Q2686891 (Q2686891): Difference between revisions
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(Created claim: summary (P836): Ref_ref_prog_aid: SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014).The goal of the SGPR.TECH Sp. z o.o. project is to build an innovative IT system for the analysis of signals cooperating with the universal hardware platform of FMCW georadar....) |
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Ref_ref_prog_aid: SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014).The goal of the SGPR.TECH Sp. z o.o. project is to build an innovative IT system for the analysis of signals cooperating with the universal hardware platform of FMCW georadar. The problem identified by the team is the lack or insufficient quality of data on the surface structure. The current GPR technology (Ground Penetrating Radar) gives a very simplified picture of what is under the surface of the ground, and does not allow for important business decisions based on the data obtained. This situation can be seen in a large number of industrial areas, but particular emphasis is placed on the mining industry and the construction industry in the broadest sense. Today’s surface zone analysis market is dominated by impulse georadars, which emit short, strong electromagnetic pulses to the ground and then receive reflections of these signals from underground geological layers and structures. The delays of the received signals are converted to the depth of the occurrence of the anomalies and their intensity determines the physical properties of the reflecting layers. In order to achieve satisfactory measurement accuracy and range, radar pulses must be very short and high energy. In practice, these are impulse powers of the order of several dozen kilowatts, with relatively shallow measurement. Another disadvantage of pulse radars is their low efficiency in the field of spectral measurements. The operation of the pulse radar takes place at a specified frequency, the conduct of measurements over a wide frequency range requires multiple antenna changes and repeat measurements. In contrast, the use of FMCW broadband emissions in combination with an extensive ana system (English) | |||||||||||||||
| Property / summary: Ref_ref_prog_aid: SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014).The goal of the SGPR.TECH Sp. z o.o. project is to build an innovative IT system for the analysis of signals cooperating with the universal hardware platform of FMCW georadar. The problem identified by the team is the lack or insufficient quality of data on the surface structure. The current GPR technology (Ground Penetrating Radar) gives a very simplified picture of what is under the surface of the ground, and does not allow for important business decisions based on the data obtained. This situation can be seen in a large number of industrial areas, but particular emphasis is placed on the mining industry and the construction industry in the broadest sense. Today’s surface zone analysis market is dominated by impulse georadars, which emit short, strong electromagnetic pulses to the ground and then receive reflections of these signals from underground geological layers and structures. The delays of the received signals are converted to the depth of the occurrence of the anomalies and their intensity determines the physical properties of the reflecting layers. In order to achieve satisfactory measurement accuracy and range, radar pulses must be very short and high energy. In practice, these are impulse powers of the order of several dozen kilowatts, with relatively shallow measurement. Another disadvantage of pulse radars is their low efficiency in the field of spectral measurements. The operation of the pulse radar takes place at a specified frequency, the conduct of measurements over a wide frequency range requires multiple antenna changes and repeat measurements. In contrast, the use of FMCW broadband emissions in combination with an extensive ana system (English) / rank | |||||||||||||||
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| Property / summary: Ref_ref_prog_aid: SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014).The goal of the SGPR.TECH Sp. z o.o. project is to build an innovative IT system for the analysis of signals cooperating with the universal hardware platform of FMCW georadar. The problem identified by the team is the lack or insufficient quality of data on the surface structure. The current GPR technology (Ground Penetrating Radar) gives a very simplified picture of what is under the surface of the ground, and does not allow for important business decisions based on the data obtained. This situation can be seen in a large number of industrial areas, but particular emphasis is placed on the mining industry and the construction industry in the broadest sense. Today’s surface zone analysis market is dominated by impulse georadars, which emit short, strong electromagnetic pulses to the ground and then receive reflections of these signals from underground geological layers and structures. The delays of the received signals are converted to the depth of the occurrence of the anomalies and their intensity determines the physical properties of the reflecting layers. In order to achieve satisfactory measurement accuracy and range, radar pulses must be very short and high energy. In practice, these are impulse powers of the order of several dozen kilowatts, with relatively shallow measurement. Another disadvantage of pulse radars is their low efficiency in the field of spectral measurements. The operation of the pulse radar takes place at a specified frequency, the conduct of measurements over a wide frequency range requires multiple antenna changes and repeat measurements. In contrast, the use of FMCW broadband emissions in combination with an extensive ana system (English) / qualifier | |||||||||||||||
