Presentation is loading. Please wait.

Presentation is loading. Please wait.

Structural influence:

Published byMyron Dean Modified over 5 years ago

Similar presentations

Presentation on theme: "Structural influence:"— Presentation transcript:

1 Structural influence:
PaperID: 1948 StructInf: Mining Structural Influence from Social Streams Jing Zhang, Jie Tang, Yuanyi Zhong, Yuchen Mo, Juanzi Li, Guojie Song, Wendy Hall, and Jimeng Sun Department of Computer Science, Tsinghua University Active neighbor Target node Question: In which structures, the target nodes are most likely to be activated? Problem Formulation Input: (v1, a1, t1) (v0, a1, t2) (v3, a1, t2) (v2, a1, t3) (v3, a2, t3) (v2, a2, t4) v2 v3 v1 v0 v5 (v1, a1, t1) (v3, a2, t3) (v2, a2, t4) (v0, a1, t2) (v3, a1, t2) Active actions Inactive actions (v2, a1, t3) (v5, a2, t5) Network Streaming actions Action diffusion graph Output: Structural influence: Influence Probabilities of a structure Ck that can be found in the action diffusion graph. Structural Influence Measurement Basic method Sampling based methods Maintain a queue and a map to record the diffusion edges within recent time interval. To calculate xk, active actions are newly arrived actions. To calculate yk, inactive actions are actions that are outdated. Enumerate structures by extending neighboring actions of active or inactive actions. To avoid duplicate enumeration, assign each action an incremental (unique) label when it arrives, and make the labels of the selected actions smaller than those in the candidate actions. Sampling1 – Randomly sample nodes when enumerating influence patterns. Sampling2 – Randomly reserve edges when building diffusion graph. Sampling3 – Combine Sampling1 and Sampling2. They are unbiased sampling methods Results Trade-off between error and time by varying sampling probabilities: Retweet prediction: Sampling3 is most insensitive to parameters Basic: #friends, gender, status, etc. C1 : the number of active neighbors Weak: Moderate: Strong: Convergence of relative error: C1 C4 : Approximate influence probability : Relative error of approximate values

Download ppt "Structural influence:"

Similar presentations

A General Framework for Mining Concept-Drifting Data Streams with Skewed Distributions Jing Gao Wei Fan Jiawei Han Philip S. Yu University of Illinois.

A General Framework for Mining Concept-Drifting Data Streams with Skewed Distributions Jing Gao Wei Fan Jiawei Han Philip S. Yu University of Illinois.
An Interactive-Voting Based Map Matching Algorithm

An Interactive-Voting Based Map Matching Algorithm
1 Cross-domain Collaboration Recommendation Jie Tang 1, Sen Wu 1, Jimeng Sun 2, Hang Su 1 1 Tsinghua University 2 IBM TJ Watson Research Center.

1 Cross-domain Collaboration Recommendation Jie Tang 1, Sen Wu 1, Jimeng Sun 2, Hang Su 1 1 Tsinghua University 2 IBM TJ Watson Research Center.
+ Multi-label Classification using Adaptive Neighborhoods Tanwistha Saha, Huzefa Rangwala and Carlotta Domeniconi Department of Computer Science George.

+ Multi-label Classification using Adaptive Neighborhoods Tanwistha Saha, Huzefa Rangwala and Carlotta Domeniconi Department of Computer Science George.
De-anonymizing social networks Arvind Narayanan, Vitaly Shmatikov.

De-anonymizing social networks Arvind Narayanan, Vitaly Shmatikov.
Active Learning for Streaming Networked Data Zhilin Yang, Jie Tang, Yutao Zhang Computer Science Department, Tsinghua University.

Active Learning for Streaming Networked Data Zhilin Yang, Jie Tang, Yutao Zhang Computer Science Department, Tsinghua University.
Confluence: Conformity Influence in Large Social Networks

Confluence: Conformity Influence in Large Social Networks
Maximizing the Spread of Influence through a Social Network By David Kempe, Jon Kleinberg, Eva Tardos Report by Joe Abrams.

