This unit discusses several aspects of managing error in spatial databases. It begins with a hypothetical example of a routing problem that is used to demonstrate the process of error analysis and sensitivity analysis in a modeling exercise. Sources of artifacts in raster and vector data, and strategies to avoid them, are presented, and methods for storing accuracy information in a database are discussed
Methods are needed for monitoring the propagation of errors when spatial models are driven by quanti...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN031196 / BLDSC - British Library D...
Errors within a Geographic Information System (GIS) arise from several factors. In the first instanc...
This unit discusses several aspects of managing error in spatial databases. It begins with a hypothe...
This report was prepared in conjunction with Research Initiative No. 1 of the National Center for Ge...
This unit discusses error detection and evaluation by graphical methods. It describes example method...
© 2020 Ivan MajicThe quality of data in spatial databases greatly affects the performance of locatio...
A spatial error may refer to the difference between a measured value and the “true ” value or the es...
Computer-generated maps, manipulated through geographic information systems (GIS), are powerful tool...
In most spatially oriented projects, the conversion of data from analog to digital form used to be a...
This unit considers one of the most important technical issues in GIS—data accuracy. It examines sev...
The inclusion of error handling capabilities within geographical information systems (GIS) is seen b...
This presentation offers an overview of GIS database creation, focusing on reducing errors and visua...
In most spatially oriented projects, the conversion of data from analog to digital form used to be a...
The objective of this study is to investigate spatial structures of error in the assessment of conti...
Methods are needed for monitoring the propagation of errors when spatial models are driven by quanti...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN031196 / BLDSC - British Library D...
Errors within a Geographic Information System (GIS) arise from several factors. In the first instanc...
This unit discusses several aspects of managing error in spatial databases. It begins with a hypothe...
This report was prepared in conjunction with Research Initiative No. 1 of the National Center for Ge...
This unit discusses error detection and evaluation by graphical methods. It describes example method...
© 2020 Ivan MajicThe quality of data in spatial databases greatly affects the performance of locatio...
A spatial error may refer to the difference between a measured value and the “true ” value or the es...
Computer-generated maps, manipulated through geographic information systems (GIS), are powerful tool...
In most spatially oriented projects, the conversion of data from analog to digital form used to be a...
This unit considers one of the most important technical issues in GIS—data accuracy. It examines sev...
The inclusion of error handling capabilities within geographical information systems (GIS) is seen b...
This presentation offers an overview of GIS database creation, focusing on reducing errors and visua...
In most spatially oriented projects, the conversion of data from analog to digital form used to be a...
The objective of this study is to investigate spatial structures of error in the assessment of conti...
Methods are needed for monitoring the propagation of errors when spatial models are driven by quanti...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN031196 / BLDSC - British Library D...
Errors within a Geographic Information System (GIS) arise from several factors. In the first instanc...