Onboard Equipment

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Ludmila Nozhenkova - One of the best experts on this subject based on the ideXlab platform.

  • Command and Software Management Simulation for the Spacecraft Equipment Testing
    2018 3rd Russian-Pacific Conference on Computer Technology and Applications (RPC), 2018
    Co-Authors: Ludmila Nozhenkova, Olga B. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    The paper presents test support method of the command and software management of the spacecraft Onboard Equipment. The method is based on the simulation of the command and software management, that is performed at the test preparation stage. Simulation results allow to form an extended test programs, taking into account the performance features of the test object. This approach improves the quality of test process, and then it leads to improving the quality of the space engineering products.

  • Software Tools for Modeling Space Systems’ Equipment Command-and-Software Control
    DEStech Transactions on Computer Science and Engineering, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Alexander A. Evsyukov
    Abstract:

    The article describes the instruments allowing to create software models of the space systems’ Onboard Equipment function. We have developed the original methods and tools allowing to build information-and-graphical models describing the Onboard systems’ architecture. The model function are set in the knowledge bases and allow to describe different variants of the Onboard Equipment command control. We are working within the area of creation of software for the problem-oriented simulation infrastructure based on the Simulation Model Portability standard. Our software complex will allow an Onboard systems’ designer to conduct simulation tests for preparation and analysis of technical projects.

  • Scenario Approach to Testing Spacecraft’s Onboard Equipment Command and Software Management
    DEStech Transactions on Engineering and Technology Research, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    This article describes scenario approach to automation of command and software management of spacecraft Onboard Equipment testing. The test scenarios are complex sequences of test procedures providing control of physical state of Equipment, as well as the quality of the received commands. We have designed tools for making formal description of test methods in a graphical form, and set different algorithms for the result control. Usage of this software expands the possibilities of the Onboard Equipment study and allows to increase test quality and reliability.

  • scenario approach to testing spacecraft s Onboard Equipment command and software management
    DEStech Transactions on Engineering and Technology Research, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    This article describes scenario approach to automation of command and software management of spacecraft Onboard Equipment testing. The test scenarios are complex sequences of test procedures providing control of physical state of Equipment, as well as the quality of the received commands. We have designed tools for making formal description of test methods in a graphical form, and set different algorithms for the result control. Usage of this software expands the possibilities of the Onboard Equipment study and allows to increase test quality and reliability.

  • Integration Technology of the Onboard Equipment Simulation Models in Simulation Modeling Infrastructure
    DEStech Transactions on Engineering and Technology Research, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Evgeniy Gruzenko, Andrey Koldyrev
    Abstract:

    In this article we present the integration technology of spacecraft Onboard systems’ simulation models in original infrastructure of simulation modeling based on the international Simulation Model Portability (SMP2) standard. We have described the technological stages of metamodel building to unite Onboard systems’ models in a one complex solution. This technology allows to build simulation models in terms of the subject area and provides their translation into software components working in accordance with SMP2 standard. Simulation models’ realization in infrastructure will make it possible to provide creation of complex solutions and will help accumulation and usage of expert knowledge about spacecraft Onboard Equipment function.

Olga S. Isaeva - One of the best experts on this subject based on the ideXlab platform.

  • Method of creation and verification of the spacecraft Onboard Equipment operation model
    IOP Conference Series: Materials Science and Engineering, 2019
    Co-Authors: Nikita Kulyasov, Olga S. Isaeva, Sergey Isaev
    Abstract:

    This article represents the method of creation and verification of a simulation model consisting of graphical structure duplicating the elements of spacecraft Onboard Equipment and the knowledge base describing the methods of its function. The authors have developed software tools for model building and verification with the help of visual components converting formal description of the model and the knowledge base into interactive graphical images of infographics. The method can be used at any stage of Onboard Equipment designing, however it is most efficient at the initial stages.

  • Software Tools for Modeling Space Systems’ Equipment Command-and-Software Control
    DEStech Transactions on Computer Science and Engineering, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Alexander A. Evsyukov
    Abstract:

    The article describes the instruments allowing to create software models of the space systems’ Onboard Equipment function. We have developed the original methods and tools allowing to build information-and-graphical models describing the Onboard systems’ architecture. The model function are set in the knowledge bases and allow to describe different variants of the Onboard Equipment command control. We are working within the area of creation of software for the problem-oriented simulation infrastructure based on the Simulation Model Portability standard. Our software complex will allow an Onboard systems’ designer to conduct simulation tests for preparation and analysis of technical projects.

