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10.2. Image Classification Types
Objectives
The objective of this learning object is to introduce the principal approaches to image classification including unsupervised, supervised and object based classification.
A key distinction between image classification approaches is whether or not the analyst uses prior information or whether the classification is based entirely on the data themselves. In the latter case, decisions are still required to be made, but these relate to the process and not to the details of the classification itself – this is termed unsupervised classification. By contrast, if the user already has some information about the land cover types at different locations in the area represented by the image, these can be used to ‘train’ the classification process – this is termed supervised classification.
We can here summarise some of the principal advantages and disadvantages of these approaches:
| Unsupervised Image Classification (UC) | |
| Advantages (relative to supervised classification) |
Disadvantages (relative to supervised classification) |
| No extensive/detailed a priori knowledge of the region is required | Spectral grouping produced by the classifier may not correspond to the information classes of interest to the analyst |
| Human error and bias is minimised (fewer decisions are required by the analyst) | There is limited control over the ‘menu’ of classes |
| More uniform classes are produced | Spectral properties of specific classes will change over time (relationships between information classes and spectral classes are not constant) |
| Spectrally distinct classes present in the data may be revealed which were not initially apparent to the analyst | |
| Supervised Image Classification (SC) |
|
| Advantages (relative to unsupervised classification) |
Disadvantages (relative to unsupervised classification) |
| The analyst has full control of the process | Signatures are forced, because training classes are based on field identification and not on spectral properties |
| Processing is tied to specific areas of known identity | Training data selected by the analyst may not be representative (heterogeneity within classes is common) |
| The analyst is not faced with the problem of matching categories on the final map with field information | The preparation of training data is time-consuming and costly (an iterative process) |
| The operator can detect errors, and is often able to remedy them | It is not possible to recognise and represent special or unique categories which may be present in the image but are not represented in the training data |
Reflection
Based on this initial summary of the potential advantages and disadvantages of supervised and unsupervised classification approaches, draw up a provisional list of situations in which you would anticipate that it might be preferable to use one approach rather than the other.
Consider an image of an area that you have already encountered and evaluate the extent to which these various advantages and disadvantages are likely to have relevance. Keep these notes with you as you continue to learn about unsupervised and supervised image classification.