Department of Design and Production of Radio Electronic Equipment

National Technical University of Ukraine
"Igor Sikorsky Kyiv Polytechnic Institute"

The light therapy process automation with irradiated areas frequency scanning

Author: Krushets Olekandr

Group: РІ-71мп

Supervisor: Yanenko Oleksii

ELK: Second level of higher education (master degree)

Speciality:   172 Telecommunications and Radio Engineering

Specialization: Intelligent Technologies of Microsystem Radioelectronic Equipment

Summary: The actuality of the topic. The automated system for light therapy with frequency scanning of the irradiation area will provide determination of the frequency of modulation and maximum absorption of light flux, which in turn will solve a number of scientific and practical problems in light therapy technologies.
The purpose. Determination of the frequency of modulation of the light stream, which is the maximum absorption of light energy, for operation at these frequencies, which provides an increase in the efficiency of the process of light therapy.
Research objectives. To develop a process of automation of the determination of the frequencies of the absorption of light flux, mathematical modeling, design and development of a layout of an automated system for light therapy, theoretical and experimental determination of the results of the system.
Object of study. The process of interaction of the light flux with biological objects.
Subject of research. Automated microprocessor system for determining the parameters and characteristics of the process of interaction of the light signal, modulated by the frequencies of biorhythms with human skin.
Methods of research. Structural and mathematical modeling, modulation signal transformation, experimental study of the layout.
Scientific novelty of the obtained results. The proposed measurement principle permits, without excessive complexity, to determine, with a fairly high accuracy, the frequencies of the maximum wavelength of light

Keywords: automated system, light therapy, modulation of light flux, measuring sensor, microprocessor, frequency of asbsorption.

The work consists of:  98 pages of explanatory note and 3 appendix

Explanatory note: Full text