Learn to Personalized Image Search from the Photo Sharing Websites

The social media sites, such as Flickr and del.icio.us, allow users to upload content and annotate it with descriptive labels known as tags, join special-interest groups, and so forth. We believe user-generated metadata expresses user’s tastes and interests and can be used to personalize information to an individual user. Specifically, we describe a machine learning method that analyzes a corpus of tagged content to find hidden topics. We then these learned topics to select content that matches user’s interests. We empirically validated this approach on the social photo-sharing site Flickr, which allows users to annotate images with freely chosen tags and to search for images labeled with a certain tag. We use metadata associated with images tagged with an ambiguous query term to identify topics corresponding to different senses of the term, and then personalize results of image search by displaying to the user only those images that are of interest to her.

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CONTENT-BASED IMAGE RETRIEVAL-SKETCH FOR MATCH

International Journal of Image Processing and Vision Science ◽

10.47893/ijipvs.2013.1062 ◽

2013 ◽

pp. 17-22

Author(s):

P.HARSHA VARDHAN REDDY ◽

K Saradha

Keyword(s):

Image Retrieval ◽

Digital Libraries ◽

Color Image ◽

Content Based Image Retrieval ◽

Image Search ◽

Visual Content ◽

Research Areas ◽

Full Color ◽

Photo Sharing ◽

Processing Steps

The content based image retrieval (CBIR) is one of the most popular, rising research areas of the digital image pro-cessing. Most of the available image search tools, such as Google Images and Yahoo! Image search, are based on textual annotation of images. In these tools images are manually annotated with keywords and then retrieved using text-based search methods. The performances of these systems are not satisfactory. The goal of CBIR is to extract visual content of an image automatically, like color, texture, or shape. This paper aims to introduce the problems and challenges concerned with the design and the creation of CBIR systems, which is based on a free hand sketch (Sketch based image retrieval – SBIR). The used descriptor is constructed after such special sequence of pre-processing steps that the transformed full color image and the sketch can be compared. We have studied EHD, HOG and SIFT. Experimental results on two sample databases showed good results. Overall, the results show that the sketch based system allows users an intuitive access to search-tools. The SBIR technology can be used in several applications such as digital libraries, crime prevention, photo sharing sites. Such a system has great value in apprehending suspects and identifying victims in forensics and law enforcement. A possible application is matching a forensic sketch to a gallery of mug shot images. The area of retrieve images based on the visual content of the query picture intense recently, which demands on the quite wide methodology spectrum on the area of the image processing.

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Pencarian File Gambar Berdasarkan Dominasi Warna

Jurnal Buana Informatika ◽

10.24002/jbi.v2i1.303 ◽

2011 ◽

Vol 2 (1) ◽

Author(s):

Vina Chovan Epifania ◽

Eko Sediyono

Keyword(s):

Digital Image ◽

Retrieval System ◽

Color Image ◽

Color Space ◽

Image Data ◽

Image Search ◽

Test Results ◽

Application Form ◽

Space Model ◽

Image File

Abstract. Image File Searching Based on Color Domination. One characteristic of an image that can be used in image searching process is the composition of the colors. Color is a trait that is easily seen by man in the picture. The use of color as a searching parameter can provide a solution in an easier searching for images stored in computer memory. Color images have RGB values that can be computed and converted into HSL color space model. Use of HSL images model is very easy because it can be calculated using a percent, so that in each pixel of the image can be grouped and named, this can give a dominant values of the colors contained in one image. By obtaining these values, the image search can be done quickly just by using these values to a retrieval system image file. This article discusses the use of the HSL color space model to facilitate the searching for a digital image in the digital image data warehouse. From the test results of the application form, a searching is faster by using the colors specified by the user. Obstacles encountered were still searching with a choice of 15 basic colors available, with a limit of 33% dominance of the color image search was not found. This is due to the dominant color in each image has the most dominant value below 33%.Â Â Keywords: RGB, HSL, image searchingÂ Abstrak. Salah satu ciri gambar yang dapat dipergunakan dalam proses pencarian gambar adalah komposisi warna. Warna adalah ciri yang mudah dilihat oleh manusia dalam citra gambar. Penggunaan warna sebagai parameter pencarian dapat memberikan solusi dalam memudahkan pencarian gambar yang tersimpan dalam memori komputer. Warna gambar memiliki nilai RGB yang dapat dihitung dan dikonversi ke dalam model HSL color space. Penggunaan model gambar HSL sangat mudah karena dapat dihitung dengan menggunakan persen, sehingga dalam setiap piksel gambar dapat dikelompokan dan diberi nama, hal ini dapat memberikan suatu nilai dominan dari warna yang terdapat dalam satu gambar. Dengan diperolehnya nilai tersebut, pencarian gambar dapat dilakukan dengan cepat hanya dengan menggunakan nilai tersebut pada sistem pencarian file gambar. Artikel ini membahas tentang penggunaan model HSL color space untuk mempermudah pencarian suatu gambar digital didalam gudang data gambar digital. Dari hasil uji aplikasi yang sudah dibuat, diperoleh pencarian yang lebih cepat dengan menggunakan pilihan warna yang ditentukan sendiri oleh pengguna. Kendala yang masih dijumpai adalah pencarian dengan pilihan 15 warna dasar yang tersedia, dengan batas dominasi warna 33% tidak ditemukan gambar yang dicari. Hal ini disebabkan warna dominan disetiap gambar kebanyakan memiliki nilai dominan di bawah 33%.Â Kata Kunci: RGB, HSL, pencarian gambar

