Pete Bohman Adam Kunk
What is real-time search? What do you think as a class?
Real-Time Search Definition: A search mechanism capable of finding information in an online fashion as it is produced.
Real-Time Search In terms of real-time search, what does “online” mean? Online means that a constant stream of input data is handled as it enters the system, contrary to batch processing Bing Social Search Bing Social Search
Real-Time Search Input Data Example of what kind of input data is considered for these real-time search systems: twittervision twittervision
Real-time content Microblogging - Entirely new type of data 1. Short temporal life span 2. Little to no context 3. Simple ideas, fast reporting of events 4. Metadata: time, location, social links 5. Less factual, more opinionated 6. Static posts 7. Furious input rate 8. Often no hyperlink structure, few traditional ranking factors
Real-time vs. Conventional Search Conventional Search Ranking Relevance Authority Real-time Search Ranking Relevance Temporal immediacy Popularity
Real-time vs. Conventional Search Conventional search input Crawl the web periodically and update indexes ○ Web documents evolve Incapable of crawling and indexing the entire web in real-time Real-time search input Stream of data. No need to poll since the posts are static What can we do with real-time search engines?
Query analysis Collecta real-time search engine Analyzed ~1 Million queries Continuous Queries ○ Monitor events by frequently resubmitting the same query Different types of queries ConventionalReal-Time ShoppingCommerce EntertainmentTravel AdultEconomy
Value of real-time search The estimated value of real-time search is around $33 Million Value derived from types of queries entered in real-time search systems. Utilized adwords to determine worth of keywords appearing in queries
Applications of real-time search TwitterStand: Real-time news reports Crowd sourcing of first hand reports Example: Coverage of MJ’s death
Applications of real-time search Real-time alert systems Leverages tweet metadata (time, location) to raise alerts Earthquake localization based on tweets
Twitter Real-Time Alerts USGS Twitter Earthquake Detector
Difficulties of Real-Time Search Two factors: Efficient indexing in order to provide for fast results Effective ranking in order to return relevant results
Indexing Background RDBMS Indexing Indexes built on columns commonly used in queries Improves the speed of retrieval operations Conventional Search (Inverted) Indexing Crawl the web for documents Map keywords to documents containing those key words Non structured data If a document does not exist in the index, it will not appear in query results
Real-Time Search Indexing Index stream of data Map keywords to tweets containing those keywords Challenge Processing the stream in timely manor ○ 5,000 tweets per second
TI Indexing Not feasible to index every incoming tweet immediately Selective indexing based on results that are most likely to appear in queries Distinguished tweets indexed in real-time Noisy tweets indexed by batch process
TI Classification Observation Users are only interested in top-K results for a query Distinguished tweets Tweet that belongs in the top-K result set of previous query Noisy tweet Those tweets not appearing in the top-K results for any of the systems previous queries
TI Indexing Must limit the size of the query set 1.6 Billion twitter queries per day
Query set optimization Observation 20% of queries represent 80% of user requests Therefore Zipf’s distribution used statistically limit the number of queries tweets were compared against
Real-Time Search Ranking How does ranking differ from traditional web ranking? There are no social relationships in traditional web pages Typical web search engines rank based on links to a site, and links from a site Website links are not the same as social networking links
Real-Time Search Ranking Ranking is not necessary in RDBMS systems RDBMS systems do not favor certain data over others based on select criteria RDBMS systems rank all data contained in the database the same essentially
TI Ranking Ranking function comprised of: 1) User’s PageRank ○ Combination of user weight (defaulted to 1) and how many followers they have (popularity) 2) Timestamp (self-explanatory) 3) Similarity between tweet and the query
TI Ranking Ranking function also comprised of: 4) Popularity of the topic Determined by large tweet trees Popularity of tree is equal to the sum of the U-PageRank values of all tweets in the tree Tweet Tree Structure
TI Ranking Comparison TI Rank Vs. Time Rank
What are others doing?
Facebook Real-Time Feed
Implications/Conclusion Real-time search engines must provide: “Online” algorithms to handle constant input Relevant search results Results of a query are no longer static
Implications/Conclusion TI makes use of two concepts in their real-time search of Twitter: Selective Indexing ○ Form of partial indexing, can’t afford to index every incoming tweet due to large volume of input Ranking ○ Ranking is a known technique, but microblogging applications provide new ranking algorithms
References TI: An Efficient Indexing Mechanism for Real-Time Search on Tweets Real Time Search User Behavior TwitterRank: Finding Topic-Sensitive Influential Twitterers Earthquake Shakes Twitter Users: Real-time Event Detection by Social Sensors TwitterStand: News in Tweets e=pdf e=pdf Learning Effective Ranking Functions for Newsgroup Search =pdf =pdf TwitterSearch: A Comparison of Microblog Search and Web Search TwitterVision Bing Social
Discussion Questions 1) What do you think is the most innovative technique in the TI approach that led to real-time microblog search results?
Discussion Questions 2) Given the partial indexing optimization provided in the paper, how do you think Google could optimize their indexing algorithm in order to capture the newest content on the web?
Discussion Questions 3) TI makes use of a ranking function in order to select tweets based on various user characteristics. What would you change about the ranking function, if anything?