Maximizing the Spread of Influence through a Social Network By David Kempe, Jon Kleinberg, Eva Tardos Report by Joe Abrams.
1 1 Chenhao Tan, 1 Jie Tang, 2 Jimeng Sun, 3 Quan Lin, 4 Fengjiao Wang 1 Department of Computer Science and Technology, Tsinghua University, China 2 IBM.

1 1 Chenhao Tan, 1 Jie Tang, 2 Jimeng Sun, 3 Quan Lin, 4 Fengjiao Wang 1 Department of Computer Science and Technology, Tsinghua University, China 2 IBM.
© University of Minnesota Data Mining for the Discovery of Ocean Climate Indices 1 CSci 8980: Data Mining (Fall 2002) Vipin Kumar Army High Performance.

© University of Minnesota Data Mining for the Discovery of Ocean Climate Indices 1 CSci 8980: Data Mining (Fall 2002) Vipin Kumar Army High Performance.
T07-00 - 1 T07-00 1 Population Sampling Distribution Purpose Allows the analyst to determine the mean and standard deviation of a sampling distribution.

T T Population Sampling Distribution Purpose Allows the analyst to determine the mean and standard deviation of a sampling distribution.
T07-01 - 1 T07-01 Sample Size Effect – Normal Distribution Purpose Allows the analyst to analyze the effect that sample size has on a sampling distribution.

T T07-01 Sample Size Effect – Normal Distribution Purpose Allows the analyst to analyze the effect that sample size has on a sampling distribution.
Decentralised Coordination of Mobile Sensors School of Electronics and Computer Science University of Southampton Ruben Stranders,

Decentralised Coordination of Mobile Sensors School of Electronics and Computer Science University of Southampton Ruben Stranders,
1 1 Chenhao Tan, 1 Jie Tang, 2 Jimeng Sun, 3 Quan Lin, 4 Fengjiao Wang 1 Department of Computer Science and Technology, Tsinghua University, China 2 IBM.

1 1 Chenhao Tan, 1 Jie Tang, 2 Jimeng Sun, 3 Quan Lin, 4 Fengjiao Wang 1 Department of Computer Science and Technology, Tsinghua University, China 2 IBM.
Active Learning for Networked Data Based on Non-progressive Diffusion Model Zhilin Yang, Jie Tang, Bin Xu, Chunxiao Xing Dept. of Computer Science and.

Active Learning for Networked Data Based on Non-progressive Diffusion Model Zhilin Yang, Jie Tang, Bin Xu, Chunxiao Xing Dept. of Computer Science and.
1 A Discriminative Approach to Topic- Based Citation Recommendation Jie Tang and Jing Zhang Presented by Pei Li Knowledge Engineering Group, Dept. of Computer.

1 A Discriminative Approach to Topic- Based Citation Recommendation Jie Tang and Jing Zhang Presented by Pei Li Knowledge Engineering Group, Dept. of Computer.
1 Modeling the Effect of a Rate Smoother on TCP Congestion Control Behavior Kang Li, Jonathan Walpole, David C. Steere {kangli, walpole,

1 Modeling the Effect of a Rate Smoother on TCP Congestion Control Behavior Kang Li, Jonathan Walpole, David C. Steere {kangli, walpole,
Influence Maximization in Dynamic Social Networks Honglei Zhuang, Yihan Sun, Jie Tang, Jialin Zhang, Xiaoming Sun.

Influence Maximization in Dynamic Social Networks Honglei Zhuang, Yihan Sun, Jie Tang, Jialin Zhang, Xiaoming Sun.
Positioning in Ad-Hoc Networks - Directions and Results Jan Beutel Computer Engineering and Networks Lab Swiss Federal Institute of Technology Zurich August.

Positioning in Ad-Hoc Networks - Directions and Results Jan Beutel Computer Engineering and Networks Lab Swiss Federal Institute of Technology Zurich August.
1 Panther: Fast Top-K Similarity Search on Large Networks Jing Zhang 1, Jie Tang 1, Cong Ma 1, Hanghang Tong 2, Yu Jing 1, and Juanzi Li 1 1 Department.

1 Panther: Fast Top-K Similarity Search on Large Networks Jing Zhang 1, Jie Tang 1, Cong Ma 1, Hanghang Tong 2, Yu Jing 1, and Juanzi Li 1 1 Department.

Similar presentations

Ads by Google