{"id":2789,"date":"2022-11-22T17:09:35","date_gmt":"2022-11-22T16:09:35","guid":{"rendered":"https:\/\/ieec-wp.ixole.es\/innovacion\/proyectos-por-ambitos\/"},"modified":"2024-02-08T12:25:53","modified_gmt":"2024-02-08T11:25:53","slug":"proyectos-por-ambitos","status":"publish","type":"page","link":"https:\/\/ieec-wp.ixole.es\/es\/innovacion\/proyectos-por-ambitos\/","title":{"rendered":"Proyectos por \u00e1mbitos"},"content":{"rendered":"

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Innovaci\u00f3n<\/a> | Proyectos por \u00e1mbitos<\/strong><\/p>\n

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Proyectos por \u00e1mbitos<\/h1>\n

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Miembros del IEEC llevan a cabo proyectos de investigaci\u00f3n y desarrollo aplicados en gran variedad de \u00e1mbitos: investigaci\u00f3n cient\u00edfico-tecnol\u00f3gica, observaci\u00f3n de la Tierra, navegaci\u00f3n, seguridad espacial, telecomunicaciones, tecnolog\u00edas de exploraci\u00f3n planetaria y segmento terrestre, entre otros.<\/em><\/p>\n

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El IEEC, en algunos casos a trav\u00e9s de sus Unidades de Investigaci\u00f3n, cubre una gran variedad de aplicaciones con los proyectos de investigaci\u00f3n y desarrollo que lleva a cabo: comunicaciones con nanosat\u00e9lites, ciencias atmosf\u00e9ricas y astron\u00f3micas, infraestructuras cient\u00edficas, desarrollos tecnol\u00f3gicos para misiones espaciales actuales y futuras, sistemas de posicionamiento y aumentaci\u00f3n por sat\u00e9lite y su vinculaci\u00f3n con tecnolog\u00eda 5G, algoritmos de compresi\u00f3n de datos, y planificadores de telescopios terrestres para misiones espaciales, entre otras.<\/p>\n

A continuaci\u00f3n destacamos los m\u00e1s relevantes y recientes, distribuidos en siete \u00e1reas tem\u00e1ticas, aunque existen interrelaciones entre s\u00ed.<\/p>\n

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Programes de recerca cient\u00edfico-tecnol\u00f2gics (1)<\/h2>\n

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Programes de recerca cient\u00edfico-tecnol\u00f2gics (1)<\/h2>\n

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Programas de investigaci\u00f3n cient\u00edfico-tecnol\u00f3gicos<\/h2>\n

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Los programas de investigaci\u00f3n que abarcan los componentes cient\u00edfico y tecnol\u00f3gico son un pilar fundamental entre los proyectos desarrollados desde el IEEC<\/strong>.<\/em><\/span><\/p>\n

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En particular, estos programas son muy relevantes en el marco de desarrollos con un componente de innovaci\u00f3n significativo y que son de alto inter\u00e9s para futuras misiones.<\/span><\/p>\n

Destacan recientemente los proyectos de la ESA<\/strong>, llamados LETS<\/strong> y LIRA<\/strong>, vinculados a la contribuci\u00f3n a la misi\u00f3n LISA<\/strong> en el \u00e1rea de astronom\u00eda de ondas gravitacionales, con el desarrollo de un subsistema de control de temperatura de alta precisi\u00f3n, que permiten el an\u00e1lisis y calibraci\u00f3n de sensores de temperatura, incluidos sensores \u00f3pticos.<\/span><\/p>\n

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Observaci\u00f3 de la Terra (2)<\/h2>\n

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Observaci\u00f3 de la Terra (2)<\/h2>\n

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Observaci\u00f3n de la Tierra<\/h2>\n

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La Observaci\u00f3n de la Tierra<\/strong> desde el espacio es un elemento clave para las ciencias relacionadas con la Tierra. Las aplicaciones derivadas de la Observaci\u00f3n de la Tierra<\/strong> son fundamentales para comprender y mitigar algunos de los grandes retos actuales: el cambio clim\u00e1tico, la crisis de recursos naturales, emergencias y da\u00f1os medioambientales o la p\u00e9rdida de la biodiversidad.<\/p>\n

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En este contexto, el IEEC<\/strong> es un centro l\u00edder en teledetecci\u00f3n y uso de se\u00f1ales de geoposicionamiento para aplicaciones de Observaci\u00f3n de la Tierra<\/strong>, desde la invenci\u00f3n de t\u00e9cnicas de medida, prototipos de algoritmos y de instrumentaci\u00f3n, t\u00e9cnicas de calibraci\u00f3n, verificaci\u00f3n y validaci\u00f3n, as\u00ed como preparaci\u00f3n y participaci\u00f3n en misiones espaciales relacionadas.<\/span><\/p>\n

