NEW SATELLITE COMMUNICATION TECHNOLOGIES ON THE HIGH SEAS (Q3177377): Difference between revisions

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(‎Changed label, description and/or aliases in en: translated_label)
(‎Removed claim: summary (P836): The main objective of this project is to develop new technologies to replace the current technologies that use SBD and RUDICS technology for the reception of buoy data on board tuna vessels. The current reception is made through the MSB software, owned by Marine Instruments, where the SW connects directly to the Iridium modem through the MSR2 equipment, and is for exclusive use. With this evolution, it is intended to have innovative technology...)
Property / summary
The main objective of this project is to develop new technologies to replace the current technologies that use SBD and RUDICS technology for the reception of buoy data on board tuna vessels. The current reception is made through the MSB software, owned by Marine Instruments, where the SW connects directly to the Iridium modem through the MSR2 equipment, and is for exclusive use. With this evolution, it is intended to have innovative technology and in the future to make a more versatile and generic reception equipment, which is valid not only for MSB software, but also for other Marine Instruments systems such as the Marine View or the Electronic Eye system (eEye), all of them developed internally._x000D_ _x000D_ The development presents the following technological innovations: _x000D_ • new satellite communications antenna and transceiver concept fully integrated into one unit (hardware and firmware)._x000D_ • New hardware concept with all components integrated into a single PCB._x000D_ • New integrated antenna and transceiver concept, which also integrates sensors (temperature, humidity and accelerometer), to be able to verify the integrity of the antenna._x000D_ • New concept of offshore satellite communications ecosystem, expandable, versatile, and remotely configurable._x000D_ _x000D_ The project is divided into three work packages (PT1 Definition of Requirements, PT2 Experimental Development, PT3 Testing and Validation), and will be carried out in 14 months. (English)
 
Property / summary: The main objective of this project is to develop new technologies to replace the current technologies that use SBD and RUDICS technology for the reception of buoy data on board tuna vessels. The current reception is made through the MSB software, owned by Marine Instruments, where the SW connects directly to the Iridium modem through the MSR2 equipment, and is for exclusive use. With this evolution, it is intended to have innovative technology and in the future to make a more versatile and generic reception equipment, which is valid not only for MSB software, but also for other Marine Instruments systems such as the Marine View or the Electronic Eye system (eEye), all of them developed internally._x000D_ _x000D_ The development presents the following technological innovations: _x000D_ • new satellite communications antenna and transceiver concept fully integrated into one unit (hardware and firmware)._x000D_ • New hardware concept with all components integrated into a single PCB._x000D_ • New integrated antenna and transceiver concept, which also integrates sensors (temperature, humidity and accelerometer), to be able to verify the integrity of the antenna._x000D_ • New concept of offshore satellite communications ecosystem, expandable, versatile, and remotely configurable._x000D_ _x000D_ The project is divided into three work packages (PT1 Definition of Requirements, PT2 Experimental Development, PT3 Testing and Validation), and will be carried out in 14 months. (English) / rank
Normal rank
 
Property / summary: The main objective of this project is to develop new technologies to replace the current technologies that use SBD and RUDICS technology for the reception of buoy data on board tuna vessels. The current reception is made through the MSB software, owned by Marine Instruments, where the SW connects directly to the Iridium modem through the MSR2 equipment, and is for exclusive use. With this evolution, it is intended to have innovative technology and in the future to make a more versatile and generic reception equipment, which is valid not only for MSB software, but also for other Marine Instruments systems such as the Marine View or the Electronic Eye system (eEye), all of them developed internally._x000D_ _x000D_ The development presents the following technological innovations: _x000D_ • new satellite communications antenna and transceiver concept fully integrated into one unit (hardware and firmware)._x000D_ • New hardware concept with all components integrated into a single PCB._x000D_ • New integrated antenna and transceiver concept, which also integrates sensors (temperature, humidity and accelerometer), to be able to verify the integrity of the antenna._x000D_ • New concept of offshore satellite communications ecosystem, expandable, versatile, and remotely configurable._x000D_ _x000D_ The project is divided into three work packages (PT1 Definition of Requirements, PT2 Experimental Development, PT3 Testing and Validation), and will be carried out in 14 months. (English) / qualifier
point in time: 12 October 2021
Timestamp+2021-10-12T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0
 

Revision as of 19:17, 12 October 2021

Project Q3177377 in Spain
Language Label Description Also known as
English
NEW SATELLITE COMMUNICATION TECHNOLOGIES ON THE HIGH SEAS
Project Q3177377 in Spain

    Statements

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    159,624.0 Euro
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    199,530.0 Euro
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    80.0 percent
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    1 November 2019
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    31 December 2020
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    MARINE INSTRUMENTS SA
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    42°8'25.94"N, 8°48'25.49"W
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    36035
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    El principal objetivo de este proyecto es desarrollar nuevas tecnologías en sustitución de las actuales que usan tecnología de SBD y RUDICS para la recepción de datos de boyas a bordo de barcos atuneros. La recepción actual se hace a través del software MSB, propiedad de Marine Instruments, donde el SW se conecta directamente al módem Iridium a través del equipo MSR2, siendo de uso exclusivo. Con esta evolución, se pretende disponer de tecnología innovadoras y en un futuro hacer un equipo de recepción más versátil y de uso más genérico, que valga no solo para el software MSB, también para otros sistemas de Marine Instruments como el Marine View o el sistema Ojo Electrónico (eEye), todos ellos desarrollados internamente._x000D_ _x000D_ El desarrollo presenta las siguientes innovaciones tecnológicas: _x000D_ • Nuevo concepto de antena y transceptor de comunicaciones satelitarias totalmente integrada en una unidad (hardware y firmware)._x000D_ • Nuevo concepto de hardware con todos los componentes integrados en una única PCB._x000D_ • Nuevo concepto de antena y transceptor integrado, que también integra sensores (temperatura, humedad y acelerómetro), para poder verificar la integridad de la antena._x000D_ • Nuevo concepto de ecosistema de comunicaciones satelitarias para barcos en alta mar, expandible, versátil, y remotamente configurable._x000D_ _x000D_ El proyecto se divide en tres paquetes de trabajo (PT1 Definición de requisitos, PT2 Desarrollo experimental, PT3 Realización de pruebas y validación), y se llevará a cabo en 14 meses. (Spanish)
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    Nigrán
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    Identifiers

    IDI-20200404
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