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赵鹏程
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Personal Information
  • Supervisor of Master's Candidates
  • Name (Pinyin):Zhao Pengcheng
  • Date of Birth:1993-09-05
  • E-Mail:
  • Date of Employment:2019-12-07
  • Administrative Position:高级实验师
  • Education Level:With Certificate of Graduation for Doctorate Study
  • Business Address:武汉大学信息学部遥感信息工程学院(5号楼)315办公室
  • Gender:Male
  • Contact Information:+86 15972003670
  • Status:Employed
  • Alma Mater:武汉大学
  • Teacher College:School of Remote Sensing and Information Engineering
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Paper Publications
Current position: Home   >   Scientific Research   >   Paper Publications

A Smooth Transition Algorithm for Adjacent Panoramic Viewpoints Using Matched Delaunay Triangular Patches

  • Date of Publication:2025-01-07
  • Hits:

  • DOI number: 

    10.3390/ijgi9100596

  • Affiliation of Author(s): 

    School of Remote Sensing and Information Engineering, Wuhan University, China

  • Journal: 

    ISPRS INTERNATIONAL JOURNAL OF GEO-INFORMATION

  • Key Words: 

    panoramic image,scene transition,mesh morph,image-based rendering,texture shade

  • Abstract: 

    The unnatural panoramic image transition between two adjacent viewpoints reduces the immersion and interactive experiences of 360 degrees panoramic walkthrough systems. In this paper, a dynamic panoramic image rendering and smooth transition algorithm for adjacent viewpoints is proposed. First, the feature points of adjacent view images are extracted, a robust matching algorithm is used to establish adjacent point pairs, and the matching triangles are formed by using the homonymous points. Then, a dynamic transition model is formed by the simultaneous linear transitions of shape and texture for each control triangle. Finally, the smooth transition between adjacent viewpoints is implemented by overlaying the dynamic transition model with the 360 degrees panoramic walkthrough scene. Experimental results show that this method has obvious advantages in visual representation with distinct visual movement. It can realize the smooth transition between two indoor panoramic stations with arbitrary station spacing, and its execution efficiency is up to 50 frames per second. It effectively enhances the interactivity and immersion of 360 degrees panoramic walkthrough systems.

  • Co-author: 

    Mingyao,Ai,Tang,Hu, Zhixiong, Qingwu, Pengcheng,Zhao

  • Indexed by: 

    Journal paper

  • Discipline: 

    Engineering

  • Document Type: 

    J

  • Volume: 

    9

  • Issue: 

    10

  • Translation or Not: 

    no

  • CN No.: 

    WOS:000582864600001

  • Date of Publication: 

    2020-10-01

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