  • Scenario Approach to Testing Spacecraft’s Onboard Equipment Command and Software Management
    DEStech Transactions on Engineering and Technology Research, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    This article describes scenario approach to automation of command and software management of spacecraft Onboard Equipment testing. The test scenarios are complex sequences of test procedures providing control of physical state of Equipment, as well as the quality of the received commands. We have designed tools for making formal description of test methods in a graphical form, and set different algorithms for the result control. Usage of this software expands the possibilities of the Onboard Equipment study and allows to increase test quality and reliability.

  • scenario approach to testing spacecraft s Onboard Equipment command and software management
    DEStech Transactions on Engineering and Technology Research, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    This article describes scenario approach to automation of command and software management of spacecraft Onboard Equipment testing. The test scenarios are complex sequences of test procedures providing control of physical state of Equipment, as well as the quality of the received commands. We have designed tools for making formal description of test methods in a graphical form, and set different algorithms for the result control. Usage of this software expands the possibilities of the Onboard Equipment study and allows to increase test quality and reliability.

  • Integration Technology of the Onboard Equipment Simulation Models in Simulation Modeling Infrastructure
    DEStech Transactions on Engineering and Technology Research, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Evgeniy Gruzenko, Andrey Koldyrev
    Abstract:

    In this article we present the integration technology of spacecraft Onboard systems’ simulation models in original infrastructure of simulation modeling based on the international Simulation Model Portability (SMP2) standard. We have described the technological stages of metamodel building to unite Onboard systems’ models in a one complex solution. This technology allows to build simulation models in terms of the subject area and provides their translation into software components working in accordance with SMP2 standard. Simulation models’ realization in infrastructure will make it possible to provide creation of complex solutions and will help accumulation and usage of expert knowledge about spacecraft Onboard Equipment function.

Rodion V. Vogorovskiy - One of the best experts on this subject based on the ideXlab platform.

  • Command and Software Management Simulation for the Spacecraft Equipment Testing
    2018 3rd Russian-Pacific Conference on Computer Technology and Applications (RPC), 2018
    Co-Authors: Ludmila Nozhenkova, Olga B. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    The paper presents test support method of the command and software management of the spacecraft Onboard Equipment. The method is based on the simulation of the command and software management, that is performed at the test preparation stage. Simulation results allow to form an extended test programs, taking into account the performance features of the test object. This approach improves the quality of test process, and then it leads to improving the quality of the space engineering products.

  • Scenario Approach to Testing Spacecraft’s Onboard Equipment Command and Software Management
    DEStech Transactions on Engineering and Technology Research, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    This article describes scenario approach to automation of command and software management of spacecraft Onboard Equipment testing. The test scenarios are complex sequences of test procedures providing control of physical state of Equipment, as well as the quality of the received commands. We have designed tools for making formal description of test methods in a graphical form, and set different algorithms for the result control. Usage of this software expands the possibilities of the Onboard Equipment study and allows to increase test quality and reliability.

  • scenario approach to testing spacecraft s Onboard Equipment command and software management
    DEStech Transactions on Engineering and Technology Research, 2017
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    This article describes scenario approach to automation of command and software management of spacecraft Onboard Equipment testing. The test scenarios are complex sequences of test procedures providing control of physical state of Equipment, as well as the quality of the received commands. We have designed tools for making formal description of test methods in a graphical form, and set different algorithms for the result control. Usage of this software expands the possibilities of the Onboard Equipment study and allows to increase test quality and reliability.

  • Command and Software Control Simulation for Testing Spacecraft Onboard Equipment
    DEStech Transactions on Engineering and Technology Research, 2016
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    This article considers solution of the problem of testing of command and software management of spacecraft Onboard Equipment. The object of control is the command and measuring system which performs reception, processing and transmission of commands for interaction between an Earth control complex and spacecraft Onboard systems, as well as transformation and transmission of telemetric information about the condition of Onboard units. In order to build testing procedures we have designed software allowing to simulate external command and software management by setting different sequences of commands, controlling their execution and analyzing the received data. This approach extends the possibilities of conducting tests, allows to reduce the time of testing and improve the quality of designer solutions.

