Development of the assumptions, algorithms and performance of the sensor prototype measuring humidity, conductivity and temperature of the horticultural substrate. (Q81320): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Removed claim: summary (P836): Reference_reference_programme_aids:SA.42799 (2015/X), aid_de_de minimis:§ 42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on the provision of financial assistance by the Polish Agency for Enterprise Development in the framework of the OP Smart Growth 2014-2020.The sensor is intended to measure the relative permeability and electrical conductivity of the specific conductor system of the measurement probe.T...)
(‎Created claim: summary (P836): Reference number of the aid programme: SA.42799(2015/X), help_de_minimis: §42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on granting financial assistance by the Polish Agency for Enterprise Development within the Operational Programme Intelligent Development 2014-2020.The subject of the contract is a research and development service consisting of developing assumptions, algorithms and making prototypes of...)
Property / summary
 
Reference number of the aid programme: SA.42799(2015/X), help_de_minimis: §42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on granting financial assistance by the Polish Agency for Enterprise Development within the Operational Programme Intelligent Development 2014-2020.The subject of the contract is a research and development service consisting of developing assumptions, algorithms and making prototypes of sensors measuring humidity, electrical conductivity and gardening substrate temperature. In the assumption, the sensor is to measure the values of relative permeability and electrical conductivity of the corresponding parasite system of the lost capacitor of the measurement probe. This sensor will be used in precision agriculture for crops conducted on soilless substrates. These are gardening substrates with low inertia and high water capacity such as mineral wool, glass wool, peat, coconut fibres, perlite, vermiculite and others, are widely used in horticulture production, min. in flower and vegetable distribution, container nurseries of ornamental plants, pot plants and herbs, and “soilless” cultivation of vegetables and berries. These substrates are characterised by: — high water capacity with relatively higher air content, – zero or limited minerals (mineral components are supplied primarily in the form of slow and/or controlled fertilisers and by the irrigation system – fertigation). Salinity of gardening substrates depends on the requirements of cultivated plants. In practice, it may vary from very low values (e.g.: orchids) up to relatively high (over 4mS/cm for tomatoes). The measuring probe shall have the appropriate dimensions and design to ensure easy installation in the ground: it must be characterised by a small cross-section: hence, it should have a rod or other form that ensures good contact with (English)
Property / summary: Reference number of the aid programme: SA.42799(2015/X), help_de_minimis: §42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on granting financial assistance by the Polish Agency for Enterprise Development within the Operational Programme Intelligent Development 2014-2020.The subject of the contract is a research and development service consisting of developing assumptions, algorithms and making prototypes of sensors measuring humidity, electrical conductivity and gardening substrate temperature. In the assumption, the sensor is to measure the values of relative permeability and electrical conductivity of the corresponding parasite system of the lost capacitor of the measurement probe. This sensor will be used in precision agriculture for crops conducted on soilless substrates. These are gardening substrates with low inertia and high water capacity such as mineral wool, glass wool, peat, coconut fibres, perlite, vermiculite and others, are widely used in horticulture production, min. in flower and vegetable distribution, container nurseries of ornamental plants, pot plants and herbs, and “soilless” cultivation of vegetables and berries. These substrates are characterised by: — high water capacity with relatively higher air content, – zero or limited minerals (mineral components are supplied primarily in the form of slow and/or controlled fertilisers and by the irrigation system – fertigation). Salinity of gardening substrates depends on the requirements of cultivated plants. In practice, it may vary from very low values (e.g.: orchids) up to relatively high (over 4mS/cm for tomatoes). The measuring probe shall have the appropriate dimensions and design to ensure easy installation in the ground: it must be characterised by a small cross-section: hence, it should have a rod or other form that ensures good contact with (English) / rank
 
Normal rank
Property / summary: Reference number of the aid programme: SA.42799(2015/X), help_de_minimis: §42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on granting financial assistance by the Polish Agency for Enterprise Development within the Operational Programme Intelligent Development 2014-2020.The subject of the contract is a research and development service consisting of developing assumptions, algorithms and making prototypes of sensors measuring humidity, electrical conductivity and gardening substrate temperature. In the assumption, the sensor is to measure the values of relative permeability and electrical conductivity of the corresponding parasite system of the lost capacitor of the measurement probe. This sensor will be used in precision agriculture for crops conducted on soilless substrates. These are gardening substrates with low inertia and high water capacity such as mineral wool, glass wool, peat, coconut fibres, perlite, vermiculite and others, are widely used in horticulture production, min. in flower and vegetable distribution, container nurseries of ornamental plants, pot plants and herbs, and “soilless” cultivation of vegetables and berries. These substrates are characterised by: — high water capacity with relatively higher air content, – zero or limited minerals (mineral components are supplied primarily in the form of slow and/or controlled fertilisers and by the irrigation system – fertigation). Salinity of gardening substrates depends on the requirements of cultivated plants. In practice, it may vary from very low values (e.g.: orchids) up to relatively high (over 4mS/cm for tomatoes). The measuring probe shall have the appropriate dimensions and design to ensure easy installation in the ground: it must be characterised by a small cross-section: hence, it should have a rod or other form that ensures good contact with (English) / qualifier
 
point in time: 14 October 2020
Timestamp+2020-10-14T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 11:58, 14 October 2020

