Pattern recognition: Difference between revisions
imported>Matthias Brendel (Sorry. It is usually true.) |
mNo edit summary |
||
(6 intermediate revisions by 5 users not shown) | |||
Line 1: | Line 1: | ||
{{ | {{subpages}} | ||
{{dambigbox|text=For other meanings of this term, see: [[Pattern recognition (disambiguation)]].}} | |||
'''Pattern recognition''' is a field within the area of [[machine learning]]. Alternatively, it can be defined as | '''Pattern recognition''' is a field within the area of [[machine learning]]. Alternatively, it can be defined as | ||
:"the act of taking in raw data and taking an action based on the [[category]] of the data" [1]. | :"the act of taking in raw data and taking an action based on the [[category]] of the data" [1]. | ||
As such, it is a collection of methods for [[supervised learning]]. | As such, it is usually a collection of methods for [[supervised learning]] or [[unsupervised learning]]. | ||
Pattern recognition aims to classify [[data]] ([[pattern]]s) based on either ''[[a priori]]'' knowledge or on [[statistics|statistical]] information extracted from the patterns. The patterns to be classified are usually groups of measurements or observations, defining points in an appropriate [[space (mathematics)|multidimensional space]]. | Pattern recognition aims to classify [[data]] ([[pattern]]s) based on either ''[[a priori]]'' knowledge or on [[statistics|statistical]] information extracted from the patterns. The patterns to be classified are usually groups of measurements or observations, defining points in an appropriate [[space (mathematics)|multidimensional space]]. | ||
Line 42: | Line 41: | ||
* J. Schuermann: ''Pattern Classification: A Unified View of Statistical and Neural Approaches'', Wiley&Sons, 1996, ISBN 0-471-13534-8 | * J. Schuermann: ''Pattern Classification: A Unified View of Statistical and Neural Approaches'', Wiley&Sons, 1996, ISBN 0-471-13534-8 | ||
* Sholom Weiss and Casimir Kulikowski (1991) ''Computer Systems That Learn'', Morgan Kaufmann. ISBN 1-55860-065-5 | * Sholom Weiss and Casimir Kulikowski (1991) ''Computer Systems That Learn'', Morgan Kaufmann. ISBN 1-55860-065-5[[Category:Suggestion Bot Tag]] | ||
[[Category: | |||
Latest revision as of 06:00, 2 October 2024
- The content on this page originated on Wikipedia and is yet to be significantly improved. Contributors are invited to replace and add material to make this an original article.
Pattern recognition is a field within the area of machine learning. Alternatively, it can be defined as
- "the act of taking in raw data and taking an action based on the category of the data" [1].
As such, it is usually a collection of methods for supervised learning or unsupervised learning.
Pattern recognition aims to classify data (patterns) based on either a priori knowledge or on statistical information extracted from the patterns. The patterns to be classified are usually groups of measurements or observations, defining points in an appropriate multidimensional space.
A complete pattern recognition system consists of a sensor that gathers the observations to be classified or described; a feature extraction mechanism that computes numeric or symbolic information from the observations; and a classification or description scheme that does the actual job of classifying or describing observations, relying on the extracted features.
The classification or description scheme is usually based on the availability of a set of patterns that have already been classified or described. This set of patterns is termed the training set and the resulting learning strategy is characterised as supervised learning. Learning can also be unsupervised, in the sense that the system is not given an a priori labelling of patterns, instead it establishes the classes itself based on the statistical regularities of the patterns.
The classification or description scheme usually uses one of the following approaches: statistical (or decision theoretic), syntactic (or structural). Statistical pattern recognition is based on statistical characterisations of patterns, assuming that the patterns are generated by a probabilistic system. Structural pattern recognition is based on the structural interrelationships of features. A wide range of algorithms can be applied for pattern recognition, from very simple Bayesian classifiers to much more powerful neural networks.
Holographic associative memory is another type of pattern matching scheme where a target small patterns can be searched from a large set of learned patterns based on cognitive meta-weight.
Typical applications are automatic speech recognition, classification of text into several categories (e.g. spam/non-spam email messages), the automatic recognition of handwritten postal codes on postal envelopes, or the automatic recognition of images of human faces. The last two examples form the subtopic image analysis of pattern recognition that deals with digital images as input to pattern recognition systems.
Pattern recognition is more complex when templates are used to generate variants. For example, in English, sentences often follow the "N-VP" (noun - verb phrase) pattern, but some knowledge of the English language is required to detect the pattern. Pattern recognition is studied in many fields, including psychology, ethology, and computer science.
See also
External links
- List of Pattern Recognition web sites
- Related keywords
- Journal of Pattern Recognition Research
- Pattern Recognition Using Neural Networks : A Sample Project in Microsoft.NET
References
- Sergios Theodoridis, Konstantinos Koutroumbas, (2006) Pattern Recognition (3rd edition), Elsevier, ISBN 0-12-369531-7.
- Phiroz Bhagat, (2005) Pattern Recognition in Industry Elsevier, ISBN 0-08-044538-1.
- Richard O. Duda, Peter E. Hart, David G. Stork (2001) Pattern classification (2nd edition), Wiley, New York, ISBN 0-471-05669-3.
- Dietrich Paulus and Joachim Hornegger (1998) Applied Pattern Recognition (2nd edition), Vieweg. ISBN 3-528-15558-2
- J. Schuermann: Pattern Classification: A Unified View of Statistical and Neural Approaches, Wiley&Sons, 1996, ISBN 0-471-13534-8
- Sholom Weiss and Casimir Kulikowski (1991) Computer Systems That Learn, Morgan Kaufmann. ISBN 1-55860-065-5