  • Automation of Spacecraft Onboard Equipment Testing
    Proceedings of the 2016 International Conference on Advanced Materials Science and Environmental Engineering, 2016
    Co-Authors: Ludmila Nozhenkova, Olga S. Isaeva, Rodion V. Vogorovskiy
    Abstract:

    This article suggests an approach to automation of spacecraft Onboard Equipment testing, basing on a formalized sequence of scenarios determining measuring and control actions. We have developed a technology allowing to automate all stages of testing of spacecraft Onboard systems' functional characteristics with the help of testing Equipment's software. We have described the functions of software at the stages of test planning, preparation and execution, processing of the results and producing reports. This approach extends the possibilities to conduct experiments and allows to justify design solutions.

S. F. Chermoshentsev - One of the best experts on this subject based on the ideXlab platform.

  • Investigation of the Influence of Electromagnetic Interference from Generator Power Lines on the Equipment in the Engine Nacelle of an Aircraft
    2020 International Conference on Actual Problems of Electron Devices Engineering (APEDE), 2020
    Co-Authors: Alexander V. Kirsha, R. R. Gaynutdinov, S. F. Chermoshentsev
    Abstract:

    This paper studies electromagnetic interference that occurs in the information communication lines of on-Board Equipment under the influence of power lines of the generator. An approach to predicting the effect of electromagnetic interference from generator power lines on the functioning of Onboard Equipment is proposed. We consider an aircraft whose engine nacelle is made of a composite material. A practical example of predicting the effect of electromagnetic interference on the control device located in the internal space of the engine nacelle is considered.

  • Electromagnetic Interference Emission from Communication Lines of Onboard Equipment of an Unmanned Aerial Vehicle
    Journal of Communications Technology and Electronics, 2020
    Co-Authors: R. R. Gaynutdinov, S. F. Chermoshentsev
    Abstract:

    —An approach is proposed for studying the emission of electromagnetic interference from communication lines of the Onboard Equipment of an unmanned aerial vehicle. An unmanned aerial vehicle made of composite material is considered. The article presents a practical example of studying the electromagnetic environment in the fuselage space of an unmanned aerial vehicle during emission of electromagnetic interference from interface communication lines and the power supply network of the control system. The influence of electromagnetic interference emission on the Onboard radio Equipment of an unmanned aerial vehicle is assessed.

  • Optimization Unmanned Aerial Vehicle Onboard Equipment Placement
    2020 International Russian Automation Conference (RusAutoCon), 2020
    Co-Authors: R. R. Gaynutdinov, Ilya V. Suzdaltsev, S. F. Chermoshentsev
    Abstract:

    The paper proposes an approach to determine the optimal installation locations for on-board Equipment in the fuselage space of an unmanned aerial vehicle (UAV). The approach is implemented using a genetic algorithm to solve the multicriteria problem for determine the optimal installation locations for on-board Equipment in the fuselage space of a UAV. As optimization criteria, we consider the restriction on exceeding the threshold level of noise immunity of Onboard Equipment over the electromagnetic environment that has developed because of electromagnetic effects or interactions, as well as the minimum total weighted length of cable connections. The paper discusses studies of the proposed genetic algorithm, which confirm its effectiveness for finding optimal places for installing on-board Equipment in the fuselage space of UAV.

  • Study Radiation from Radio Transmitters Antennas Influence on the UAV Onboard Equipment
    2019 International Conference on Electrotechnical Complexes and Systems (ICOECS), 2019
    Co-Authors: R. R. Gaynutdinov, S. F. Chermoshentsev
    Abstract:

    In this paper, studies are being conducted on the radiation from radio transmitters antennas influence on the Onboard Equipment of unmanned aerial vehicles (UAV). The paper proposes an approach to the prediction from the radiation radio transmitters' antennas influence. The UAV made of composite material is considered. A practical example of the prediction of the electromagnetic environment in the fuselage space of a UAV under the electromagnetic influence of radio transmitter antennas is discussed.

  • Electromagnetic Disturbance Study in On-board Equipment Coupling Paths of UAVs at Electromagnetic Influences from Radio Transmitters Antennas
    2019 International Russian Automation Conference (RusAutoCon), 2019
    Co-Authors: R. R. Gaynutdinov, S. F. Chermoshentsev
    Abstract:

    The paper suggests an approach to the prediction of the electromagnetic disturbance in UAV interfaces coupling paths at influences radiation of radios transmitter's antennas. A practical example of electromagnetic disturbance study in interface coupling paths at influences radiation of radios transmitter's antennas is discussed. The results of the research show that the values of electromagnetic interference in the communication lines of UAV can reach quite dangerous values for the high quality functioning of on-board Equipment. Recommendations are proposed to meet the requirements of electromagnetic compatibility of Onboard Equipment based on the use of structural and circuit methods.

