The known methods for defining the parameters of interaction between different abstract objects, as technological or biological origin, do not reflect the full influence of environmental factors. This leads to errors in the measurement of the mechanical and physical properties of the quality of the manufacture of precision parts, as well as to errors in the diagnostics of the fluid state of objects. This article discusses the method of determining the interaction of objects on the basis of determining the processes that affect the creation of a zone of the presence of objects, that is, the abstract object always has spatial-temporal properties, that is, it notifies about its presence, as well as features of the life of the mass of object within its Pandan zone. The assumption is made that the Pandan zone is a force factor in a limited space, to determine the influence of factors of the environment.
The paper contains the results of the research carried out to create new approaches to ensure the high accuracy of the precision detail’s manufacture, which will accurately determine the distance of the tool to the workpieces, which greatly affects the accuracy of the detail’s manufacture by the automated production. Purpose of the work was to create the principles of the operation of a two-parameter measuring probe for the control system of the workpiece’s setting relatively to the instrument. On based of the processing system of the informative parameters of complex electromagnetic fields (in particular, the optical range), which prevents the destruction of process equipment in the detail’s manufacture for precision devices. Consequently, the principles of construction of two-parameter electromagnetic systems of control and measurement of space-time coordinates of technological objects location in the workspace of the machine are proposed. The proposed action of the probe for the information-measuring system of contact provides an increase in the accuracy of the metalworking process during the manufacture of precision details of devices, which is especially important in the processing of metals on CNC machines.
The concept of active background plane touching of two abstract objects is considered in the paper. The model of active plane touches on the principles of real and imaginary surfaces is offered. Geometry of active plane sensors at the touches of the technological objects, and theoretical density of elementary detector elements at the location on a common plane of technological object are shown. Using the model of the active zone, the concept of zone accuracy is offered. In the followed scientific of research direction, you should consider of the overall situation, which a sensor is create at the time by touch of the two surfaces of technological objects
There are a number of problems in the manufacture of precision instruments related to the accuracy of the size of details, which affects the quality of the product. Therefore, it is necessary to take into account those distortions of the geometry of the element of details, which are machining, for example, on CNC machines. At work the main possible variants of deviation from geometric sizes, which lead to loss of accuracy of the detail are considered
The paper deals with important issues of diagnosis early signs of diseases of the nervous system, including Parkinson's disease and other specific diseases. Small quantities of violation trajectory of spatial movement of the extremities of human disease at the primary level as the most appropriate features are studied. In modern medical practice is very actual the control the emergence of diseases of the nervous system, including Parkinson's disease. In work a model limbs with six rotational kinematic pairs for diagnosis of early signs of diseases of the nervous system is considered. subject.