Hui Yuan (Senior Member, IEEE) received the B.E. and Ph.D. degrees in telecommunication engineering from Xidian University, Xi’an, China, in 2006 and 2011, respectively. In April 2011, he joined Shandong University, Jinan, China, as a Lecturer (April 2011–December 2014), then he became an Associate Professor (January 2015–October 2016), and has been a Full Professor (since September 2016). From January 2013–December 2014, and November 2017–February 2018, he was a Postdoctoral Fellow (Granted by the Hong Kong Scholar Project) and a Research Fellow, respectively, with the Department of Computer Science, City University of Hong Kong.  His current research interests include video/image/immersive media processing, compression, adaptive streaming, and computer vision, etc.

• 2006/09/01-2011/03/01
  西安电子科技大学
  通信与信息系统
• 2002/09/01-2006/07/01
  西安电子科技大学
  通信工程
• 1999/09/01-2002/06/01
  威海市第一中学

• 2018-12 — Now
   School of Control Science and Engineering  Shandong University 
  Professor
• 2017-11 — 2018-2
   Department of Computer Science  City University of Hong Kong 
  Research Fellow
• 2016-9 — 2018-12
   山东大学信息科学与工程学院 
  教授
• 2015-1 — 2016-8
   图像所  山东大学信息科学与工程学院 
  副教授
• 2013-1 — 2014-12
   City University of Hong Kong  City University of Hong Kong 
  Postdoctor Fellow

1. 沉浸式媒体(点云、光场)的智能编码与处理

2. 计算机视觉

3. 图像/视频的智能处理

4. 基于DASH的视频(特别是360°全景视频)流媒体传输控制

(1) Hui YUAN. A Comprehensive Study and Comparison of Core Technologies for MPEG 3D Point Cloud Compression .IEEE Transactions on Broadcasting .2020

(2) Hui YUAN. An Ensemble Rate Adaptation Framework for Dynamic Adaptive Streaming Over HTTP .IEEE Transactions on Broadcasting .2020

(3) Hui YUAN. Single image-based head pose estimation with spherical parametrization and 3D morphing . Pattern Recognition .2020

(4) Hui YUAN. Spatial and Temporal Consistency-aware Dynamic Adaptive Streaming for 360-degree Videos .IEEE Journal of Selected Topics in Signal Processing .2020

(5) Hui YUAN. Non-Cooperative Game Theory Based Rate Adaptation for Dynamic Video Streaming over HTTP .IEEE Transactions on Mobile Computing .2018 ,17 (10):2334

(6) Hui YUAN. Cooperative Bargaining Game-Based Multiuser Bandwidth Allocation for Dynamic Adaptive Streaming Over HTTP .IEEE Transactions on Multimedia .2018 ,20 (1):183

(7) Hui YUAN. Motion-Homogeneous-Based Fast Transcoding Method From H.264/AVC to HEVC .IEEE Transactions on Multimedia .2017 , 19 (7):1416

(8) Hui YUAN. End-to-End Distortion-Based Multiuser Bandwidth Allocation for Real-Time Video Transmission Over LTE Network .IEEE Transactions on Broadcasting .2017 , 63 (2):338

(9) Hui YUAN. A Region-Wised Medium Transmission Based Image Dehazing Method .IEEE Access .2017 , 5 :1735

(10) Hui YUAN. A Virtual View PSNR Estimation Method for 3-D Videos .IEEE Transactions on Broadcasting .2016 ,62 (1):134

(11) Hui YUAN. Rate Distortion Optimized Inter-View Frame Level Bit Allocation Method for MV-HEVC .IEEE Transactions on Multimedia .2015 ,17 (12):2134

(12) Hui YUAN. Interview Rate Distortion Analysis-Based Coarse to Fine Bit Allocation Algorithm for 3-D Video Coding .IEEE Transactions on Broadcasting .2014 ,60 (4):614

(13) Hui YUAN. Coding modes-based frame skip avoidance scheme for low bit rate video coding .Journal of Real-Time Image Processing .2014 ,9 (4):609

(14) Hui YUAN. A Novel Distortion Model and Lagrangian Multiplier for Depth Maps Coding .IEEE Transactions on Circuits and Systems for Video Technology .2014 ,24 (3):443

(15) Hui YUAN. 基于色度分割与图割算法的视差估计算法 .《华南理工大学学报(自然科学版)》 .2013 ,41 (2):12

(16) Hui YUAN. Coding Distortion Elimination of Virtual View Synthesis for 3D Video System: Theoretical Analyses and Implementation .IEEE Transactions on Broadcasting .2012 ,58 (4):558

(17) Hui YUAN. Affine model based motion compensation prediction for zoom .IEEE Transactions on Multimedia .2012 ,14 (4):1370

(18) Hui YUAN. Virtual view oriented distortion criterion for depth maps coding .IET Electronic letters .2012 ,48 (1):23

(19) Hui YUAN. Model-Based Joint Bit Allocation Between Texture Videos and Depth Maps for 3-D Video Coding .IEEE Transactions on Circuits and Systems for Video Technology .2011 ,21 (4):485