Optical information collaboration systems based on the volumetric virtual environment and the physical reality
E.V. Vlasov, V.I. Paterikin

Technological Design Institute of Scientific Instrument Engineering, Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia

Full text of article: Russian language.


The design of a 3D multiplane, multifocal display, stimulating the eye accommodation, for application in optical information collaboration systems based on stereoscopic virtual environments of immersive and retroreflective types is considered. We describe main conceptual aspects of using methods of autonomous navigation and odometry, which are based on taking readings from sensors mounted on a moving object, including a stereo camera, optical information system, inertial measurement unit, and the satellite GLONASS/GPS system with a GSM module.

3D image, stimulus of accommodation, multiplane eyepiece.

Vlasov EV, Paterikin VI. Optical information collaboration systems based on the volumetric stereoscopic virtual environment and the physical reality. Computer Optics 2016; 40(6): 972-975. DOI: 10.18287/2412-6179-2016-40-6-972-975.


  1. Hua H, Brown LD, Gao C. SCAPE: Supporting Stereoscopic Collaboration in Augmented and Projective Environments // IEEE Computer Graphics and Applications 2004; 24(1): 66-75. DOI: 10.1109/MCG.2004.1255811.
  2. Cruz-Neira C, Sandin DJ, DeFanti TA. Surround-screen projection-based virtual reality: the design and implementation of the CAVE. SIGGRAPH'93: Proceedings of the 20th Annual Conference on Computer Graphics and Interactive Techniques 1993: 135-142. DOI: 10.1145/166117.166134.
  3. Integrating the real and virtual worlds: The unlimited potential of the imaging world. Source: áwww.ca­non.com/technology/approach/special/mr.htmñ.
  4. Kovalev AM, Vlasov EV. Quality of a three-dimensional image stimulating eye accommodation. Optoelectronics, Instrumentation and Data Processing 2012; 48(4): 351-357. DOI: 10.3103/S8756699012040048.
  5. Development of an odometry method with a MEMS sensors and video analysis. Source: áhttp://www.inf.tsu.ru/lib­rary/DiplomaWorks/CompScience/2014/ñ.
  6. Makarov NN [et al], eds. Measuring devices, the collection and processing of signals in the information and control complexes [In Rusian]. Abstracts of the 1st All-Russian scientific-practical conference, Ulyanovsk, 6-10 September 2011. Ulyanovsk: "UlGTU" Publisher; 2011. ISBN: 978-5-9795-0820-7.
  7. The mobile navigation terminal GLONASS/GPS/GSM-001 MNT [In Russian] // Electronics: Science, Technology, Business 2008; 3: 108-110.
  8. Kovalev AM. On personal-use displays for virtual environments with augmented reality. Optoelectronics, Instrumentation and Data Processing 2014; 50(6): 549-555. DOI: 10.3103/S8756699014060028.

© 2009, IPSI RAS
Institution of Russian Academy of Sciences, Image Processing Systems Institute of RAS, Russia, 443001, Samara, Molodogvardeyskaya Street 151; E-mail: journal@computeroptics.ru; Phones: +7 (846) 332-56-22, Fax: +7 (846) 332-56-20