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Flickr Information propagation in the Flickr social network Meeyoung Cha mcha@mpi-sws.mpg.de Max Planck Institute for Software Systems With Alan Mislove and Krishna Gummadi TU Berlin Deutsche Telekom Lab
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Max Planck Institute Diffusion of innovations How, why, and at what rate new ideas and technology spread through cultures? [Rogers 1950s] time 2
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Max Planck Institute Milgram’s Experiment Through which social links information flow? 160 people in Nebraska Pass letters to a colleague socially close to them Towards a particular stockbroker in Boston [1960s] It took Six hops to deliver each letter 3
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Max Planck Institute YouTubeFlickrDelicious Friendster Facebook Orkut MySpace LiveJournal Cyworld 4 Online social networks bring unique opportunity for understanding information spreading
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Max Planck Institute Online social networks (OSN) OSN websites are popular Used for a variety of information propagation purposes Viral marketing, political campaign, content sharing, launch of movie trailers, product promotions, etc. In 2007, $12 billion spent on advertisements in OSNs 5
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Max Planck Institute Information flow mechanisms Featuring (front page, hotlists) External links Search results Links between content Online social links or word-of-mouth 6
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Max Planck Institute Two key questions Word-of-mouth expected to spread content widely and quickly throughout the network 1. How widely does information propagate in social network? Do popular content reach different parts of the network? 2. How quickly does information spread through the social network? How long does it take for people to find content? 7
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Max Planck Institute Key challenge: Gathering the data Flickr: Founded in 2004, acquired by Yahoo! in 2005 The largest photo sharing site User activities Make friends Upload and tag photos Comment on photos Mark photos as favorites 8 How does information propagate in Flickr?
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Max Planck Institute Methodology Crawled a substantial fraction of Flickr social network 2.5M users and 33M friend links (in its largest weakly connected component) Repeated the crawls for 104 consecutive days Gathered Flickr users’ favorite-marked pictures 34M bookmarks of 11M distinct photos 9 Largest OSN data analyzed for information flow to date!
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Part1. Measurement methodology Part2. How widely do pictures spread? Part3. How quickly do pictures spread?
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Max Planck Institute 11 Topological distribution of popularity Popularity measured as the number of fans or favorite-marks Three questions 1. Are globally popular pictures also popular locally? 2. What is the distance from uploaders of photos to fans? 3. What does the network of fans look like?
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Max Planck Institute 12 Test of local and global popularity 250 random users Find top-100 photos (hotlist) within a k-hop neighborhood Compare local hotlist with global hotlist Degree of overlap reflects topological correlation in popularity
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Max Planck Institute 13 Hotlist from 2-hop neighborhood Photos popular in a local neighborhood (2-hop) different from globally popular ones
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Max Planck Institute 14 Hotlists from 3-4 hop neighborhood Top-100 photos from 4-hop neighborhoods overlap largely with global top-100 photos
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Max Planck Institute Distance from uploaders to fans Very popular pictures with more than 500 fans 15 uploader 46% fans 1-hop away 45% fans 2-hop away 9% fans 3-hop away High content locality for even popular photos
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Max Planck Institute Network structure of fans 16 72% of pictures (>100 fans) with fans connecting each other indicating a strong topological correlation
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Max Planck Institute 17 Summary of spatial spreading patterns Strong correlation between topology and content popularity Difference in local and global hotlists Concentration of fans around uploaders Most fans forming a single connected component → Even popular photos do not spread widely in the network
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Part1. Measurement methodology Part2. How widely do pictures spread? Part3. How quickly do pictures spread?
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Max Planck Institute 19 Temporal evolution of photo popularity Goal is to understand how quickly pictures obtain fans over time - focus on long-term trends for popular photos Case study on three popularity growth patterns Long-term trends in popularity growth
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Max Planck Institute Pattern 1: steady-growth Gain new fans at a relatively constant rate 20 London cycling by lomokev Linear pattern cannot be explained by existing theories
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Max Planck Institute Pattern 2: growth-spike Sudden increase in fans over a short time period 21 One would. by antimethod
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Max Planck Institute Pattern 3: dormant Unknown to many users or stop gaining fans 22 Velcro being pulled apart by Trazy
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Max Planck Institute Pattern across all popular photos 5,346 photos (>1 year & >100 fans) 23 Characteristic growth in first few days and constant growth
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Max Planck Institute Pattern across a 2-year period 798 photos (>2 years & >100 fans) 24 Even popular photos spread slowly throughout the network
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Max Planck Institute 25 Photos become popular with very different patterns Key patterns: steady-growth, growth-spike, dormant Contrary to popular expectations about viral marketing, even popular pictures gain fans very slowly Summary of temporal growth patterns
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Max Planck Institute Conclusion Largest scale analysis to investigate the role of OSN in information propagation using real traces Even popular pictures do not spread widely and quickly Data analysis shows different patterns from the common expectations about viral marketing Calls for the better design of social network features that enable full viral speed as suggested in theory 26
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Max Planck Institute 27 http://socialnetworks.mpi-sws.org/
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