About Us


Working Environment, Light, Lighting Microclimate, Simulation.


The article deals with designing internal artificial lighting as part of the work on the environment, which is subject to certain rules, derived from the nature of lighting. Good lighting exerts an impact on visual comfort - which contributes to overall psychological well-being, and indirectly also to the quality and productivity of performance, to reliability, and to visual performance - and which must be maintained, especially in long-term operations and in adverse conditions, to ensure quality of work and safety. One of the most frequently raised requirements for project design nowadays is speed; therefore a successful project cannot be done without good application software. The result is hundreds of drawings and various other outputs, which, without good software, cannot be handled within a short period of time. Modeling and simulation technologies are tools to streamline the presentation and assess the risks for the implementation.


Acta Mechanica Slovaca. Volume 16, Issue 1, Pages 6 – 17, ISSN 1335-2393


  Teoretical Basis and Application Possibility of Radiosity Methods for Lighting Researches


[1] Baum, D.R. & Winget, J.M. (1990). Real Time Radiosity through Parallel Processing and Hardware Acceleration. Computer Graphics (Special Issue on 1990 Symposium

on Interactive 3D Computer Graphics, vol. 24/2, p. 67-75, (March, 1990)
[2] Budak, V. P.; Makarov, D., N. & Smirnov, P., A. (2006). Přehled a porovnání počítačových programů pro navrhování osvětlovacích soustav, SVETLO 1/2006, vol.1, No.1/2006, 

p.50-54, ISSN 1212-0812
[3] Chen, S. E.; Rushmeier, H. ; Miller, G. & Turner, D. (1991) A progressive multi- pass method for global illumination, Computer Graphics, vol. 25/4, July 1991, p. 165- 174
[4] Cohen, M. F. & Greenberg D. P.(1985). The hemi cube: A radiosity solution for complex environments. Symposium on Computational Geometry, p. 31 - 40, (July 1985)
[5] Fujiomoto, A; Tanaka, T. & Iwata, K., (1986). ARTS Accelerated Ray Tracing System, IEEE C.G. & A. ,vol 6 (4), p. 16-26 (April 1986)
[6] Gašparovský, D; Pazdera, M., (2011). Porovnanie vypočítaných a nameraných hodnôt intenzity osvetlenia v interiérech, In. Slovalux 2011, SSTS Bratislava, KONGRES
management s.r.o., pp. 71- 80, ISBN 978-80-89275-28-1
[7] Goral, C.M.; Torrance, K..E.; Greenberg, D.P. & Battaile, B. (1984). Modeling the interaction of light between diffuse surfaces. Computer Graphics, 18(3), vol. 18/3 p.213-222, July 1984
[8] Klvač, P (2008). Logický postup při navrhování vnitřního umělého osvětlení, SVĚTLO 06/2008, vol.6, No.6/, ISSN 1212-0812
[9] Rybár, P. et al. (2001) Denní osvětlení a oslunění budov, ERA group spol.s r.o., Brno, 2001, ISBN 80-86517-33-0, Brno, Czech Republic
[10] Sillion, F. & Puech, C. (1989). A General Two-Pass Method Integration Specular and Diffuse Reflection. Computer Graphics, vol. 23(3):p. 335-344, July 1989, Boston.
[11] Silion, F. & Puech, C. (1994) Radiosity and Global Illumination, Morgan Kaufmann, 1994
[12] Smola, A. (2003) Osvetlenie priemyselných hál, In: AT&P Journal 3/2003, vol.3, No.3/2003, ISSN 1336-5010
[13] Smola, A.; Gašparovský, D. & Krasňan, F. (2005). Navrhovanie vonkajšieho a vnútorného osvetlenia v nadväznosti na technické normy a právne predpisy, SAP, Bratislava, 2005, ISBN 80-89104-71-1, Bratislava, Slovakia
[14] Wallace, J.R.; Elmquist, K.A. & Haines, E.A (1989). A raytracing algorithm for progressive radiosity, Computer Graphics, vol. 23(3): p.315-324, July 1989, Boston.

Latest Issue

ams 2 2016


Guests Online

We have 7 guests and no members online