Image and Video Tagging in the Internet Era

Published on Jul 18, 20115933 Views

Xian-Sheng Hua

Automatically converting visual content into textual description has long been a dream of a number of multimedia, computer vision and machine learning researchers. Image and video tagging, which has b

S3MR 2011 - Antalya

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Internet, World Wide Web

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Chapter list

Image and Video Tagging in the Internet Era00:00

Learning To Tag00:07

About Xian-Sheng Hua00:12

Why Need Tag Recommendation?00:32

Outline - 101:49

Tag Distribution on Flickr01:50

Outline - 202:34

What's Happening02:38

Tag Recommendation03:17

Straightforward Method03:57

Top Five Sites04:39

Characteristics of Internet Multimedia05:12

Learning to Tag05:41

Variety of Internet Multimedia Applications06:37

Tag Content Correlation06:54

Image - Conditioned Tag Correlation07:10

One of the Key Challenge. Search07:25

Learning To Tag07:57

Evolution of Media Tagging08:27

Results - 108:48

Results - 209:25

Results - 310:03

Different Types of Tags10:56

Flickr Distance11:06

Multimedia Information Retrieval12:12

Synonyms12:17

Image Similarity/Distance - 112:18

Outline - 312:47

Image Similarity/Distance - 212:48

Outline - 412:53

Learning Based Tagging12:56

Image Similarity/Distance - 312:59

Image Similarity/Distance - 413:03

Concept Similarity/Distance 13:06

WordNet Distance13:18

Learning-Based Tagging/Annotation13:28

Google Distance13:30

Concept Pairs, Google Distance13:38

Approaches14:07

Correlative Multi - Label Learning14:28

Tag Concurrence Distance14:28

Automated Annotation - 1st Paradigm14:38

Concept Pairs15:15

To Exploit Label Correlations15:49

Different Concept Relationships16:05

Concept Distance17:00

Automated Annotation - 2nd Paradigm - 117:08

Can we mine concept distance from image content?17:18

Some Facts17:26

Overview of Flickr Distance18:05

Automated Annotation - 2nd Paradigm - 218:29

Automated Annotation - 3rd Paradigm 18:39

CML Roadmap19:03

Flickr Distance - 119:11

Automated Annotation - 3rd Paradigm19:29

What We Need - 119:47

How to Model Concept Correlations19:59

What We Need - 220:46

Correlative Multi - Label Video Annotation - 120:55

What We Need - 321:36

Statistical Language Model21:48

Correlative Multi - Label Video Annotation - 221:57

Visual Language Model 22:36

Correlative Multi - Label Video Annotation - 323:42

Performance of VLM23:46

Latent - Topic VLM - 124:15

Correlative Multi - Label Video Annotation - 424:22

Latent - Topic VLM - 224:39

Correlative Multi - Label Video Annotation - 524:51

Performance of LT - VLM25:08

Flickr Distance - 225:40

Correlative Multi - Label Video Annotation - 625:59

Procedure of Flickr Distance26:25

Correlative Multi - Label Video Annotation - 726:54

Experiments26:56

Experiments - Configurations27:00

Correlative Multi - Label Video Annotation - 827:19

Eva1: Subjective Evaluation27:28

Correlative Multi - Label Video Annotation - 927:47

Correlative Multi - Label Video Annotation - 1028:00

Eva2: Objective Evaluations28:24

App1: Concept Clustering28:53

Correlative Multi - Label Video Annotation - 1129:07

App2: Image Annotation29:25

Correlative Multi - Label Video Annotation - 1229:43

App3: Tag Recommendation30:09

Outline Active Multi - Label Learning30:15

Learning Based Tagging30:32

Discussion30:34

Where Is the Way Out?31:07

Similar Patterns31:32

Flickr Distance - 332:13

Social Tagging and Tag Processing32:34

A Promisin Direction - Active Annotation33:08

An Attempt34:00

Test - 234:25

Online Multi - Label Active Learning - 135:18

Online Multi - Label Active Learning - 235:35

Online Multi - Label Active Learning - 335:48

Outline - 835:53

Outline - 935:57

