DEVELOPMENT OF SOFTWARE FOR AUTOMATION OF THE INVESTIGATION OF ADAPTATION THE HIGH-SPEED MULTIPOINT ELECTROOPTICAL SYSTEM FOR DETERMINING OF FLAME SPATIAL COORDINATES AT THE OBJECT OF THE SPECIFIED FORM
Abstract: Software for automation of the investigation of adaptation the high-speed multipoint electrooptical system for determining of flame spatial coordinates at the object of the specified form is create. Features of automation of research was been defined. Structure and algorithm of the software was been developed. The visualization of the object for facilitate work is based on the OpenGL. Blocks of software was describe. The target function was been calculated on the basis method of multifactorial polynomial regression and method of regression by neural networks. Method of multifactorial polynomial regression implemented with using math software Maple. Minimization of the target function carried out on the basis alternating-variable descent method and gradient method with adaptive step size. The software was tested with using section of coal mines with complex geometry, such as: direct intersection, direct branching; direct branching; abutting of mine workings at right angle. The proposed software is applicable for the adaptation of EOS to the object of any complex form.
Index terms: software, automation, object of the specified form, algorithm of the investigation of adaptation the system.