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Tag Based Image Search Using User Re-ranking

International Journal of Computer Sciences and Engineering ◽

10.26438/ijcse/v6i7.772775 ◽

2018 ◽

Vol 6 (7) ◽

pp. 772-775

Author(s):

S. N. Paraj

Keyword(s):

Image Search

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A Study on Multi-Tag Method for Advanced Image Search

International Journal of Software Engineering for Smart Device ◽

10.21742/ijsesd.2017.4.1.07 ◽

2017 ◽

Vol 4 (1) ◽

pp. 65-72

Author(s):

Dae-Hoon Hwang ◽

Keyword(s):

Image Search

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Constructing Human Body as Digital Subjectivity: The Production and Consumption of Selfies on Photo-Sharing Social Media Platforms

Review of Contemporary Philosophy ◽

10.22381/rcp1820199 ◽

2018 ◽

Vol 18 (0) ◽

pp. 150

Keyword(s):

Social Media ◽

Human Body ◽

Production And Consumption ◽

Photo Sharing ◽

Social Media Platforms ◽

Digital Subjectivity

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End-To-End Supervised Product Quantization for Image Search and Retrieval

2019 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) ◽

10.1109/cvpr.2019.00518 ◽

2019 ◽

Cited By ~ 3

Author(s):

Benjamin Klein ◽

Lior Wolf

Keyword(s):

Image Search ◽

Product Quantization ◽

End To End ◽

Search And Retrieval

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A Digital Pathology Solution to Resolve the Tissue Floater Conundrum

Archives of Pathology & Laboratory Medicine ◽

10.5858/arpa.2020-0034-oa ◽

2020 ◽

Author(s):

Liron Pantanowitz ◽

Pamela Michelow ◽

Scott Hazelhurst ◽

Shivam Kalra ◽

Charles Choi ◽

...

Keyword(s):

Digital Pathology ◽

Primary Diagnosis ◽

Image Search ◽

Molecular Tests ◽

Tissue Identification ◽

Digital Database ◽

Glass Slides ◽

Search Tool ◽

Hematoxylin And Eosin ◽

Whole Slide Images

Context.— Pathologists may encounter extraneous pieces of tissue (tissue floaters) on glass slides because of specimen cross-contamination. Troubleshooting this problem, including performing molecular tests for tissue identification if available, is time consuming and often does not satisfactorily resolve the problem. Objective.— To demonstrate the feasibility of using an image search tool to resolve the tissue floater conundrum. Design.— A glass slide was produced containing 2 separate hematoxylin and eosin (H&E)-stained tissue floaters. This fabricated slide was digitized along with the 2 slides containing the original tumors used to create these floaters. These slides were then embedded into a dataset of 2325 whole slide images comprising a wide variety of H&E stained diagnostic entities. Digital slides were broken up into patches and the patch features converted into barcodes for indexing and easy retrieval. A deep learning-based image search tool was employed to extract features from patches via barcodes, hence enabling image matching to each tissue floater. Results.— There was a very high likelihood of finding a correct tumor match for the queried tissue floater when searching the digital database. Search results repeatedly yielded a correct match within the top 3 retrieved images. The retrieval accuracy improved when greater proportions of the floater were selected. The time to run a search was completed within several milliseconds. Conclusions.— Using an image search tool offers pathologists an additional method to rapidly resolve the tissue floater conundrum, especially for those laboratories that have transitioned to going fully digital for primary diagnosis.

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