Entre las principales \u00e1reas de especializaci\u00f3n del IEEC destaca el uso de los Sistemas Globales de Navegaci\u00f3n por Sat\u00e9lite (GNSS)<\/strong> en ciencias atmosf\u00e9ricas, la reflectometr\u00eda basada en se\u00f1ales de oportunidad GNSS (GNSS-R)<\/strong>, las radio ocultaciones GNSS (GNSS-RO)<\/strong>, las tecnolog\u00edas hiperespectrales avanzadas y su aplicaci\u00f3n en peque\u00f1os sat\u00e9lites, la fusi\u00f3n de datos para la generaci\u00f3n de productos de Observaci\u00f3n de la Tierra y la mejora de las infraestructuras espaciales ya existentes (en particular, del programa Copernicus<\/strong>).<\/span><\/p>\n<\/div>\n

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Navegaci\u00f3 (3)<\/h2>\n

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Navegaci\u00f3 (3)<\/h2>\n

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Navegaci\u00f3n<\/h2>\n

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En diversos grupos del IEEC se pone de manifiesto la amplia experiencia en Posicionamiento<\/strong>, Navegaci\u00f3n<\/strong> y Sincronizaci\u00f3n<\/strong> (Positioning, Navigation and Timing, PNT) en m\u00faltiples \u00e1mbitos como la Observaci\u00f3n de la Tierra, las Telecomunicaciones y la Meteorolog\u00eda Espacial, y en aplicaciones terrestres que requieren geoposicionamiento.<\/em><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_2,1_2″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb min_height=\u00bb275.3px\u00bb custom_margin=\u00bb0px||0px||false|false\u00bb custom_padding=\u00bb0px||0px||false|false\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_image src=\u00bbhttps:\/\/ieec-wp.ixole.es\/wp-content\/uploads\/2022\/11\/navegacio.webp\u00bb alt=\u00bbnavegacio\u00bb title_text=\u00bbnavegacio\u00bb align_tablet=\u00bbcenter\u00bb align_phone=\u00bbcenter\u00bb align_last_edited=\u00bbon|tablet\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb width=\u00bb90%\u00bb border_width_top=\u00bb15px\u00bb border_color_top=\u00bb#406fda\u00bb global_colors_info=\u00bb{}\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#1e2751″ custom_margin=\u00bb0px||0px||false|false\u00bb custom_padding=\u00bb|40px||0px|false|false\u00bb custom_padding_tablet=\u00bb0px|0px|0px|0px|false|false\u00bb custom_padding_phone=\u00bb|0px||0px|false|false\u00bb custom_padding_last_edited=\u00bbon|phone\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

Se pone \u00e9nfasis tambi\u00e9n en la mejora de las infraestructuras espaciales existentes, EGNOS y Galileo (EGNSS)<\/strong>, y en sus evoluciones futuras y servicios asociados, as\u00ed como en el desarrollo de nuevos conceptos en LEO-PNT<\/strong>, complementarios al GNSS, basados en transmisi\u00f3n de se\u00f1ales de navegaci\u00f3n desde \u00f3rbitas bajas. Tambi\u00e9n cabe destacar el posicionamien<\/span>to basado en p\u00falsares para permitir en el futuro la navegaci\u00f3n interplanetaria.<\/span><\/p>\n

Ejemplos relevantes incluyen, entre otros, el dise\u00f1o, el desarrollo y la prueba de algoritmos para futuros nuevos se\u00f1ales EGNSS y LEO-PNT, nuevos receptores GNSS de bajo consumo para aplicaciones de Internet de las Cosas, mitigaci\u00f3n de interferencias y autenticaci\u00f3n de mensajes de navegaci\u00f3n, aspectos relevantes en ciberseguridad<\/strong> y pruebas de concepto del Galileo Commercial Authentication Service (CAS)<\/strong>.<\/span><\/p>\n

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Seguretat espacial (4)<\/h2>\n

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Seguretat espacial (4)<\/h2>\n

\u00bb content_last_edited=\u00bboff|desktop\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb header_2_font=\u00bb|700|||||||\u00bb header_2_text_align=\u00bbright\u00bb header_2_font_size=\u00bb28px\u00bb custom_margin=\u00bb||15px||false|false\u00bb custom_padding=\u00bb||0px||false|false\u00bb header_2_text_align_tablet=\u00bbleft\u00bb header_2_text_align_phone=\u00bbleft\u00bb header_2_text_align_last_edited=\u00bbon|tablet\u00bb header_2_font_size_tablet=\u00bb24px\u00bb header_2_font_size_phone=\u00bb24px\u00bb header_2_font_size_last_edited=\u00bbon|phone\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb content__hover_enabled=\u00bboff|desktop\u00bb]<\/p>\n

