×

You are using an outdated browser Internet Explorer. It does not support some functions of the site.

Recommend that you install one of the following browsers: Firefox, Opera or Chrome.

Contacts:

+7 961 270-60-01
ivdon3@bk.ru

  • Design of the internal combustion engine control system

    The design of internal combustion engine (ICE) control system for an unmanned aerial vehicle (UAV), providing reduced fuel consumption and stable operation of ICE at an altitude above 5000 m above sea level, has been created. A system of remote adjustment of the internal combustion engine parameters in real time during the flight of the UAV was developed and manufactured.

    Keywords: unmanned, aircraft, control system, internal combustion engine, remote adjustment, radio channel

  • Methods of functional and logical modeling of associative memory devices and systems

    A methodology for the study of associative memory devices and systems in the environment of functional-logical modeling MatLab / Simulink and the development tools of programmable logic integrated circuits is proposed. To this end, it is proposed to implement the typing of the representation and modeling of such devices and systems by implementing the characteristics of the representation and organization of network associative structures in the modeling environment.

    Keywords: Associative memory devices and systems, functional and logical modeling

  • Calculation of the main beam of the production building

    The problem of calculating rods for vector perturbations consisting of five components is solved: 1. kinematic transverse vibrations of the left end; 2. kinematic transverse vibrations of the right end; 3. dynamic bending moment at the left end; 4. dynamic bending moment at the right end; 5 dynamic uniformly distributed lateral load along the length of the rod. The transfer functions from each disturbance are obtained separately. Using these functions, we obtained the elements of the spectral matrix for stationary random processes, taking into account their correlation. The most common types of processes are considered: exponentially correlated random process; process with latent periodicity (with characteristic frequency); truncated white noise. The formula for obtaining the dispersion of displacement of sections is shown.

    Keywords: rod, harmonic oscillations, natural frequency, kinematic disturbances, dynamic disturbances, transfer function, correlation matrix, random process, delta-correlated random process, latent periodicity, truncated white noise

  • Associative tools for multidimensional risk assessment

    The possibility of using associative tools to solve the problem of multidimensional risk assessment is substantiated: “language of associations” for the formalized presentation of risk events and risks in the form of information objects in an associative environment; associative environment for the implementation of such assessment procedures. The approach to modeling the processes of multidimensional risk assessment based on the associative environment with its implementation on the FPGA is substantiated.

    Keywords: associative environment, multidimensional risk assessment

  • Development of a combined device for assessing the quality of motor oils

    The proposed combined device for assessing the quality of motor oils. To increase the informativeness of the output data, the device uses an optical method for analyzing the contamination of motor oils and a method for assessing contamination from changes in the dielectric constant.

    Keywords: lubricant, optoelectronic device, internal combustion engine, engine oil, pollution analysis method, optical control method, dielectric constant

  • Estimation of dependencies of the running time of the algorithm for recovering defocused images performed on the CPU and GPU

    The subject of research is the problem of choosing the most efficient hardware architecture that implements the algorithm for deconvolution (recovery) of distorted images. The Wiener filter is taken as the deconvolution algorithm under consideration, due to its efficiency, both in terms of image restoration quality and due to acceptable time complexity. The object of study is the process of determining the time complexity of the considered algorithm for the recovery of damaged images when it is executed on a central processing unit (CPU) and a graphics processing unit (GPU). The main functions of blurring and defocusing of images are considered: Gaussian blur, Bokeh effect, Motion blur or motion blur. The research method is based on an experimental assessment of the dependencies of the algorithm operation time based on the Wiener filter, performed on the CPU and GPU, on the dimension of the image being restored. The results of a computational experiment conducted in order to compare the dependencies of the operating time of the Wiener filter, performed on the central processor and the graphic processor, on the size of the image being restored, are presented. Based on the presented results, it was found that when using images whose dimensions do not exceed 1920 * 1080, the Wiener filter is more expedient to implement on the CPU, and when restoring images that are larger than 1920 * 1080 - on the GPU.

    Keywords: image deconvolution, Wiener filter, parallelization, recovery of defocused images, CPU and GPU, algorithm optimization

  • Development of the structural scheme of the special habit based on the 1892VM8Ya radiation-resistant processor

    The developed structural diagram of the special calculator in modular design with increased resistance to external influencing factors based on the 1892VM8Ya "Multikor" processor designed for use in onboard avionics systems is presented.

