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--- eyes:logics:classification [2017/06/06 17:00]
nfische [Modes]
+++ eyes:logics:classification [2017/06/06 17:32]
nfische [Concept]
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 =====Usage=====
-A prerequisite for a feasible **classification** is a complexity reduction of the given input dataset. This can be achieved by performing a [[:eyes:logics:pca]]. The PCA can be carried out either internally by the classification-logic or beforehand by the respective PCA logic. Additionally, the user has to define the input set and the number of expected classes/clusters. Now, the logic will split the dataset according to the information provided by the PCA into as many classes/clusters as determined aiming for minimal variance within each class/cluster.
+A prerequisite for a feasible **classification** is a complexity reduction of the given input dataset. This can be achieved by performing a [[:eyes:logics:pca]]. The PCA can be carried out either internally by the classification-logic or beforehand by the respective PCA logic. Additionally, the user has to define the input set and the number of expected classes/clusters. Now, the logic will split the dataset according to the information provided by the PCA into as many classes/clusters as determined aiming for an optimum of i) minimal variance within each class/cluster and ii) a maximized signal-to-noise ratio.
 ===== Example ====
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 | Eigen images location     | Define, whether the Eigen images used for complexity reduction are generated on-the-fly internally (intern) or provided by an input from en external source (extern) |
 | -> Number of eigen images | How many Eigen images (and therefore dimensions) should be used as components during linear combination |
-| Split up method           | Determine, whether large classes should be slip up into smaller classes due to their number of containing objects (size) or due to their high internal variance of the cross-correlation-coefficients (cccVariance) |
+| Split up method           | Determine, whether large classes should be split into smaller classes i) to obtain classes containing a similar number of images/volumes (Cluster size) or ii) to minimize internal variance within each class, as measured by the cross-correlation-coefficients (cccVariance) |
 | Number of classes         | Number of resulting classes/clusters |
 | Remove duplicated images  | Duplicate images identified by the classification are removed |
@@ Line 23: / Line 23: @@
 ^ Input   ^ Description ^
 | Input   | Stack of input images |
-| //Pre Eigen Images// | (Only available, if //Eigen images location = extern; i.e. Eigen images precomputed with [[eyes:logics:PCA]] module//) Stack of Eigen images with the sum of all images and a mask as the last two images |
+| //Pre Eigen Images// | (Only available, if //Eigen images location = extern; i.e. Eigen images precomputed with [[eyes:logics:PCA]] logic//) Stack of Eigen images with the sum of all images and a mask as the last two images |
 |< 100% 30% >|
@@ Line 35: / Line 35: @@
 ===== Concept =====
-Once clusters/classes of images are found, they can be averaged (see [[eyes:logics:SumByClassNumber]]) to improve the signal-to-noise-ration substantially.((van Heel, M. (1984). Multivariate statistical classification of noisy images (randomly oriented biological macromolecules). Ultramicroscopy, 13(1-2), 165–83. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/6382731))
+Once clusters/classes of images are found, they can be averaged (see [[eyes:logics:SumByClassNumber]]) to improve the signal-to-noise-ratio substantially.((van Heel, M. (1984). Multivariate statistical classification of noisy images (randomly oriented biological macromolecules). Ultramicroscopy, 13(1-2), 165–83. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/6382731))