ILMSImage Cell Creation

From ILMS-Wiki
(Difference between revisions)
Jump to: navigation, search
(Extended Options)
(Extended Options)
Line 55: Line 55:
 
| Morphological Smoothing || The results of the cell creation can be balanced on the pixel level, i.e. the cell borders are converted into  rather smooth forms before generating a vector data representation. As a default this function is off; the value of the parameter is 0.0.  
 
| Morphological Smoothing || The results of the cell creation can be balanced on the pixel level, i.e. the cell borders are converted into  rather smooth forms before generating a vector data representation. As a default this function is off; the value of the parameter is 0.0.  
 
|-
 
|-
| Tile Size || ILMSImage verwendet ein Kachelkonzept, um große Datenebenen effizient verarbeiten zu können. Die Größe der verwendeten Kacheln kann mit diesem Parameter angepasst werden, die dabei verwendete Einheit sind dabei Bildpixel des am höchsten aufgelösten Eingangsdatenkanals. Bei kleinflächigen Projekten (bis zu 3000 Pixeln Seitenlänge) ist es unter Umständen effizienter, die Kachelung durch Angabe eines entsprechend höheren Wertes für diesen Parameter auszuschalten.
+
| Tile Size || ILMSImage uses a tile concept to process large data layers efficiently. The size of the applied tiles can be modified by using this parameter. The unit is image pixel of the most highly resolved input channel. For small-area projects (up to 3000 pixels side length) it can be more efficient to switch off the tiling by indicating a higher value.
 +
 
|-
 
|-
| Tile Overlap || Um größere Zellen auch über mehrere interne Kacheln hinweg bilden zu können, greift ILMSImage im Randbereich dieser auf eine Überlappung zurück. Die Größe des Überlappungsbereichs kann mit diesem Parameter eingestellt werden. Einheit sind wieder Bildpixel des am höchsten aufgelösten Eingangsdatenkanals.
+
| Tile Overlap || In order to create big large cells across a number of internal tiles, ILMSImage draws on overlap in the margin. The size of the overlapping area can be defined by using this parameter. Again, the unit is image pixel of the most highly resolved input channel.
 
|}
 
|}
  

Revision as of 12:45, 25 July 2011

Contents

50px| ILMSImage Cell Creation

Introduction

ILMSImage Cell Creation is part of the ILMSImage plugin for QuantumGIS and there, it is used for cell creation with selected input data and further optional parameters.

The panel consists of two components. In the upper part the current project is summarized under the title ILMSImage Project Information. The rest of the panel is the actual functionality, in this case the derivation of statistically homogeneous image areas which are called cells in the context of ILMSImage. This division into two parts, project information and tools, also exists in other panels of the ILMSImage GUI plug-in.

Das Zellbildungs-Panel des ILMSImage-Plugins für QuantumGIS

Part 1: Information

The information which is summarized in the information section consists of the project name (1) and the data sources which have been used in the project and their identifiers (2) - assigned in the ILMSImage setup panel.

Informationen zu einem ILMSImage-Projekt

Part 2: Cell Creation

Background

The derivation of statistically homogeneous image areas is a key process in object-based image analysis. It is based on the assumption that the data material of modern remote sensing sensors which is getting more complex due to increasing data density cannot be analyzed adequately because pixels from common image analysis are used as a reference. As an alternative, object-based image analysis offers the creation of new areas as a basis for subsequent analysis. This process is often called segmentation and, in the context of ILMSImage as cell creation. It summarizes neighboring pixels on the basis of statistical similarities to areas (cells) which are as homogeneous as possible. This process does not only represent reduction of complexity of extensive input data but it also offers a new perspective on those data by providing new features (which are only rarely used in image analysis) for subsequent analysis. One of those features is, for example, the form of a cell or its spatial context which contains, among other things, the relation to the neighboring cells. Features for form and context are perceived as subordinate features in pixel-based analysis of remote sensing data due to the uniformity of the area, mostly the rectangular pixel.

For the segmentation process, i.e. the derivation of such reference areas from images, various suggestions and methods are provided in the corresponding literature. Some of them are summarized in Haralick & Shapiro (1985), Pal & Pal (1993) and Freixenet et al. (2002). For a basic understanding of ILMSImage it is sufficient to know that the cell creation process used in the software is based on a combination of the methods Region Growing and Watershed Analysis. It was developed with the aim to minimize the degrees of freedom which are available to the user for adaption. For an exact application of the method more detailed options are available. The result of the cell creation using ILMSImage is a first abstraction of the original image content, all other analyses are carried out using this cell image.

Overview

In the lower section of the panel is the tool for cell creation. Basically, the user can use three settings:

  1. Create new cells: The main parameter for a modification of ILMSImage cell creation is called modulation. It determines the average size of the resulting homogeneous areas after processing. For cell creation using ILMSImage only this parameter is obligatory.
  2. Activate extended options: Those are usually off but can be activated to modify the cell creation in detail.
  3. Export cells as shapefile: After the cell creation has been completed, it is possible to export the result as a shapefile and to visualize it on the map surface. This process can be modified in several aspects.