    Keywords: Calculator, processor, MIL-STD-1533, controller, PLIS, microcircuit, special resistance

  • Features of electromechanical control of a complex power-generating unit with a vortex-type wind-conversion device

    This article discusses the features of the power plant control based on renewable energy sources for additional and emergency power supply of surface robotic systems. This kind of integrated power plant can be built on the basis of wind and solar energy converters and produce at least 10-15% of all electrical energy required for the vessel. For the most important element of the KSEU - wind power plant (wind), the Electromechanical torque control on the shaft of its rotor is considered. For this purpose, firstly, the problem of controlling the angular velocity of the rotor rotation by means of variable geometry elements (IEG) of the VEU of perspective type is solved. As an IEG, the tunable distance from the lower part of the rotor to the upper part of the lower guide structure of this wind turbine is considered. Simulation of the equations of the controller for the particular case of stabilization of the rotation speed of the rotor. Secondly, the structural scheme of electrical control of the output characteristics of the wind turbine is justified and the method of selection of some key elements of this scheme is given. Features of realization of the electric circuit of connection of VEU, solar panels (SP) and diesel generator set in uniform KSEU are considered. It is shown that the constructed integrated control system of wind turbines is able to effectively solve the problem of parrying external wind disturbances.

    Keywords: complex power unit, robotized surface platform, advanced windmill, solar panels, structural wiring diagram, hybrid controller

  • The efficiency evaluation of stabilization circuits of operation modes of the input stages of the differential and multidifferential operational amplifiers under the influence of ionizing radiation and temperature. Part 1. Voltage feedback

    The design of radiation-hardened circuits the use of special technologies and the use of additional circuit techniques. The efficiency of using these methods to improve the scheme qualitative indicators can be assessed by some evaluation. The paper presents the efficiency evaluation method of special voltage feedbacks application in dynamic loads of the classical differential stages. The stages with dynamic loads are apply, for example, in the schemes of differential and multidifferential operational amplifiers. The purpose of the introduction of these feedbacks is the reducing of the effect of transistors low-signal parameters instability under the influence of destabilizing factors (radiation and temperature). For the organization of feedback circuits in the structure of dynamic loads, additional voltage amplifiers based on transistors are introduced into the circuit. It is shown that this approach can increase the output resistance of the dynamic load and increase the gain coefficient of the differential stage under the influence of ionizing radiation and temperature. The efficiency evaluation method is based on the construction of a mathematical model of the scheme expressed through low-signal differential h-parameters of scheme transistors. Thus, the calculation of the main qualitative indicators of the scheme can be carried out by mathematical modeling. The obtained simulation results confirm the efficiency of the proposed circuit design.

    Keywords: efficiency evaluation, circuit design, dynamic load, low-signal parameters, radiation

  • The efficiency evaluation of stabilization circuits of operation modes of the input stages of the differential and multidifferential operational amplifiers under the influence of ionizing radiation and temperature. Part 2. Current feedback

    This paper presents a radiation hardened by design of differential stages using dynamic loads. The efficiency of proposed design methods to improve the scheme qualitative indicators can be assessed by some evaluation. The theoretical results of the evaluation of the self-compensation circuit effect of parasitic impedance of the output transistor closed collector in the dynamic loads of classical differential stages, which is realized on the base of current feedbacks, are presented. It is shown that the introduction of the current feedbacks allows to reduce the effect of transistors small-signal parameters instabilities of the dynamic load under the influence of ionizing radiation and temperature on it's quality and the parameters of the differential stages. The efficiency evaluation of the circuit solutions in differential stages of modern operational and multidifferential amplifiers is given. The theoretical results of the evaluation of the self-compensation circuit effect of parasitic impedance of the output transistor closed collector in the dynamic loads of classical differential stages, which is realized on the base of current feedbacks, are presented. It is shown that the introduction of the current feedbacks allows to reduce the effect of transistors small-signal parameters instabilities of the dynamic load under the influence of ionizing radiation and temperature on it's quality and the parameters of the differential stages. For the organization of feedback circuits in the structure of dynamic loads, additional current amplifiers based on transistors are introduced into the circuit. It is shown that this approach can increase the output resistance of the dynamic load and increase the gain coefficient of the differential stage under the influence of ionizing radiation and temperature. The efficiency evaluation of the circuit solutions in differential stages of modern operational and multidifferential amplifiers is given. The efficiency evaluation method is based on the construction of a mathematical model of the scheme expressed through low-signal differential h-parameters of the scheme transistors. Thus, the calculation of the main qualitative indicators of the scheme can be carried out by mathematical modeling. The obtained simulation results confirm the efficiency of the proposed circuit design.

