The Experts below are selected from a list of 15 Experts worldwide ranked by ideXlab platform
Gennady V. Leonov - One of the best experts on this subject based on the ideXlab platform.
-
Experimental Study on Verification of the Flame Spatial Coordinates Determining Adequacy by Multipoint Electro-Optical System
2018 19th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2018Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. Leonov, Vyacheslav A. ShadrinAbstract:Experimental study on verification of the flame spatial coordinates determining adequacy by multipoint electro-optical system (ECO) is performed. The approach to the implementation of the EOS to determination of the flame spatial coordinates based on the theoretical results obtained earlier is considered. The approach include: the location of the non-coordinate electro-optical gauges (further NEOG) in the Protected Premise; calculation of the NEOG output signals ratio as ratio of the signal value of separate NEOG to the sum of the all NEOG signals; coordinate calculation on the basis of regression methods by polynomials. Experimental setup and methodology for investigating of the determining flame spatial coordinates adequacy by EOS are developed. The results of the research are presented. The experimental reduced error in determining of the test fires (TF-5 and TF-6) spatial coordinates does not exceed 15%. The values of the experimental reduced error are in satisfactory agreement with the theoretical values of the reduced error. The causes of the errors at determining of the flame coordinates during experimental investigation are determined.
-
Determination of control points quantity and their location in Protected object for high-speed multipoint electro-optical system for fire detection and determine its spatial coordinates
2017 18th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2017Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. LeonovAbstract:The approach to determining of control points quantity and their arrangement on Protected object for high-speed multipoint electro-optical system of fire detection and determine its spatial coordinates (EOS) is described. Optimality criteria of application EOS for maintenance of fire safety in coal mines taking into account methods of flame coordinates determining are formulated. Variants of control point's arrangement in a Protected Premise are developed. The technique of research carrying out on check of optimality of control point's quantity and their spatial arrangement on Protected object is developed. Recommendations are formulated about: quantity of non-coordinate electro-optical gauges necessary for construction of system; placing methods of electro-optical gauges on Protected object, choice of calculation methods of flame coordinates for maintenance of demanded accuracy.
Sergey A. Lisakov - One of the best experts on this subject based on the ideXlab platform.
-
Experimental Study on Verification of the Flame Spatial Coordinates Determining Adequacy by Multipoint Electro-Optical System
2018 19th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2018Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. Leonov, Vyacheslav A. ShadrinAbstract:Experimental study on verification of the flame spatial coordinates determining adequacy by multipoint electro-optical system (ECO) is performed. The approach to the implementation of the EOS to determination of the flame spatial coordinates based on the theoretical results obtained earlier is considered. The approach include: the location of the non-coordinate electro-optical gauges (further NEOG) in the Protected Premise; calculation of the NEOG output signals ratio as ratio of the signal value of separate NEOG to the sum of the all NEOG signals; coordinate calculation on the basis of regression methods by polynomials. Experimental setup and methodology for investigating of the determining flame spatial coordinates adequacy by EOS are developed. The results of the research are presented. The experimental reduced error in determining of the test fires (TF-5 and TF-6) spatial coordinates does not exceed 15%. The values of the experimental reduced error are in satisfactory agreement with the theoretical values of the reduced error. The causes of the errors at determining of the flame coordinates during experimental investigation are determined.
-
Determination of control points quantity and their location in Protected object for high-speed multipoint electro-optical system for fire detection and determine its spatial coordinates
2017 18th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2017Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. LeonovAbstract:The approach to determining of control points quantity and their arrangement on Protected object for high-speed multipoint electro-optical system of fire detection and determine its spatial coordinates (EOS) is described. Optimality criteria of application EOS for maintenance of fire safety in coal mines taking into account methods of flame coordinates determining are formulated. Variants of control point's arrangement in a Protected Premise are developed. The technique of research carrying out on check of optimality of control point's quantity and their spatial arrangement on Protected object is developed. Recommendations are formulated about: quantity of non-coordinate electro-optical gauges necessary for construction of system; placing methods of electro-optical gauges on Protected object, choice of calculation methods of flame coordinates for maintenance of demanded accuracy.
Andrey N. Pavlov - One of the best experts on this subject based on the ideXlab platform.
-
Experimental Study on Verification of the Flame Spatial Coordinates Determining Adequacy by Multipoint Electro-Optical System
2018 19th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2018Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. Leonov, Vyacheslav A. ShadrinAbstract:Experimental study on verification of the flame spatial coordinates determining adequacy by multipoint electro-optical system (ECO) is performed. The approach to the implementation of the EOS to determination of the flame spatial coordinates based on the theoretical results obtained earlier is considered. The approach include: the location of the non-coordinate electro-optical gauges (further NEOG) in the Protected Premise; calculation of the NEOG output signals ratio as ratio of the signal value of separate NEOG to the sum of the all NEOG signals; coordinate calculation on the basis of regression methods by polynomials. Experimental setup and methodology for investigating of the determining flame spatial coordinates adequacy by EOS are developed. The results of the research are presented. The experimental reduced error in determining of the test fires (TF-5 and TF-6) spatial coordinates does not exceed 15%. The values of the experimental reduced error are in satisfactory agreement with the theoretical values of the reduced error. The causes of the errors at determining of the flame coordinates during experimental investigation are determined.
