Image retrieval

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Short description: Information retrieval involving digital images

An image retrieval system is a computer system used for browsing, searching and retrieving images from a large database of digital images. Most traditional and common methods of image retrieval utilize some method of adding metadata such as captioning, keywords, title or descriptions to the images so that retrieval can be performed over the annotation words. Manual image annotation is time-consuming, laborious and expensive; to address this, there has been a large amount of research done on automatic image annotation. Additionally, the increase in social web applications and the semantic web have inspired the development of several web-based image annotation tools.

The first microcomputer-based image database retrieval system was developed at MIT, in the 1990s, by Banireddy Prasaad, Amar Gupta, Hoo-min Toong, and Stuart Madnick.[1]

A 2008 survey article documented progresses after 2007.[2]

All image retrieval systems as of 2021 were designed for 2D images, not 3D ones.

Search methods

Image search is a specialized data search used to find images. To search for images, a user may provide query terms such as keyword, image file/link, or click on some image, and the system will return images "similar" to the query. The similarity used for search criteria could be meta tags, color distribution in images, region/shape attributes, etc.

  • Image meta search - search of images based on associated metadata such as keywords, text, etc.
  • Content-based image retrieval (CBIR) – the application of computer vision to the image retrieval. CBIR aims at avoiding the use of textual descriptions and instead retrieves images based on similarities in their contents (textures, colors, shapes etc.) to a user-supplied query image or user-specified image features.
    • List of CBIR Engines - list of engines which search for images based image visual content such as color, texture, shape/object, etc.

Data scope

It is crucial to understand the scope and nature of image data in order to determine the complexity of image search system design. The design is also largely influenced by factors such as the diversity of user-base and expected user traffic for a search system. Along this dimension, search data can be classified into the following categories:

  • Archives - usually contain large volumes of structured or semi-structured homogeneous data pertaining to specific topics.
  • Domain-Specific Collection - this is a homogeneous collection providing access to controlled users with very specific objectives. Examples of such a collection are biomedical and satellite image databases.
  • Enterprise Collection - a heterogeneous collection of images that is accessible to users within an organization's intranet. Pictures may be stored in many different locations.
  • Personal Collection - usually consists of a largely homogeneous collection and is generally small in size, accessible primarily to its owner, and usually stored on a local storage media.
  • Web - World Wide Web images are accessible to everyone with an Internet connection. These image collections are semi-structured, non-homogeneous and massive in volume, and are usually stored in large disk arrays.

Evaluations

There are evaluation workshops for image retrieval systems aiming to investigate and improve the performance of such systems.

  • ImageCLEF - a continuing track of the Cross Language Evaluation Forum that evaluates systems using both textual and pure-image retrieval methods.
  • Content-based Access of Image and Video Libraries - a series of IEEE workshops from 1998 to 2001.

See also


References

  1. B E Prasad; A Gupta; H-M Toong; S.E. Madnick (February 1987). "A microcomputer-based image database management system". IEEE Transactions on Industrial Electronics IE-34 (1): 83–8. doi:10.1109/TIE.1987.350929. http://dspace.mit.edu/bitstream/1721.1/48507/1/microcomputerbas00pras.pdf. 
  2. Datta, Ritendra (April 2008). "Image Retrieval: Ideas, Influences, and Trends of the New Age". ACM Computing Surveys 40 (2): 1–60. doi:10.1145/1348246.1348248. http://infolab.stanford.edu/~wangz/project/imsearch/review/JOUR/. 
  3. Camargo, Jorge E.; Caicedo, Juan C.; Gonzalez, Fabio A. (2013). "A kernel-based framework for image collection exploration". Journal of Visual Languages & Computing 24 (1): 53–57. doi:10.1016/j.jvlc.2012.10.008. 

External links




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