1. Zoran Mihajlovic, Method for formal design synthesis of autostereoscopic displays, Proc. SPIE Vol. 5599, Optics East 2004, Three-Dimensional TV, Video, and Display III, pp. 135-152, 2004.
2. Zoran Mihajlovic, Method for formal design synthesis of various electro-optical devices including selected aspects of quantum optics / quantum mechanics, Proc. SPIE V. 5867, Optics and Photonics 2005, Optical Modeling and Performance Predictions II, 586707, 2005.
Patent
Mihajlovic, Zoran, Three-dimensional autostereoscopic display and method for reducing crosstalk in three-dimensional displays and in other similar electro-optical devices, U.S. Patent No. 7,839,549, filed October 20, 2006, and issued by the U.S. Patent and Trademark Office on November 23, 2010.
Citations
Above mentioned article number 1. was cited in:
1. Chen Jin, Ma Jin-ji and Ye Wei-quan, Manufacture of multi-view-point auto-stereoscopic LCD panel, Journal of Applied Optics, 28(1), pp. 47-50, Jan. 2007. ISSN: 1002-2082 CN: 61-1171/O4 ( Reference 6. therein )
This article describes a method for formal engineering design synthesis of various electro-optical devices. A formal description of the design synthesis is described here and in our previous work, that converges toward completely automated design synthesis. In the first example of design synthesis, which describes the design synthesis of threedimensional (3D) display, the optimization was performed with the goal of minimization of crosstalk and aberrations in the displayed image and maximization of the number of different views of the 3D image. The design of systems that need to be described by Quantum Optics / Quantum Mechanics is also studied, in an attempt to investigate the possibilities of description of light, that converge toward unified classical Physics and Quantum Mechanics description, as well as to create the corresponding unified design synthesis. Procedure for design of systems that need to be described by Quantum Mechanics / Quantum Optics methodology is elaborated as part of design synthesis methodology described here, and an example of its use is provided. Possibilities to perform formal design synthesis, such as to derive formal derivation of the transformation of the initial design to optimized version based on Quantum Optics / Quantum Mechanics, have also been elaborated.
In this article is described a method for formal engineering design synthesis of three-dimensional (3D) autostereoscopic displays. A formal description of the design synthesis in question is provided, that converges toward completely automated design synthesis. In order to estimate whether the computer program and/or human designer, using the methodology described in this article, would be able to synthesize one or more designs of 3D displays of satisfactory quality, in reasonable time, the example of design synthesis, that describes several iterations of it, has been provided, that demonstrates that there is enough convergence in the merit function of the designs during the synthesis, and that the quality of the best design solutions that the methodology has generated is satisfactory. The optimization was performed with the goal of minimization of crosstalk and aberrations in the displayed image and maximization of the number of different views of the 3D image. Several 3D displays are designed as a result of this effort. The improvement of the image quality of one class of 3D displays, as a result of the decrease of the size of the samples in 3D image without increased crosstalk in the 3D image is also achieved in this article.
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