Events

Mentorship Program

Topic: MoU with Institute of Engineering Technology Date: 1st June 2013 Time: 3:00 p.m. to 5:00 p.m. Venue: PolyU Staff Club  

Seminar by Dr Jianhui Wang

Topic: Residential Appliances Scheduling and Large-scale Direct Load Control Speaker: Dr Jianhui Wang Argonne National Laboratory Date: 8th May 2013 Time: 11:00 a.m. to 12:00 p.m. Venue: CF617

Beijing Study Tour

Date: 06 Jan - 06 May 2009

Seminar on "Differentially Private Graph Neural Networks for Link Prediction" by Mr Xun Ran

.divTable { display: table; width:auto; } .divRow { display:table-row; width:auto; } .divCell1 { font-weight: bold; float:left; display:table-column; width:180px; } .divCell2 { float:left; display:table-column; width:450px; } Date: 4 October 2024, Friday Time: 4:30 pm Venue: CD634, The Hong Kong Polytechnic University Zoom Meeting ID: 383 735 6917 Password: 270831 Speaker: Mr Xun Ran, The Hong Kong Polytechnic University Differentially Private Graph Neural Networks for Link Prediction Mr Xun Ran, The Hong Kong Polytechnic University   Abstract:Graph Neural Networks (GNNs) have proven to be highly effective in addressing the link prediction problem. However, the need for large amounts of user data to learn representations of user interactions raises concerns about data privacy. While differential privacy (DP) techniques have been widely used for node-level tasks in graphs, incorporating DP into GNNs for link prediction is challenging due to data dependency. To this end, in this work we propose a differentially private link prediction (DPLP) framework, building upon subgraph-based GNNs. DPLP includes a DP-compliant subgraph extraction module as its core component. We first propose a neighborhood subgraph extraction method, and carefully analyze its data dependency level. To reduce this dependency, we optimize DPLP by integrating a novel path subgraph extraction method, which alleviates the utility loss in GNNs by reducing the noise sensitivity. Theoretical analysis demonstrates that our approaches achieve a good balance between privacy protection and prediction accuracy, even when using GNNs with few layers. We extensively evaluate our approaches on benchmark datasets and show that they can learn accurate privacy-preserving GNNs and outperforms the existing methods for link prediction.   Speaker’s Bio:Mr Xun RAN is currently pursuing his Ph.D. degree in the Department of Electrical and Electronic Engineering, The Hong Kong Polytechnic University, Hong Kong. His research interests include data privacy and neural networks. WEBINAR WEBSITE: http://cccn.ee.cityu.edu.hk/webinar/