Y. Borghol et al. Performance Evaluation 68 2011
Contents
Citation
Youmna Borghol, Siddharth Mitra, Sebastien Ardon, Niklas Carlsson, Derek L. Eager, Anirban Mahanti: Characterizing and modelling popularity of user-generated videos. Perform. Eval. 68(11): 1037-1055 (2011)
Online version
Summary
This is a paper proposes a model for the dynamics of YouTube videos popularity based on the data set they collected over 8 months. Specially it claims the peak view of an individual video follows a certain distribution called Time-to-peak distribution. Based on it they divide the view into three phases namely before, at or after peak. Finally a three-phase evolution model is brought forward to explain the dynamics of video views for newly-uploaded videos.
Data set
1.1 million videos metadata collected at weekly level over 8 months in the following two ways: 1) sampling from the recently-uploaded videos (29,791 videos collected) and 2) sampling using keyword search (1,135,253 videos collected).
There are potential two drawbacks in their collecting methods. First collecting views in a weekly manner would discard some important information about the popular videos such as viral videos. According to Google's paper [2], many videos reach their peek-view within a week and receive 25% social view in their first uploaded day.
Secondly, about 97% videos metadata were collected by keyword search which is significantly biased towards the current #views and the age of the response videos. The ranking algorithm often favors the newly updated and popular videos given the similar keyword relevance. In other words, the data set may not well represent a random proportion of Youtube videos (In contrast the data set used in [3] derived from random sampling)
Therefore the conclusion drawn from this data set needs a careful examination and further validation.
Method
Through the empirical analysis, the authors claim that the time-to-peak distribution approximately follows an exponential distribution and they found that a large fraction of videos peak within the first six weeks.
As they mentioned in the paper, the exogenous and endogenous factors both influence the popularity. However, they totally ignore the exogenous events during their analysis. For example the following is view plot I generated for a popular video "Dog Fight", the peak view of the video is clearly results from some exogenous events (Probably Event D which is "First embedded on jaramsie.pl"). Since the events are the major reasons accounting for a popular video, analysis without them would be of little use.
Then they propose a three phrases namely before, at and after the peak which disagrees the observation reported in [4] where they found some videos's view patterns are bi-modal, see the above figure. In addition they made an assumption that weekly viewing rate within each phase are invariant.
2. Socialness & categories
Different measurement for the level of socialness would yields different categories that are most social, see Fig.5.
Observation III: In terms of the fraction of videos within the category that are highly social, the most social category is "Pets & Animal"; in terms of the fraction of views within the category that are social the category becomes "Education"; Regarding the absolute number of social views within category the answer is "Music".
If Facebook and Twitter are regarded as two categories representing social network sites and micro-blogs they found:
Observation IV: The Twitter views (by a factor of 4.5) are more highly concentrated near the day of peak viewing than the Facebook views (by a factor of 2.4) which may be result of Twitter's real-time sharing paradigm. In addition the Twitter views are more likely to be associated with highly shared videos than Facebook views are.
3. Viral vs. Popular videos
The authors track two videos a viral video and a popular music video which received most of its views from searches. They found that
Observation V: The viral video tends to peak more sharply and wane more rapidly whereas the popular music video exhibits a steady and regular growth pattern after the peak view.
Observation VI: YouTube related video and search are the other two major reasons account for large number of views besides the social sharing. Most of the popular videos (top 1% videos in terms of views) result from the related videos and search.
If defining popular ratio as:
A video is called short-term popular if its PR is low and the one with large PR is called long-term popular, see Fig 12.
Observation VII: the density of viral and non-viral videos in short-term popular videos set are similar. However, almost no viral videos belongs to the long-term popular videos (because viral video fade quickly after its peek view).
4. Ranking social sites
By the viral videos, the authors propose a method to rank the social blogs in terms of their propensity of spreading the viral videos. Let be the set of viral videos (with at least 60% of social views in the first month) and as the set of unpopular videos (with less than 100 views in the first 30 days) and be the set of videos with at least of 100 views from url u.
r(u) is applied to filter out () some outliers such as Facebook. For each video , denotes its number of view coming from url u. Based on the notions, the rank function for each url becomes: