Modernisation of Endoscopic Equipment Using 3D Indicators

Vladimir Roganov 1 , 2 , Michail Miheev 1 , Elvira Roganova 3 , Olga Grintsova 2 ,  and Jurijs Lavendels 4
  • 1 Penza State Technological University, , Penza
  • 2 Penza State University of Architecture and Construction, , Penza
  • 3 Limited Liability Company “Video3”, , Penza
  • 4 Riga Technical University, , Riga, Latvia

Abstract

The development of new software to improve the operation of modernised and developed technological facilities in different sectors of the national economy requires a systematic approach. For example, the use of video recording systems obtained during operations with the use of endoscopic equipment allows monitoring the work of doctors. Minor change of the used software allows using additionally processed video fragments for creation of training complexes. The authors of the present article took part in the development of many educational software and hardware systems. The first such system was the “Contact” system, developed in the eighties of the last century at Riga Polytechnic Institute. Later on, car simulators, air plan simulators, walking excavator simulators and the optical software-hardware training system “Three-Dimensional Medical Atlas” were developed. Analysis of various simulators and training systems showed that the computers used in them could not by themselves be a learning system. When creating a learning system, many factors must be considered so that the student does not receive false skills. The goal of the study is to analyse the training systems created for the professional training of medical personnel working with endoscopic equipment, in particular, with equipment equipped with 3D indicators.

If the inline PDF is not rendering correctly, you can download the PDF file here.

  • [1] V. R. Roganov, A. A. Kazancev, and A. V. Semochkin, “Interaction Flows in the “Three-Dimensional Medical Atlas” Optical-Hardware - Software Complex” in I International Scientific Conference, Chicago, USA: Accent Graphics communications, 2013, vol. 1, pp. 338–343

  • [2] A. A. Krasovskiy, E. V. Lapshin, and N. K. Yurkov, Mathematical Modeling of Aircraft Flight Dynamics. Penza: Penza State University, 2008. 259 p.

  • [3] Report on R & D “Investigation of Characteristics of Beam-Splitting Plates,” Limited Liability Company “Video3”, Penza, No I08071620171, 2009, 143 p.

  • [4] V. R. Roganov, Methods of Formation of Virtual Reality. Penza: Penza State University, 2002. 127 p.

  • [5] V. R. Roganov, “The System of Volumetric Television,” Patent of the Russian Federation No. 2146856, March 20, 2000, Bulletin No. 8.

  • [6] E. V. Roganova, “Optical System of the Endoscope,” Patent of the Russian Federation No. 2337606, Nov. 10, 2008, Bulletin No. 31.

  • [7] V. R. Roganov, E. A. Asmolova, A. N. Seredkin, M. V. Chetvergova, N. B. Andreeva, and V. O. Filippenko, “Problem of Virtual Space Modelling in Aviation Simulators,” Life Science Journal, vol. 11, no. 12, pp. 371–373, 2014. [Online]. Available: http://www.penzgtu.ru/fileadmin/filemounts/its/staff/publish/filippenko/p3.pdf

  • [8] V. R. Roganov, M. J. Miheev, A. N. Seredkin, V. O. Filippenko, and A. V. Semochkin, “Capacity Assessment of Visual Conditions Imitators,” Eastern European Scientific Journal, no. 6, pp. 321–326, 2014.

  • [9] N. K. Yurkov, A. N. Andreev, A. M. Danilov, B. V. Klyuev, É. V. Lapshin, and A. V. Blinov “Information models for designing conceptual broad-profile flight simulators,” Measurement Techniques, vol. 43, no. 8, pp. 667–672, Aug. 2000. https://doi.org/10.1007/bf02503631

  • [10] M. Yu. Mikheev, V. R. Roganov, P. G. Andreev, N. V. Goryachev, and V. A. Trusov, “Developing the Structure of the Quality Control System of Power Supply Units in Mobile Robots,” in 2017 International Siberian Conference on Control and Communications (SIBCON), Astana, Kazakhstan, pp. 724–728. Available: http://toc.proceedings.com/35400webtoc.pdf

  • [11] V. A. Elkhov, N. V. Kodratiev, Y. N. Ovechkis, and L. V. Pautova, “A Modular Projection Autostereoscopic System for Stereo Cinema,” in Proc. SPIE – The International Society for Optical Engineering Stereoscopic Displays and Applications XX, San Jose, CA, 2009, pp. 72370D. https://doi.org/10.1117/12.805431

  • [12] V. A. Elkhov, N. V. Kondratiev, Yu. N. Ovechkis, and L. V. Pautova, “Stereoscopic Device for Displaying an Aircraft Simulator for Multiple Observers,” The World of Cinema Technique, no. 14, pp. 7–12, 2009.

  • [13] V. R. Roganov, “The Optical-Hardware-Software Complex for 3D Visual Models,” in III International research and practice conference Science Technology and Higher Education, Westwood, Canada: Accent Graphics communications, 2013, vol. 2, pp. 483–491.

  • [14] V. E. Shukshunov, Ed., Training systems. M.: Engineering, 1981. 256 p.

  • [15] K. Barnard, “Improvements to Gamut Mapping Color Constancy Algorithms,” in European Conference on Computer Vision, 2000, pp. 390–402.

  • [16] Report on R & D “Automated Training System CONTACT / M for Training NPP Operators”, final report on the contract with the branch of VNII NPP, stage 5. N State registration. 0882. 3013738, Riga, Riga Polytechnic Institute, 1983, 149 p.

  • [17] V. S. Bartosh, I. V. Belago, S. A. Kuzikovskii, M. S. D’yakov, and A. S. Pereverzev, “Simulation of Visual Instrumental Observations of the Earth From the International Space Station” Optoelectronics, Instrumentation and Data Processing, vol. 52, no. 3, pp. 252–258, May 2016. https://doi.org/10.3103/s8756699016030067

  • [18] B. B. Morozov, B. S. Dolgovesov, B. S. Mazurok, and M. A. Gorodilov, “Constructing Distributed Multimedia Virtual Environment With Multichannel Visualization of Media Data on Graphic Accelerators,” Programming and Computer Software, vol. 40, no. 4, pp. 193–198, 2014. https://doi.org/10.1134/s0361768814040082

  • [19] D. A. Gladkii, S. A. Kuzikovskii, I. V. Belago, and N. A. Elykov, “Design Philosophy of Particle System Animated on Graphics Accelerator,” Pattern Recognition and Image Analysis, vol. 22, no. 3, pp. 450–457, Sep. 2012. https://doi.org/10.1134/s1054661812030029

  • [20] A. V. Menschikov, B. S. Mazurok, B. S. Dolgovesov, R. V. Fursenko, and S. S. Minaev, “Real Time Modeling of Flame Front Evolution by Kinematical Model,” in Proc. IASTED International Conference on Automation, Control, and Information Technology – Control, Diagnostics, and Automation, 2010, pp. 214–216.

  • [21] I. V. Belago, “Complex of Three-Dimensional Visual Modeling Softlab images 1.1,” Autometry, no 5. p. 3, 1993.

  • [22] S. Kozlov, N. Elykov, and I. Belago, “Visualization of Rain Effects for Driving Simulators,” in Proc. GraphiCon 2006 – International Conference on Computer Graphics and Vision, pp. 363–366.

OPEN ACCESS

Journal + Issues

Search