Virtual Reality Image Technology Assists Training Optimization of Motion Micro-Time Scale

Cao, Huiping; Shang, Xiuhai; Qi, Hongmei

doi:10.1109/access.2020.3007389

Cited by 7 publications

(2 citation statements)

References 28 publications

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“…Its 3D panorama is increasingly popular due to its strong sense of reality and strong interaction 5 . Based on the objective reproduction of 3D panoramas, Cao et al study the artistic expressions of 3D panorama images and the application of HDR high dynamic density images in 3D panoramas; according to the new viewing form of 3D panorama technology, it studies its use in visual communication art innovative applications 6 …”

Section: Introductionmentioning

confidence: 99%

Research and implementation of digital 3D panoramic visual communication technology based on virtual reality

Zhang

Kou

2021

Int J Communication

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Summary Based on the digital three‐dimensional (3D) panoramic technology of sequence pictures, the static pictures are stitched together to form a 360‐degree panoramic image, which can truly reproduce the real scene. Panoramic images are widely used, making this technology a hot spot in the research of virtual reality technology. This paper completes the research content of the application value of the digital 3D panorama, the key technology of digital 3D panorama technology, and the design and display of 3D panorama campus through practical application. This article comprehensively introduces the hardware equipment of panoramic technology and the technical requirements of panoramic image acquisition in the field of practical application, and combines the actual cases to systematically produce panoramic image stitching, panoramic image generation, and virtual roaming campus construction; 3D panoramic technology is a brand‐new form of viewing images, discussing and studying the artistic expression of 3D panoramic images, and researching its innovative application in visual communication art. In this paper, the chromaticity calibration of digital camera and projection equipment is used to eliminate the coupling difference between the two; then estimate the spectral reflectance of the three‐color channel of the object and separate the specular reflection component and the diffuse reflection component, at the same time correct the color and specular reflectance of the object itself, and analyze the influence of reflection on the color of the projection light source. This article describes the design ideas and key technologies of the school's 3D panoramic walkthrough system, describes in detail the process of the system from demand analysis to system design and finally realization, and focuses on the production method of panoramic images and the main functional modules in the walkthrough system. At the end, the system was tested, and the existing problems were analyzed, and solutions were provided. Research shows that when the roaming system has 3,000 concurrent users, it can read a single scene for about 3 s on average.

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Section: Introductionmentioning

confidence: 99%

Research and implementation of digital 3D panoramic visual communication technology based on virtual reality

Zhang

Kou

2021

Int J Communication

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“…Compared with a typical 2D display, people may be more interested in the immersive user experience of a 3D display. In recent years, 3D video applications related to Free Viewpoint Television (FTV) [1][2], 360° panoramic video, virtual reality (VR) [3] and augmented reality (AR) [4] are becoming widespread. These applications are very popular in commercial advertising, education, multimedia entertainment, etc.…”

Section: Introductionmentioning

confidence: 99%

Fast Texture Coding Based on Spatial, Temporal and Inter-View Correlations for 3D Video Coding

et al. 2021

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3D-HEVC (The 3D Extension of High Efficiency Video Coding), the latest international standard for 3D video coding, supports multiview plus depth 3D video format to enrich multimedia applications. For the texture coding, 3D-HEVC utilizes not only the information of temporal and spatial domains but also that of inter-view domain. However, the time consumption and complexity of 3D-HEVC also increase significantly. In this paper, fast texture coding algorithm for 3D-HEVC is proposed. We individually calculate the Pearson correlation coefficients by the rate-distortion costs (RD-costs) of coding tree units (CTUs) in the temporal, spatial and inter-view domains to analyze the correlations for independent view and dependent view. The proposed coding algorithm is based on the coding information of CTUs with higher correlations. The fast algorithm predicts and dynamically adjusts the depth range of the coding unit (CU). The prediction unit (PU) mode decision is proposed according to the complexity and partition direction of the best PU modes obtained from the highly correlated CTUs. The search range is adaptively adjusted for motion estimation. In addition, the RD-cost threshold is estimated to early terminate the CU split. Experimental results show that the proposed fast texture coding algorithm reduces 40.75% of the texture coding time on average and outperforms numerous previous works significantly.

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Inspection and Verification Training System of Production Lines in Automated Processes, Through Virtual Environments

Pila

Alcoser

Pruna

et al. 2021

Lecture Notes in Computer Science

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Virtual Reality Image Technology Assists Training Optimization of Motion Micro-Time Scale

Cited by 7 publications

References 28 publications

Research and implementation of digital 3D panoramic visual communication technology based on virtual reality

Research and implementation of digital 3D panoramic visual communication technology based on virtual reality

Fast Texture Coding Based on Spatial, Temporal and Inter-View Correlations for 3D Video Coding

Inspection and Verification Training System of Production Lines in Automated Processes, Through Virtual Environments

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