Development of expert technology for the diagnosis of energy and industrial structures using a specialised technology platform and adaptive algorithms. (Q107965): Difference between revisions
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(Removed claim: summary (P836): The main objective of the project is to carry out the research work (industrial research and development) as a result of which a number of technological solutions will be developed for the construction of a specialised technology platform using adaptive algorithms and containing three key components to increase the speed and accuracy of tests of the heat exchange equipment (e.g. exchanger, condenser, condenser): A archiving module, containing...) |
(Created claim: summary (P836): The main objective of the project is to carry out research (industrial research and development) which will result in a series of technological solutions necessary for the construction of a specialised technological platform using adaptation algorithms and containing three key components to increase the speed and accuracy of the testing of heat exchange equipment using the method of eddy currents (e.g. exchanger, condenser, radiator): — an archi...) |
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| Property / summary | |||||||||||||||
The main objective of the project is to carry out research (industrial research and development) which will result in a series of technological solutions necessary for the construction of a specialised technological platform using adaptation algorithms and containing three key components to increase the speed and accuracy of the testing of heat exchange equipment using the method of eddy currents (e.g. exchanger, condenser, radiator): — an archiving module containing the database collected during the tests and a module for reporting on the condition of the device; — a module for automated and autonomous control of diagnosed elements; — measurement precision module. The project will be implemented for 24 months, consisting of 7 tasks: Task No. 1 – Development of a functional data flow model and signal analysis – Industrial research, implementation of: 3 months, from 01.09.2016 to 30.11.2016 Task No 2 – Development of a module of signal analysis using a database of recorded signals and adaptive analytical methods – Industrial research, implementation: 3 months, from 01.12.2016 to 28.02.2017 Task No 3 Developing a dedicated and specialised precision module – Industrial research; implementation: 5 months, from 01.03.2017 to 31.07.2017 Task No 4 Developing a dedicated module of statistical analyses – Industrial research, implementation: 4 months, from 01.08.2017 to 30.11.2017 Task No 5 Development of software that manages work of individual modules and dedicated database for signal recording – Development research, implementation: 5 months, from 01.08.2017 to 31.12.2017 Task No 6 Execution of test samples and testing – Development research, implementation of: 5 months, from 01.12.2017 to 30.04.2018 Task No 7 Final tests of developed technology – Development research, implementation: 4 months, from 01.05.2018 to 31.08.2018 After each task, detailed case documentation will be prepared (English) | |||||||||||||||
| Property / summary: The main objective of the project is to carry out research (industrial research and development) which will result in a series of technological solutions necessary for the construction of a specialised technological platform using adaptation algorithms and containing three key components to increase the speed and accuracy of the testing of heat exchange equipment using the method of eddy currents (e.g. exchanger, condenser, radiator): — an archiving module containing the database collected during the tests and a module for reporting on the condition of the device; — a module for automated and autonomous control of diagnosed elements; — measurement precision module. The project will be implemented for 24 months, consisting of 7 tasks: Task No. 1 – Development of a functional data flow model and signal analysis – Industrial research, implementation of: 3 months, from 01.09.2016 to 30.11.2016 Task No 2 – Development of a module of signal analysis using a database of recorded signals and adaptive analytical methods – Industrial research, implementation: 3 months, from 01.12.2016 to 28.02.2017 Task No 3 Developing a dedicated and specialised precision module – Industrial research; implementation: 5 months, from 01.03.2017 to 31.07.2017 Task No 4 Developing a dedicated module of statistical analyses – Industrial research, implementation: 4 months, from 01.08.2017 to 30.11.2017 Task No 5 Development of software that manages work of individual modules and dedicated database for signal recording – Development research, implementation: 5 months, from 01.08.2017 to 31.12.2017 Task No 6 Execution of test samples and testing – Development research, implementation of: 5 months, from 01.12.2017 to 30.04.2018 Task No 7 Final tests of developed technology – Development research, implementation: 4 months, from 01.05.2018 to 31.08.2018 After each task, detailed case documentation will be prepared (English) / rank | |||||||||||||||
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| Property / summary: The main objective of the project is to carry out research (industrial research and development) which will result in a series of technological solutions necessary for the construction of a specialised technological platform using adaptation algorithms and containing three key components to increase the speed and accuracy of the testing of heat exchange equipment using the method of eddy currents (e.g. exchanger, condenser, radiator): — an archiving module containing the database collected during the tests and a module for reporting on the condition of the device; — a module for automated and autonomous control of diagnosed elements; — measurement precision module. The project will be implemented for 24 months, consisting of 7 tasks: Task No. 1 – Development of a functional data flow model and signal analysis – Industrial research, implementation of: 3 months, from 01.09.2016 to 30.11.2016 Task No 2 – Development of a module of signal analysis using a database of recorded signals and adaptive analytical methods – Industrial research, implementation: 3 months, from 01.12.2016 to 28.02.2017 Task No 3 Developing a dedicated and specialised precision module – Industrial research; implementation: 5 months, from 01.03.2017 to 31.07.2017 Task No 4 Developing a dedicated module of statistical analyses – Industrial research, implementation: 4 months, from 01.08.2017 to 30.11.2017 Task No 5 Development of software that manages work of individual modules and dedicated database for signal recording – Development research, implementation: 5 months, from 01.08.2017 to 31.12.2017 Task No 6 Execution of test samples and testing – Development research, implementation of: 5 months, from 01.12.2017 to 30.04.2018 Task No 7 Final tests of developed technology – Development research, implementation: 4 months, from 01.05.2018 to 31.08.2018 After each task, detailed case documentation will be prepared (English) / qualifier | |||||||||||||||
point in time: 17 October 2020
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Revision as of 17:24, 17 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of expert technology for the diagnosis of energy and industrial structures using a specialised technology platform and adaptive algorithms. |
Project in Poland financed by DG Regio |
Statements
523,733.86 zloty
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901,595.25 zloty
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58.09 percent
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1 September 2016
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30 September 2018
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ENERGODIAGNOSTYKA SP. Z O.O.