Online Multi - Label Active Learning - 436:00

Online Multi - Label Active Learning - 536:33

Data Driven Web - Scale Tagging36:57

Online Multi - Label Active Learning - 637:30

Introduction37:34

Example - 438:22

Labels38:29

Multi - Label (Two - Dimensional) Active Learning38:56

Example - 539:27

How Many Duplicates on the Web?39:49

Online Multi - Label Learner - 139:51

Online Multi - Label Learner - 240:14

CBIR - Based Tagging - 140:17

CBIR - Based Tagging - 240:28

Experiments - 140:33

Near-dup search based Tagging on 2 Billion Images - Basic Idea41:00

Experiments - 241:06

Thr Value of Duplicates41:22

Experiments - 341:23

Active Annotations42:04

How Learning - Based Tagging is Used42:26

DEMOS42:48

Example - 642:54

Example - 743:20

Example - 143:33

Example - 843:35

Example - 943:49

Example - 1044:15

Some Numbers44:32

Learning - Based Tagging44:41

Towards Efficient Near-dup Search45:21

Test - 146:00

Hash Code Based Near-dup Detection47:01

Summary - Dup search methods47:35

Building Web - Scale Image Graph48:32

Techniques - Scalable k-NN graph construction51:16

Outline - 552:27

Outline - 652:40

Social Tagging and Tag Processing52:47

Social Media and the Associated Tags52:50

Key technologies53:13

Random divide-and-conquer53:29

Illustration of a random division53:37

Social tags are good, but they are:53:49

Multiple random divide-and-conquer54:46

Illustration of multiple divisions55:02

Tag Ranking55:10

The most relevant tag is not at the top position55:18

This phenomenon is widespread on social media websites such as Flickr55:54

Search on Flickr56:32

Illustration of neighborhood propagation - 157:06

What are we going to do:57:10

But how can we make it?57:40

Image Ranking vs. Tag Ranking57:45

Illustration of neighborhood propagation - 257:56

Illustration of neighborhood propagation - 358:12

Illustration of neighborhood propagation - 458:26

Illustration of neighborhood propagation - 558:26

Image Reranking vs. Tag Ranking58:28

Illustration of neighborhood propagation - final58:29

Can we borrow some idea from image reranking?59:18

Quantative evaluation59:18

Basic Assumptions59:26

Typical Image ReRanking - Random Walk59:50

Demo01:00:11

Basic Assumptions01:00:21

Tag Ranking (for each image)01:00:46

Example - 1101:00:55

Teh Problem is:01:00:57

What We Can Use - 101:01:14

WordNet Distance01:01:19

Example - 1201:01:58

Google Distance01:02:10

Real Demo01:02:11

What We Can Use - 201:02:57

Tag Concurrence Distance01:03:12

Example - 1301:03:55

Example - 1401:03:56

Example - 1501:03:58

Not Finished Yet01:03:59

Example - 201:04:09

Tag 2Image Distance01:04:21

Test - 301:04:28

Random Walk Based Tag Ranking - 101:06:35

Random Walk Based Tag Ranking - 201:06:46

Random Walk Based Tag Ranking - 301:06:56

A Better Measure: Flickr Distance01:07:30

Is It Enough?01:07:32

Basic Assumptions01:07:35

Initial Relevance Estimation01:08:31

Outline - 1001:09:13

Outline - 1101:09:20

Evolution of Extracting Semantics01:09:21

Idea Solution01:09:58

Rethinking Bridging Semantic Gap - 101:09:59

Initial Rank Estimation01:10:12

In Summary: Tag Ranking01:10:36

Performance Evaluation01:10:51

Rethinking Bridging Semantic Gap - 201:11:10

Example - 301:11:24

Rethinking Bridging Semantic Gap - 301:11:45

After Tag Ranking:01:12:14

A Preliminary Attempt01:12:15

Application 1: Tag - based search - 101:12:25

Application 1: Tag - based search - 201:12:44

Performance of Tag - Based Search01:12:49

Application 2: Auto Tagging01:13:05

Study of the China Market01:13:38

Performance of Auto Tagging01:13:56

Application 3: Group recomendation01:14:55

Rethinking Bridging Semantic Gap - 401:15:01

Performance of Group Recommendation 01:15:09

Conclusion01:15:30

Future Directions01:15:39

Outline - 701:16:03

Questions?01:16:15