point in time: 7 July 2021
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Revision as of 12:10, 7 July 2021
Project Q2686891 in Poland
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q2686891 in Poland |
Statements
Q2524466 (Deleted Item)
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6,371,909.04 zloty
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8,447,815.35 zloty
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75.43 percent
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1 July 2020
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31 December 2023
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SGPR.TECH SPÓŁKA Z OGRANICZONĄ ODPOWIEDZIALNOSCIĄ
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49°58'56.6"N, 20°3'36.7"E
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Nr_ref_prog_pomocowego: SA.41471(2015/X) Przeznaczenie_pomocy_publicznej: art. 25 rozporządzenia KE nr 651/2014 z dnia 17 czerwca 2014 r. uznające niektóre rodzaje pomocy za zgodne z rynkiem wewnętrznym w stosowaniu art. 107 i 108 Traktatu (Dz. Urz. UE L 187/1 z 26.06.2014).Celem projektu SGPR.TECH Sp. z o.o. jest budowa nowatorskiego systemu informatycznego do analizy sygnałów współpracującego z uniwersalną platformą sprzętową SDR georadaru FMCW. Problem, który został zidentyfikowany przez zespół, to brak albo niewystarczająca jakość danych dotyczących struktury przypowierzchniowej. Obecna technologia GPR (Ground Penetrating Radar) daje bardzo uproszczony obraz tego, co znajduje się pod powierzchnią gruntu, i nie pozwalają na podejmowanie ważnych, biznesowych decyzji na bazie uzyskanych danych. Taką sytuację można zaobserwować w bardzo wielu dziedzinach przemysłu, ale szczególny nacisk w projekcie kładziony jest na branżę wydobywczą, jak i szeroko pojętą branżę budowlaną. Dzisiejszy rynek analiz strefy przypowierzchniowej zdominowany jest przez georadary impulsowe, które emitują krótkie, silne impulsy elektromagnetyczne w stronę ziemi i następnie odbierają odbicia tych sygnałów od podziemnych warstw i struktur geologicznych. Opóźnienia odbieranych sygnałów są przeliczane na głębokości występowania anomalii, a ich intensywność określa własności fizyczne warstw odbijających. W celu osiągnięcia zadowalającej dokładności i zasięgu pomiaru, impulsy radaru muszą być bardzo krótkie i wysokoenergetyczne. W praktyce są to moce impulsowe rzędu kilkudziesięciu kilowatów, przy relatywnie płytkim pomiarze. Inną wadą radarów impulsowych jest ich mała efektywność w dziedzinie pomiarów spektralnych. Praca radaru impulsowego odbywa się na określonej częstotliwości, prowadzenie pomiarów w szerokim zakresie częstotliwości wymaga wielokrotnej zmiany anten i powtarzania pomiarów. Natomiast zastosowanie szerokopasmowej emisji FMCW w połączeniu z rozbudowanym systemem ana (Polish)
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Ref_ref_prog_aid: SA.41471(2015/X) Purpose_public_aid: Article 25 of Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in application of Articles 107 and 108 of the Treaty (OJ Urz. EU L 187/1 of 26.06.2014).The goal of the SGPR.TECH Sp. z o.o. project is to build an innovative IT system for the analysis of signals cooperating with the universal hardware platform of FMCW georadar. The problem identified by the team is the lack or insufficient quality of data on the surface structure. The current GPR technology (Ground Penetrating Radar) gives a very simplified picture of what is under the surface of the ground, and does not allow for important business decisions based on the data obtained. This situation can be seen in a large number of industrial areas, but particular emphasis is placed on the mining industry and the construction industry in the broadest sense. Today’s surface zone analysis market is dominated by impulse georadars, which emit short, strong electromagnetic pulses to the ground and then receive reflections of these signals from underground geological layers and structures. The delays of the received signals are converted to the depth of the occurrence of the anomalies and their intensity determines the physical properties of the reflecting layers. In order to achieve satisfactory measurement accuracy and range, radar pulses must be very short and high energy. In practice, these are impulse powers of the order of several dozen kilowatts, with relatively shallow measurement. Another disadvantage of pulse radars is their low efficiency in the field of spectral measurements. The operation of the pulse radar takes place at a specified frequency, the conduct of measurements over a wide frequency range requires multiple antenna changes and repeat measurements. In contrast, the use of FMCW broadband emissions in combination with an extensive ana system (English)
7 July 2021
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Identifiers
POIR.01.01.01-00-1451/19
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