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52°14'1.3"N, 21°4'17.0"E
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Głównym celem projektu jest przeprowadzenie prac badawczych (badań przemysłowych i prac rozwojowych) w rezultacie których opracowanych zostanie szereg rozwiązań technologicznych niezbędnych do budowy specjalizowanej platformy technologicznej wykorzystującej algorytmy adaptacyjne i zawierającej trzy kluczowe komponenty umożliwiające zwiększenie szybkości i dokładności badań urządzeń wymiany ciepła metodą prądów wirowych (np. wymiennika, skraplacza, chłodnicy): - moduł archiwizujący, zawierający bazę danych zgromadzonych w trakcie badań oraz moduł raportowania o stanie urządzenia; - moduł zautomatyzowanej i autonomicznej kontroli diagnozowanych elementów; - moduł precyzji pomiaru. Projekt realizowany będzie 24 miesiące, składać się będzie z 7 zadań: Zadanie nr 1 - Opracowanie modelu funkcjonalnego przepływu danych i analizy sygnałów – Badania przemysłowe, realizacja: 3 miesiące, od 01.09.2016 do 30.11.2016 Zadanie nr 2 - Opracowanie modułu analiz danych sygnałowych wykorzystującego bazę danych zarejestrowanych sygnałów oraz adaptacyjne metody analityczne – Badania przemysłowe, realizacja: 3 miesiące, od 01.12.2016 do 28.02.2017 Zadanie nr 3 Opracowanie dedykowanego i specjalizowanego modułu precyzji pomiarowej – Badania przemysłowe; realizacja: 5 miesięcy, od 01.03.2017 do 31.07.2017 Zadanie nr 4 Opracowanie dedykowanego modułu analiz statystycznych – Badania przemysłowe, realizacja: 4 miesiące, od 01.08.2017 do 30.11.2017 Zadanie nr 5 Opracowanie oprogramowania zarządzającego pracą poszczególnych modułów oraz dedykowanej bazy danych do rejestracji sygnałów – Badania rozwojowe, realizacja: 5 miesięcy, od 01.08.2017 do 31.12.2017 Zadanie nr 6 Wykonanie próbek badawczych i wykonanie badań – Badania rozwojowe, realizacja: 5 miesięcy, od 01.12.2017 do 30.04.2018 Zadanie nr 7 Testy finalne opracowanej technologii – Badania rozwojowe, realizacja: 4 miesiące, od 01.05.2018 do 31.08.2018 Po każdym z zadań będzie przygotowywana szczegółowa dokumentacja spraw (Polish)
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The main objective of the project is to carry out research (industrial research and development) which will result in a series of technological solutions necessary for the construction of a specialised technological platform using adaptation algorithms and containing three key components to increase the speed and accuracy of the testing of heat exchange equipment using the method of eddy currents (e.g. exchanger, condenser, radiator): — an archiving module containing the database collected during the tests and a module for reporting on the condition of the device; — a module for automated and autonomous control of diagnosed elements; — measurement precision module. The project will be implemented for 24 months, consisting of 7 tasks: Task No. 1 – Development of a functional data flow model and signal analysis – Industrial research, implementation of: 3 months, from 01.09.2016 to 30.11.2016 Task No 2 – Development of a module of signal analysis using a database of recorded signals and adaptive analytical methods – Industrial research, implementation: 3 months, from 01.12.2016 to 28.02.2017 Task No 3 Developing a dedicated and specialised precision module – Industrial research; implementation: 5 months, from 01.03.2017 to 31.07.2017 Task No 4 Developing a dedicated module of statistical analyses – Industrial research, implementation: 4 months, from 01.08.2017 to 30.11.2017 Task No 5 Development of software that manages work of individual modules and dedicated database for signal recording – Development research, implementation: 5 months, from 01.08.2017 to 31.12.2017 Task No 6 Execution of test samples and testing – Development research, implementation of: 5 months, from 01.12.2017 to 30.04.2018 Task No 7 Final tests of developed technology – Development research, implementation: 4 months, from 01.05.2018 to 31.08.2018 After each task, detailed case documentation will be prepared (English)
17 October 2020
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Identifiers
RPMA.01.02.00-14-6199/16
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