    Keywords: efficiency evaluation, circuit design, differential stage, dynamic load, destabilizing factors, low-signal parameters

  • Electrophysical and Thermal Characteristics of Semiconductor Thermal Resistances of Coaxial Type

    High-current semiconductor polycrystalline thermistors of high power of coaxial type have a large mass and consequently, considerable heat capacity and heat resistance. Due to this, the thermophysical and electrophysical processes in them are different in the steady and transient regimes, which is especially important in regimes. which lasts a fraction or a unit of seconds. The main variants of operation of such thermistors in dynamic modes are considered and various characteristics are given.

    Keywords: Thermistor, thermal and electrophysical characteristics, electric motors, electrophysical and thermal characteristics of semiconductor thermo-resistors of coaxial type

  • Overview of Intellectual Transport Systems Architecture Design Methods

    Two basic approaches to designing architectures used in the United States and the European Union are considered. The role of the architecture design stage in the development of projects for intelligent transport systems has been determined. Prospective development directions for design methods of architectures of this type have been identified

    Keywords: Architecture, intelligent transport systems, subsystems, functional and physical architecture, services

  • Evaluation of the effect of the trace elements on the reliability of the project in the field-programmable gate array basis

    In this article, the evaluation of the effect of the trace elements on the reliability of the design of the combinational circuit in the field-programmable gate array (FPGA) basis is researched. An evaluation of the reliability of combinational circuits in the basis of three-input FPGA cells, as well as three-input FPGA cells, taking into account the trace elements, is given. Proposed methods for evaluate the reliability of the project at various stages of the development of fault-tolerance projects in the FPGA basis. The use of these methods allows the design of combinational circuits of increased reliability in the basis of reconfigurable integrated circuits without built-in reliability features.

    Keywords: reliability, evaluation fault tolerance, combinational circuit, FPGA, fault injection

  • Simulation of the design activity diversification of innovative enterprise

    The article proposes a concept system of connected together and arising from one another views on the creation and practical use of shore control center (SCC) by autonomous unmanned underwater vehicles (AUV). Within the framework of the above concept, the threats having the most significant impact on the AUV control, as well as the methods and means to counter these threats, are determined. The information passing and processing in a system for collecting, transmitting and displaying information (SCTDI) are considered as a parallel set of independent routes, information on which flows to the SCC AUV. In terms of the theory of flows and queuing systems (QS), in a dynamic sense, the system of collecting, transmitting and displaying information (SCTDI) deals with the composite flows, which are non-stationary in general, possibly with after-effect (correlation). Fines are in force at all levels of information collecting and transmitting and even imposed on a decision maker (DM) who makes a decision to use the AUV. Considered are the possible options for coordinating decisions developed by the SCC and AUV automated control systems, in which the decisions are made by the artificial intelligence created by man. The lower level consists of a collection, a series of convolutions and contractions, and finally, the Z-scene itself, messaging, situation, and just the situation is the subject of cognitive identification in the X-scene by the decision-making system. That is, the decision block includes an automated subsystem and a decision maker, which interact in a dialog mode.

    Keywords: coastal control center (BCU), autonomous unmanned underwater vehicle AUV, system for collecting, transmitting and displaying information (CSPAI), queuing system (SMO), System for collecting, transmitting and displaying information ACU, decision making

  • Simulation of the design activity diversification of innovative enterprise

    The article considers the actual problem of analysis of the effectiveness of the driver’s control activity (DCA) and the development of methods for the assessment of their professional competences (PC), using as inputs the data from on-board recorders of parameters of movement and specialized train the ACS as an alternative to currently used tools such as skills tests, technology assessment, test "Business profile of the Railways", the questionnaire method 90 degrees. The proposed method of calculation of integral assessment of PC based of analysis of the effectiveness of DCA using methods of artificial intelligence, particularly fuzzy logic as a technology of knowledge processing to build a fuzzy logic system based on the fuzzy production rules, which allows to formalize criteria for the evaluation of DCA (compliance with schedule, energy efficiency, compliance and safety rules) using the linguistic variables and calculate the integral assessment of the quality of DCA using the procedure for fuzzy inference. This will improve the accuracy and reliability of estimates of professional competences in relation to the technological process of train operation, identify the most effective techniques and skills of train driving, including manual and automated modes, interaction of the driver with the system of auto-driving, etc., improve the software and algorithmic support of auto-driving systems and autopilot in the framework of the project "Digital Railway".