-
Determination of control points quantity and their location in Protected object for high-speed multipoint electro-optical system for fire detection and determine its spatial coordinates
2017 18th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2017Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. LeonovAbstract:The approach to determining of control points quantity and their arrangement on Protected object for high-speed multipoint electro-optical system of fire detection and determine its spatial coordinates (EOS) is described. Optimality criteria of application EOS for maintenance of fire safety in coal mines taking into account methods of flame coordinates determining are formulated. Variants of control point's arrangement in a Protected Premise are developed. The technique of research carrying out on check of optimality of control point's quantity and their spatial arrangement on Protected object is developed. Recommendations are formulated about: quantity of non-coordinate electro-optical gauges necessary for construction of system; placing methods of electro-optical gauges on Protected object, choice of calculation methods of flame coordinates for maintenance of demanded accuracy.
Eugene V. Sypin - One of the best experts on this subject based on the ideXlab platform.
-
Experimental Study on Verification of the Flame Spatial Coordinates Determining Adequacy by Multipoint Electro-Optical System
2018 19th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2018Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. Leonov, Vyacheslav A. ShadrinAbstract:Experimental study on verification of the flame spatial coordinates determining adequacy by multipoint electro-optical system (ECO) is performed. The approach to the implementation of the EOS to determination of the flame spatial coordinates based on the theoretical results obtained earlier is considered. The approach include: the location of the non-coordinate electro-optical gauges (further NEOG) in the Protected Premise; calculation of the NEOG output signals ratio as ratio of the signal value of separate NEOG to the sum of the all NEOG signals; coordinate calculation on the basis of regression methods by polynomials. Experimental setup and methodology for investigating of the determining flame spatial coordinates adequacy by EOS are developed. The results of the research are presented. The experimental reduced error in determining of the test fires (TF-5 and TF-6) spatial coordinates does not exceed 15%. The values of the experimental reduced error are in satisfactory agreement with the theoretical values of the reduced error. The causes of the errors at determining of the flame coordinates during experimental investigation are determined.
-
Determination of control points quantity and their location in Protected object for high-speed multipoint electro-optical system for fire detection and determine its spatial coordinates
2017 18th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2017Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. LeonovAbstract:The approach to determining of control points quantity and their arrangement on Protected object for high-speed multipoint electro-optical system of fire detection and determine its spatial coordinates (EOS) is described. Optimality criteria of application EOS for maintenance of fire safety in coal mines taking into account methods of flame coordinates determining are formulated. Variants of control point's arrangement in a Protected Premise are developed. The technique of research carrying out on check of optimality of control point's quantity and their spatial arrangement on Protected object is developed. Recommendations are formulated about: quantity of non-coordinate electro-optical gauges necessary for construction of system; placing methods of electro-optical gauges on Protected object, choice of calculation methods of flame coordinates for maintenance of demanded accuracy.
Vyacheslav A. Shadrin - One of the best experts on this subject based on the ideXlab platform.
-
Experimental Study on Verification of the Flame Spatial Coordinates Determining Adequacy by Multipoint Electro-Optical System
2018 19th International Conference of Young Specialists on Micro Nanotechnologies and Electron Devices (EDM), 2018Co-Authors: Sergey A. Lisakov, Andrey N. Pavlov, Eugene V. Sypin, Gennady V. Leonov, Vyacheslav A. ShadrinAbstract:Experimental study on verification of the flame spatial coordinates determining adequacy by multipoint electro-optical system (ECO) is performed. The approach to the implementation of the EOS to determination of the flame spatial coordinates based on the theoretical results obtained earlier is considered. The approach include: the location of the non-coordinate electro-optical gauges (further NEOG) in the Protected Premise; calculation of the NEOG output signals ratio as ratio of the signal value of separate NEOG to the sum of the all NEOG signals; coordinate calculation on the basis of regression methods by polynomials. Experimental setup and methodology for investigating of the determining flame spatial coordinates adequacy by EOS are developed. The results of the research are presented. The experimental reduced error in determining of the test fires (TF-5 and TF-6) spatial coordinates does not exceed 15%. The values of the experimental reduced error are in satisfactory agreement with the theoretical values of the reduced error. The causes of the errors at determining of the flame coordinates during experimental investigation are determined.