Einstellungen zur ILMSImage-Zellbildung

Activating the Cell Creation

By clicking on the corresponding check box the cell creation will be activated. The only piece of information which is obligatory for this process is the modulation. This term derives from the maximum contrast between neighboring pixels in the image data (Schowengerdt, 2007). The parameter of modulation controls the average size of emerging cells. The following relation has to considered: with increasing modulation the average size of cells increases, their number decreases accordingly, with decreasing modulation the average size of cells decreases but their number increases.

The range of values of the parameter lies between 0 and 1; it has to be noted that the extreme values do not lead to meaningful results under any circumstances. The value 0.07 is a predefined modulation value which has proven to be a good starting point for cell creation for a combination of spatially more highly resolved panchromatic data and spatially more lowly resolved multi-spectral data (as they are used in the current example). This default setting can be modified by the user concerning the cell creation parameter, so that it corresponds to the typical area size which is required for the analysis. The result of a new cell creation is a raster data set which has the pixel size of the most highly resolved input data, which can be found in the project directory and ends in _index. As ILMSImage requires exclusive access to the corresponding file for more operations, it is not automatically loaded into the map view. For visualizing the cell creation result the option of Export as Shapefile (see below) is more suitable.

Extended Options

By using extended options the cell creation can be modified more specifically. The processing can only be activated if the cell creation is activated as well. For a simple cell creation default values are used for these parameters which are also shown on the surface. Below the parameters are listed together with their functions:

ILMSImage Parameter Function
Minimum Mapping Unit The value of this parameter represents the smallest valid cell size in image pixels. Usually the smallest size is 1 and corresponds to the most highly resolved input data. Large-area analyses may require a modification of the value to a higher one in order to avoid the creation of very small cells.
Layer Bias This parameter controls the weighing of different input channels. It allows to assign a higher value to one data layer for the cell creation. As a default, the value is set to 1.0, so all data layers have the same value. By changing this value a different weight can be assigned to the first layer on the corresponding list.
Morphological Smoothing The results of the cell creation can be balanced on the pixel level, i.e. the cell borders are converted into rather smooth forms before generating a vector data representation. As a default this function is off; the value of the parameter is 0.0.
Tile Size ILMSImage uses a tile concept to process large data layers efficiently. The size of the applied tiles can be modified by using this parameter. The unit is image pixel of the most highly resolved input channel. For small-area projects (up to 3000 pixels side length) it can be more efficient to switch off the tiling by indicating a higher value.
Tile Overlap In order to create big large cells across a number of internal tiles, ILMSImage draws on overlap in the margin. The size of the overlapping area can be defined by using this parameter. Again, the unit is image pixel of the most highly resolved input channel.

Vektordatenexport

Es ist möglich, das Ergebnis der Zellbildung als Vektordatensatz, speziell als ein Shapefile, zu exportieren. Um diesen Export zu veranlassen, muss das entsprechende Kontrollkästchen im dritten Abschnitt des Zellbildungs-Panels aktiviert werden. Standardmäßig trägt die entstehende Datei den Namen des Projekts erweitert um _index.shp und werden die dazugehörigen Dateien in ein Unterverzeichnis des Projektworkspace mit dem Namen exports kopiert. Name und Speicherort lassen sich zusätzlich vom Nutzer anpassen. Es ist weiterhin möglich, die erstellten Polygone adaptiv zu glätten, was sich durch Aktivierung des Kontrollkästchens Smooth arcs with grade einschalten lässt. Der Grad der Glättung lässt sich in der nebenstehenden Auswahlbox festlegen (Wertebereich von 1 bis 7), dabei werden die Polygone mit zunehmendem Grad stärker geglättet.

Durchführung der Zellbildung

Mit einem Klick auf Create and/or visualize cells werden die gewählten Operationen durchgeführt. Je nach Größe des Untersuchungsgebiets und der selektierten Parameter kann dies einige Minuten dauern. Die Beendigung der Prozesse wird durch Informationsboxen angezeigt.

Dialoge zur Information über Beendigung der Zellbildung

Wurde der Vektordatenexport aktiviert, so erfolgt das Laden der entsprechenden Datensätze nach Bestätigung der Beendigungsnachrichten automatisch. Der Zellindex ist nun in Vektorform zu betrachten und kann mittels einer weiteren Zellbildung durch Parameteränderung angepasst oder für die folgenden Analyseprozesse übernommen werden. Es ist zu beachten, dass i.d.R. immer nur ein Zellbildungsergebnis in Rasterform vorliegt, das heißt, zur Wiederherstellung eines vorherigen Zellindex muss dieser erneut mit den identischen Parametern erstellt werden, eine Funktion, die selbstständig zu einem vorherigen Ergebnis zurückkehrt, existiert nicht. Für exportierte Vektordaten trifft diese Einschränkung nicht zu, so fern beim Export unterschiedliche Dateinamen angegeben wurden.

800px|Zellindex als Vektordatenlayer über Originaldaten

Weiteres Vorgehen

Nach der Zellbildung setzt sich eine typische ILMSImage-Prozesskette mit der Ableitung und Berechnung von Zellattributen mittels des Panels ILMSImage Attribute Calculation fort.

Personal tools