R. R. Gaynutdinov - One of the best experts on this subject based on the ideXlab platform.

  • Investigation of the Influence of Electromagnetic Interference from Generator Power Lines on the Equipment in the Engine Nacelle of an Aircraft
    2020 International Conference on Actual Problems of Electron Devices Engineering (APEDE), 2020
    Co-Authors: Alexander V. Kirsha, R. R. Gaynutdinov, S. F. Chermoshentsev
    Abstract:

    This paper studies electromagnetic interference that occurs in the information communication lines of on-Board Equipment under the influence of power lines of the generator. An approach to predicting the effect of electromagnetic interference from generator power lines on the functioning of Onboard Equipment is proposed. We consider an aircraft whose engine nacelle is made of a composite material. A practical example of predicting the effect of electromagnetic interference on the control device located in the internal space of the engine nacelle is considered.

  • Electromagnetic Interference Emission from Communication Lines of Onboard Equipment of an Unmanned Aerial Vehicle
    Journal of Communications Technology and Electronics, 2020
    Co-Authors: R. R. Gaynutdinov, S. F. Chermoshentsev
    Abstract:

    —An approach is proposed for studying the emission of electromagnetic interference from communication lines of the Onboard Equipment of an unmanned aerial vehicle. An unmanned aerial vehicle made of composite material is considered. The article presents a practical example of studying the electromagnetic environment in the fuselage space of an unmanned aerial vehicle during emission of electromagnetic interference from interface communication lines and the power supply network of the control system. The influence of electromagnetic interference emission on the Onboard radio Equipment of an unmanned aerial vehicle is assessed.

  • Optimization Unmanned Aerial Vehicle Onboard Equipment Placement
    2020 International Russian Automation Conference (RusAutoCon), 2020
    Co-Authors: R. R. Gaynutdinov, Ilya V. Suzdaltsev, S. F. Chermoshentsev
    Abstract:

    The paper proposes an approach to determine the optimal installation locations for on-board Equipment in the fuselage space of an unmanned aerial vehicle (UAV). The approach is implemented using a genetic algorithm to solve the multicriteria problem for determine the optimal installation locations for on-board Equipment in the fuselage space of a UAV. As optimization criteria, we consider the restriction on exceeding the threshold level of noise immunity of Onboard Equipment over the electromagnetic environment that has developed because of electromagnetic effects or interactions, as well as the minimum total weighted length of cable connections. The paper discusses studies of the proposed genetic algorithm, which confirm its effectiveness for finding optimal places for installing on-board Equipment in the fuselage space of UAV.

  • Study Radiation from Radio Transmitters Antennas Influence on the UAV Onboard Equipment
    2019 International Conference on Electrotechnical Complexes and Systems (ICOECS), 2019
    Co-Authors: R. R. Gaynutdinov, S. F. Chermoshentsev
    Abstract:

    In this paper, studies are being conducted on the radiation from radio transmitters antennas influence on the Onboard Equipment of unmanned aerial vehicles (UAV). The paper proposes an approach to the prediction from the radiation radio transmitters' antennas influence. The UAV made of composite material is considered. A practical example of the prediction of the electromagnetic environment in the fuselage space of a UAV under the electromagnetic influence of radio transmitter antennas is discussed.

  • Electromagnetic Disturbance Study in On-board Equipment Coupling Paths of UAVs at Electromagnetic Influences from Radio Transmitters Antennas
    2019 International Russian Automation Conference (RusAutoCon), 2019
    Co-Authors: R. R. Gaynutdinov, S. F. Chermoshentsev
    Abstract:

    The paper suggests an approach to the prediction of the electromagnetic disturbance in UAV interfaces coupling paths at influences radiation of radios transmitter's antennas. A practical example of electromagnetic disturbance study in interface coupling paths at influences radiation of radios transmitter's antennas is discussed. The results of the research show that the values of electromagnetic interference in the communication lines of UAV can reach quite dangerous values for the high quality functioning of on-board Equipment. Recommendations are proposed to meet the requirements of electromagnetic compatibility of Onboard Equipment based on the use of structural and circuit methods.

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