    Keywords: locomotive crew, machinist, locomotive, registrar of traffic parameters, competence approach, assessment of professional competencies, artificial intelligence, fuzzy logic

  • The development and debugging of the model of microprocessor based on MIPS architecture and its realisation on the field-programmable gate array (FPGA)

    The relevance of modeling, design of digital devices and further synthesis of it on FPGA are substantiated in this article. This approach is demonstrated by example of microprocessor with famous architecture MIPS on the VHDL language. The further modeling, synthesis on FPGA by Altera and test on the specific example confirm the opportunity of prototyping real digital devices with the introduсed method.

    Keywords: microprocessor, test, programmable logic integrated circuit, digital device, verification, model, hardware description language, field-programmable gate array,pipeline ,MIPS

  • The problem of ice on the wires of the overhead lines of the railway power supply system

    Overhead contact system is a part of electric traction network which doesn’t have safety margin of a construction that’s why its using in winter becomes much difficult. The most heavy overhead contact system work is the operating regime in wind and ice loading because of wind and increasing not only on wires and suspension strands but on supporting structures. Ice loading on wires makes current-collecting conditions much worse and taking into account operational factors it can be a cause of a traffic accident and trains stop. The authors examine some methods of ice prevention, their efficiency effect and the capacity of their combining. In connection with this it is very important to trace ice load as early as possible. Equipment set for thermodynamic method instantiation and its fixing variant are represented.

    Keywords: traction power system, overhead contact system, contact wire line, ice loading, loading, testing methods

  • Phase detector for high frequency electrochemical impedance spectroscopy systems

    The development of electrochemical impedance spectroscopy method in the field of high-frequency signals is proposed using an amplitude-phase approach to analyze the parameters of various biological sensors. Unlike the standard high-frequency analog electrochemical impedance spectroscopy systems interfaces based on quadrature demodulation, the use of peak and phase detectors allows improving the basic metrological parameters, as well as simplifying the analog interface with a wide bandwidth of the biological sensor interrogation signal. The circuit design of the phase detector, as part of the general system, is considered on the components of the technological process TSMC 0.35um SiGe. The key feature of this block is the maximum speed due to the rejection of feedbacks. A large range of output voltages and a low speed of their change allow the use of standard analog input modules for inputting phase detector signals to a computer for subsequent digital processing. The final accuracy of biological sensor signal phase detection is maintained at an acceptable level due to the introduction of additional elements in the basic circuit and the digital algorithms presented in the work. The shown variant of carrying out the correction has immunity to nonlinearities of the output characteristic of phase detection for large phase deviations of the signal of the biological sensor. The process technology used in the design is classified as economical, which makes it possible to potentially reduce the electrochemical impedance spectroscopy systems cost of production and introduction of a mass application.

    Keywords: biological sensor; impedance spectroscopy; phase detector; quadrature representation of a signal, digital correction, algorithm of data processing, SiGe-technology, system on chip, microwave range, analog interface

  • Investigation of partial backup options in the design of fault-tolerant logic blocks in FPGAs

    In this article, we propose methods for designing fault-tolerant structures for Field Programmable Gate Arrays (FPGAs) by forming an internal structure of macro cells (LUTs), with the possibility of correcting single reversible faults in the circuit’s gates. To improve fault tolerance, the failure tolerance of a typical macro cell was assessed, the most vulnerable areas were identified and the most vulnerable parts of the macrocell were protected by means of triple modular redundancy methods. Depending on the expansion of the protected area, various versions of the built-in redundancy were obtained, and various options for minimizing the built-in redundancy were proposed. Experimental work was carried out to form fault-tolerant ISCAS'85 combinational circuit designs in the basis of fault-tolerant FPGAs.

    Keywords: combinational circuit, FPGA, field-programmable gate array, LUT, logic synthesis, increase fault tolerant, computer-aided design (CAD), fault injection, single event transient

  • Simulation of the design activity diversification of innovative enterprise

    We consider the problem of mobile mode changes the operation of a digital device implemented on the FPGA. To solve this problem, the structure of hardware and software, providing increased performance and noise immunity.

