored in a database grows ...
Page 12
... Component + Method1() – Attribute1 Node Interaction State machine Note Package FIGURE 2.3 The graphical representation of UML “things.” 2.2.1 UML Things Things include structural software objects, and three other types: behavioral ...
... Component + Method1() – Attribute1 Node Interaction State machine Note Package FIGURE 2.3 The graphical representation of UML “things.” 2.2.1 UML Things Things include structural software objects, and three other types: behavioral ...
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... Component role * (Aggregation) -Role 2 * -Role 1 (N-ary) -Role 3 1 0..1 Generalization Realization FIGURE 2.4 The graphical representation of UML “relationships.” The shapes share similarities based on their conceptual likeness. Role ...
... Component role * (Aggregation) -Role 2 * -Role 1 (N-ary) -Role 3 1 0..1 Generalization Realization FIGURE 2.4 The graphical representation of UML “relationships.” The shapes share similarities based on their conceptual likeness. Role ...
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... Component • Deployment 2.3 Object Model Diagrams 2.3.1 Object-Oriented Software Designs: Databases, HDF5, and COM The UML is often used to express the design of object-oriented relational databases such as OracleTM, IBM's DB2TM ...
... Component • Deployment 2.3 Object Model Diagrams 2.3.1 Object-Oriented Software Designs: Databases, HDF5, and COM The UML is often used to express the design of object-oriented relational databases such as OracleTM, IBM's DB2TM ...
Contents
7 | |
Managing and Accessing Large Datasets | 101 |
Data Communication | 161 |
Data Processing and Analysis | 257 |
Soft Computing | 379 |
Appendices | 477 |
Index | 529 |
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algorithm analysis application approach associated attributes bands boundary called Center chapter clusters complex component contains coordinate create data model data structures database datasets defined described distance distributed elements Engineering Equation error example extraction feature field Figure format function fuzzy geographic given grid HDF5 hydrologic illustrated implementation important input integration interface logical mean measurements metadata methods Modelshed multiple Name node objects operations optimization organized original output parameters perform prediction presented problem projection properties query raster records References relationship represent requires Research rules schema segment selection sensor shown simple sources spatial specific standard step storage stored structure transformation tree University values variables vector visualization xs:element