Project in Poland financed by DG Regio
Language Label Description Also known as
English
Development of the assumptions, algorithms and performance of the sensor prototype measuring humidity, conductivity and temperature of the horticultural substrate.
Project in Poland financed by DG Regio

    Statements

    0 references
    93,779.65 zloty
    0 references
    22,507.12 Euro
    13 January 2020
    0 references
    110,329.0 zloty
    0 references
    26,478.96 Euro
    13 January 2020
    0 references
    85.0 percent
    0 references
    19 November 2018
    0 references
    30 November 2019
    0 references
    INVENTIA SP. Z O.O.
    0 references
    0 references
    Numer_referencyjny_programu_pomocowego: SA.42799(2015/X), pomoc_de_minimis: §42 rozporządzenia Ministra Infrastruktury i Rozwoju z dnia 10 lipca 2015 r. w sprawie udzielania przez Polską Agencję Rozwoju Przedsiębiorczości pomocy finansowej w ramach Programu Operacyjnego Inteligentny Rozwój 2014–2020.Przedmiotem zamówienia jest usługa badawczo-rozwojowa polegająca na opracowaniu założeń, algorytmów oraz wykonania prototypów czujnika mierzącego wilgotność, przewodność elektryczną właściwą oraz temperaturę podłoży ogrodniczych. W założeniu wskazany czujnik ma dokonywać pomiaru wartości przenikalności względnej i przewodności elektrycznej właściwej układu parazytowego stratnego kondensatora sondy pomiarowej. Czujnik ten będzie wykorzystywany w rolnictwie precyzyjnym przy uprawach prowadzonych na podłożach bezglebowych. Są to podłoża ogrodnicze o niskiej inercji i wysokiej pojemności wodnej takie jak wełna mineralna, wełna szklana, torf, włókna kokosowe, perlit, wermikulit i inne, są szeroko wykorzystywane w produkcji ogrodniczej min. w produkcji rozsad kwiatów i warzyw, w kontenerowych szkółkach roślin ozdobnych, roślin doniczkowych i ziół oraz „bezglebowej” uprawie warzyw i roślin jagodowych. Podłoża te charakteryzują się: - wysoką pojemnością wodną przy relatywnie wyższej zawartości powietrza, - zerową lub ograniczoną sorpcją składników mineralnych (składniki mineralne są dostarczane przede wszystkim w formie nawozów o spowolnionym i/lub kontrolowanym działaniu oraz przez system nawadniania - fertygacja). Zasolenie podłoży ogrodniczych uzależnione jest od wymagań uprawianych roślin. W praktyce może wahać się od wartości bardzo niskich (np.: storczyk) aż po stosunkowo wysokie (ponad 4mS/cm dla pomidora). Sonda pomiarowa musi mieć odpowiednie wymiary i konstrukcję zapewniającą łatwą jej instalację w podłożu: musi się charakteryzować małym przekrojem poprzecznym: stąd powinna mieć formę prętową lub inną zapewniającą dobry kontakt z (Polish)
    0 references
    Reference number of the aid programme: SA.42799(2015/X), help_de_minimis: §42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on granting financial assistance by the Polish Agency for Enterprise Development within the Operational Programme Intelligent Development 2014-2020.The subject of the contract is a research and development service consisting of developing assumptions, algorithms and making prototypes of sensors measuring humidity, electrical conductivity and gardening substrate temperature. In the assumption, the sensor is to measure the values of relative permeability and electrical conductivity of the corresponding parasite system of the lost capacitor of the measurement probe. This sensor will be used in precision agriculture for crops conducted on soilless substrates. These are gardening substrates with low inertia and high water capacity such as mineral wool, glass wool, peat, coconut fibres, perlite, vermiculite and others, are widely used in horticulture production, min. in flower and vegetable distribution, container nurseries of ornamental plants, pot plants and herbs, and “soilless” cultivation of vegetables and berries. These substrates are characterised by: — high water capacity with relatively higher air content, – zero or limited minerals (mineral components are supplied primarily in the form of slow and/or controlled fertilisers and by the irrigation system – fertigation). Salinity of gardening substrates depends on the requirements of cultivated plants. In practice, it may vary from very low values (e.g.: orchids) up to relatively high (over 4mS/cm for tomatoes). The measuring probe shall have the appropriate dimensions and design to ensure easy installation in the ground: it must be characterised by a small cross-section: hence, it should have a rod or other form that ensures good contact with (English)
    14 October 2020
    0 references

    Identifiers

    POIR.02.03.02-14-0156/18
    0 references