Virtual reality technology applied in digitalization of cultural heritage

This paper expounds on the necessity and importance of virtual reality technology applying in cultural heritage. It presents the main issues and difficulties in building resource library and discusses the strategies for building resource library with digitalized virtual data, the design concepts of key technology, service patterns, management, and maintenance. Based on the research of the preservation of red culture resource in Ruijin, this manuscript studies the application of integrated digital skills and virtual reality technology of red culture and studies the display and demonstration application of historical exhibition of soviet red culture.

[1]  Rossella Salerno Digital Technologies for “Minor” Cultural Landscapes Knowledge: Sharing Values in Heritage and Tourism Perspective , 2017 .

[2]  Shaohua Wang,et al.  Hybrid three-dimensional representation based on panoramic images and three-dimensional models for a virtual museum: Data collection, model, and visualization , 2017, Inf. Vis..

[3]  Ernesto Damiani,et al.  Augmented reality technologies, systems and applications , 2010, Multimedia Tools and Applications.

[4]  P. Milgram,et al.  A Taxonomy of Mixed Reality Visual Displays , 1994 .

[5]  Daniel F. Keefe,et al.  Anatomical 2D/3D shape-matching in virtual reality: A user interface for quantifying joint kinematics with radiographic imaging , 2017, 2017 IEEE Symposium on 3D User Interfaces (3DUI).

[6]  Marcello Carrozzino,et al.  Editors' introduction to the special issue on "virtual reality in cultural heritage" , 2016 .

[7]  Robert L. Glass,et al.  Strong vs. weak approaches to systems development , 1998, CACM.

[8]  W. Orlikowski Using Technology and Constituting Structures: A Practice Lens for Studying Technology in Organizations , 2000 .

[9]  K. Jarosz Cultural Heritage and Museums in Central Asia: The Role of Cultural Institutions in Disseminating Information , 2016 .

[10]  Shih-Ching Yeh,et al.  Three-dimensional, virtual reality vestibular rehabilitation for chronic imbalance problem caused by Ménière’s disease: a pilot study* , 2017, Disability and rehabilitation.

[11]  Wanda J. Orlikowski,et al.  Using Technology and Constituting Structures: A Practice Lens for Studying Technology in Organizations , 2000, Theory in CSCW.

[12]  Alexander Simons,et al.  Multimodal Location Based Services - Semantic 3D City Data as Virtual and Augmented Reality , 2016, LBS.

[13]  Ron Weber,et al.  On the ontological expressiveness of information systems analysis and design grammars , 1993, Inf. Syst. J..

[14]  Gordon Wetzstein,et al.  Optimizing virtual reality for all users through gaze-contingent and adaptive focus displays , 2017, Proceedings of the National Academy of Sciences.

[15]  Bernd Fröhlich,et al.  Technology and Applications for Collaborative Learning in Virtual Reality , 2017, CSCL.

[16]  Marcello Carrozzino,et al.  Virtual Reality in Cultural Heritage , 2016, Informatica.

[17]  Anahi Perlas,et al.  A Virtual Reality Simulation Model of Spinal Ultrasound: Role in Teaching Spinal Sonoanatomy , 2016, Regional Anesthesia & Pain Medicine.

[18]  Viswanath Venkatesh,et al.  Determinants of Perceived Ease of Use: Integrating Control, Intrinsic Motivation, and Emotion into the Technology Acceptance Model , 2000, Inf. Syst. Res..

[19]  David Rempel,et al.  Design of Hand Gestures for Manipulating Objects in Virtual Reality , 2017, HCI.

[20]  Daniel M. Shafer,et al.  Control mapping in virtual reality: effects on spatial presence and controller naturalness , 2018, Virtual Reality.

[21]  Jay F. Nunamaker,et al.  Electronic meeting systems , 1991, CACM.

[22]  John B. Black,et al.  Direct manipulation is better than passive viewing for learning anatomy in a three-dimensional virtual reality environment , 2017, Comput. Educ..

[23]  Silvia Blanco,et al.  REVIEW OF AUGMENTED REALITY AND VIRTUAL REALITY TECHNIQUES IN ROCK ART , 2016 .