    Keywords: programmable logic integrated circuits, computer, microcontroller, shift register, digital device

  • Design of power efficient modular FIR filters based on reduced multiconstant multipliers

    Currently, issues of development of power efficient hardware blocks for digital signal processing (DSP) devices gain special importance. This is due to the rapid flourishing of wearable electronics, the Internet of things (IoT), network and telecommunication systems. The key component of many DSP devices is a finite impulse response (FIR) filter. It is not surprising that currently a large number of scientific papers are devoted to the development of power efficient FIR filters. The article proposes an original approach to the issue solution. As a methodological basis, modular arithmetic was chosen, already proven as an effective mathematical apparatus for the development of high-speed DSP devices. Another solution was the use of the FIR filter transposed form and methods for constructing the reduced blocks of the multiconstant multipliers. The experimental part demonstrated the efficiency of the block reduction methods of the multiconstant multiplication from the point of view of the filter power consumption. The article also made recommendations for the use of the proposed methods for specific implementations of the FIR filters.

    Keywords: modulo FIR filter, multiconstant multiplier, transposed form, power consumption, dissipated power

  • Dependence of the current step of measurement on structural properties of a signal at adaptive temporary sampling of interpolation type

    The efficiency of algorithms of the adaptive temporal sampling (ATS) is defined by compressibility of an analog signal. For the purpose of prior assessment of compressibility of measuring signals the dependence of the current clock period of measurement in case of ATS from dynamic properties of a signal is considered. Depending on a priori known characteristics of dynamic properties of signals and the given error of approximation select a method of interpolation or extrapolation. In article the dependence of the current clock period of measurement on differential properties of a signal for an ideal algorithm of ATS of interpolation type is received. Restoration of a signal after ATS an interpolation polynomial of Lagrange n-oh of a level is supposed. The quality of approximation is set by criterion of uniform approximation. It is shown that the analysis of ideal ATS of interpolation type comes down to the analysis of the equivalent on value of a section of approximation of ideal ATS of extrapolation type.

    Keywords: Adaptive temporary sampling, measurement step, structural properties of a signal, interpolation, reproduction error

  • Dependence of the current step of measurement at adaptive temporary sampling in case of restoration of a signal an interpolation polynom of zero degree

    The efficiency of algorithms of the adaptive temporal sampling (ATS) is defined by compression ratio of an analog signal. For the purpose of prior assessment of compressibility of measuring signals the dependence of the current clock period of measurement in case of ATS from dynamic properties of a signal is considered. Based on the dependence of the current clock period of measurement on dynamic properties of a signal received earlier, formulas for assessment of value of a clock period of measurement in case of interpolation are received by Lagrange's polynomial of a 0th level and a class of the signals restricted to the selected structural model. The functional dependence of the current clock period of measurement from structural properties of a signal, in case of Lagrange's polynomial of a 0th level, allows to determine the average duration of a clock period of measurement in case of ATS. Value of average duration of a clock period of measurement in case of ATS allows to estimate value of compression ratio a priori. As assessment of an error of approximation it is selected, often used in case of restoration of signals, criterion of uniform approximation.

    Keywords: adaptive temporary sampling, measurement step, structural properties of a signal, interpolation, Lagrange's polynom, reproduction error

  • Synchronization system in circuits with a high degree of integration

    The crosstalk level increases with increasing degree of circuit integration. At the same time, requirements to their noise immunity increase. The increase in the amplitude of the pulse signals is a simple and effective method to improve noise immunity. The article discusses the synchronization system with the global distribution of low-voltage clock signal and a local increase in the amplitude using drivers with increasing voltage. Proposed technical solutions allow to set the amplitude of the clock signal individually for each functional unit.

    Keywords: synchronization, noise immunity, clock signal drivers, amplitude increase, source and power rail reduction

  • Detection of a violation of electricity metering of the consumer

    The method is considered for seaching a single-phase or three-phase electricity meter with the radio control module installed in it. With the help of this module, the consumer of electric energy has the opportunity to disconnect the pecking motor of the electric meter. These actions are allow you not take into consideration actually consumed elecrtrical energy. This module is installed by the consumer illegally and when a network organization detects this , they make an act about unaccounted electric power consumption. The method is based on the measurement of the intaking power of the volt circuit by the maser gage CE601 of the analyzing counter of electrical power CE 101, with the mechanical counting mechanism. Herewith, the consumer's loading is switched off by supply feeders. This method is allow to draw the conclusions about the presence of embedded non-factory devices without disconnecting of the electricity meter from the network ( time saving ).

    Keywords: Electricity meter, loss of electrical energy, consumption analysis, commercial losses, electricity accounting