Resource Management Information Systems: Remote Sensing, GIS and Modelling, Second EditionCRC Press, 21. pro 2005. - Broj stranica: 616 Resource Management Information Systems: Remote Sensing, GIS and Modelling, Second Edition provides you with the knowledge and skill necessary to design, build, implement, and operate spatial resource management information systems for the management of physical resources. This volume promotes the use of these technologies in a spatial context, enabling you to apply information systems toward the management of resources in agriculture, forestry, land use planning, valuation, engineering, and many additional fields. A follow-up to the first edition, Resource Management Information Systems: Process and Practice, this book offers extensive revisions, reflecting the rapidly evolving nature of the technologies needed to manage spatial resources. |
Sadržaj
Contents | 5 |
3 | 12 |
Reference | 25 |
1 | 31 |
3 | 42 |
Interaction of Radiation with Matter | 48 |
Additional Reading | 119 |
3 | 148 |
Further Reading | 354 |
Simple Raster Data Analysis in a | 365 |
4 | 388 |
Near | 399 |
Gravity Models | 408 |
14 Values of x x1 and x2 Expected for the m Values Used and the Distances of | 439 |
References | 454 |
Additional Reading | 518 |
Ostala izdanja - Prikaži sve
Resource Management Information Systems: Remote Sensing, GIS and Modelling ... Keith R. McCloy Ograničeni pregled - 2005 |
Resource Management Information Systems: Remote Sensing, GIS and Modelling ... Keith R McCloy Pregled nije dostupan - 2019 |
Uobičajeni izrazi i fraze
absorption accuracy analysis angle applied array atmospheric bands camera canopy changes characteristics classification co-ordinates colour components compute conducted Consider contain correct correlation costs cover create curve defined depends derived determined direction discussed distance distribution effects energy enhancement Equation errors estimate example field field data Figure filter frequency function give green height image data imagery important incident increases indices interest interpretation layer linear means measured method normally object observations occur parameters photographs physical pixel position probability projection proportions radar radiance radiation range recorded reflectance relationship relative remotely sensed represent resolution resource response result sample scale season selected sensor shown in Figure shows signal soil spatial specific spectral surface Table temporal transformation types unit usually values variance variations vegetation wavebands wavelength