Seguridad espacial <\/h2>\n

[\/et_pb_text][et_pb_text _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb text_font=\u00bbSource Sans Pro||on||||||\u00bb text_font_size=\u00bb26px\u00bb text_line_height=\u00bb1em\u00bb header_2_line_height=\u00bb1.1em\u00bb text_orientation=\u00bbright\u00bb custom_padding=\u00bb||20px||false|false\u00bb text_font_size_tablet=\u00bb22px\u00bb text_font_size_phone=\u00bb22px\u00bb text_font_size_last_edited=\u00bbon|desktop\u00bb text_orientation_tablet=\u00bbleft\u00bb text_orientation_phone=\u00bbleft\u00bb text_orientation_last_edited=\u00bbon|tablet\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb]Actualmente, se ha convertido en una prioridad la protecci\u00f3n de los activos espaciales contra amenazas como los fen\u00f3menos meteorol\u00f3gicos, la basura espacial y los objetos de proximidad terrestre. [\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_2,1_2″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb min_height=\u00bb323.3px\u00bb custom_margin=\u00bb0px||0px||false|false\u00bb custom_padding=\u00bb0px||0px||false|false\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_image src=\u00bbhttps:\/\/ieec-wp.ixole.es\/wp-content\/uploads\/2022\/11\/seguretat_espacial.webp\u00bb alt=\u00bbseguretat_espacial\u00bb title_text=\u00bbseguretat_espacial\u00bb align=\u00bbright\u00bb align_tablet=\u00bbcenter\u00bb align_phone=\u00bbcenter\u00bb align_last_edited=\u00bbon|tablet\u00bb disabled_on=\u00bboff|off|on\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb width=\u00bb90%\u00bb border_width_top=\u00bb15px\u00bb border_color_top=\u00bb#406fda\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb][\/et_pb_image][et_pb_text content_last_edited=\u00bboff|desktop\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#1e2751″ custom_margin=\u00bb0px||0px||false|false\u00bb custom_padding=\u00bb|40px|34px|0px|false|false\u00bb custom_padding_tablet=\u00bb0px|0px|0px|0px|false|false\u00bb custom_padding_phone=\u00bb|0px||0px|false|false\u00bb custom_padding_last_edited=\u00bboff|desktop\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

Para estos efectos, se impulsan programas de vigilancia y seguimiento espacial (SST)<\/strong> y meteorolog\u00eda espacial (SWE)<\/strong> del programa de seguridad espacial (S2P)<\/strong> para la supervisi\u00f3n y el an\u00e1lisis de los factores relacionados, como son la actividad del Sol, la magnetosfera, la ionosfera y los cambios en las trayectorias de los objetos espaciales.<\/p>\n

El Observatorio del Montsec (OdM) contribuye activamente desde hace a\u00f1os en el programa SST de la Uni\u00f3n Europea (EUSST)<\/strong> en el seguimiento de sat\u00e9lites. Tambi\u00e9n existe una participaci\u00f3n significativa en el programa S2P<\/strong> a trav\u00e9s de los proyectos SWESNET<\/strong> y SWEMED<\/strong>.<\/p>\n

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Telecomunicacions (5)<\/h2>\n

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Telecomunicacions (5)<\/h2>\n

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Telecomunicaciones<\/h2>\n

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M\u00e1s all\u00e1 de promover las telecomunicaciones como una de las tres tem\u00e1ticas de la Estrategia NewSpace de Catalunya<\/strong>, el IEEC participa en proyectos vinculados al desarrollo de un telepuerto de comunicaciones satelitales en el Observatori del Montsec (OdM)<\/strong>, en el dise\u00f1o de se\u00f1ales y modulaciones por EGNSS<\/strong>, as\u00ed como en proyectos vinculados a aplicaciones que requieran de comunicaciones 5G y el uso del Internet de las Cosas (IdC).<\/strong><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_2,1_2″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb min_height=\u00bb278.3px\u00bb custom_margin=\u00bb0px||0px||false|false\u00bb custom_padding=\u00bb0px||0px||false|false\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_image src=\u00bbhttps:\/\/ieec-wp.ixole.es\/wp-content\/uploads\/2022\/11\/telecomunicacions.webp\u00bb alt=\u00bbtelecomunicacions\u00bb title_text=\u00bbtelecomunicacions\u00bb align_tablet=\u00bbcenter\u00bb align_phone=\u00bbcenter\u00bb align_last_edited=\u00bbon|tablet\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb width=\u00bb90%\u00bb border_width_top=\u00bb15px\u00bb border_color_top=\u00bb#406fda\u00bb global_colors_info=\u00bb{}\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb custom_margin=\u00bb0px||||false|false\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

Ejemplos de lo anterior incluyen la utilizaci\u00f3n de la estaci\u00f3n de comunicaciones satelitales del NanoSatLab de la UPC<\/strong>, con antenas en las bandas VHF\/UHF y S<\/strong>, para la comunicaci\u00f3n con el sat\u00e9lite Enxaneta,<\/strong> y los tr\u00e1mites regulatorios de radiofrecuencia correspondientes. <\/span><\/p>\n

En particular, el IEEC<\/strong> es responsable de la explotaci\u00f3n de esta estaci\u00f3n y se ha inscrito en el registro de operadores de redes y de servicios de comunicaciones electr\u00f3nicas de la CNMC.<\/strong> Tambi\u00e9n destacan proyectos en compresi\u00f3n de datos para fomentar el uso eficiente de los radioenlaces satelitales y un proyecto de innovaci\u00f3n vinculado a la Formaci\u00f3n Profesional<\/strong> que promueve el despliegue de laboratorios de comunicaciones 5G, satelitales y el IdC para aplicaciones en seguridad laboral.<\/span><\/span><\/p>\n

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Tecnologies d\u2019exploraci\u00f3 planet\u00e0ria (6)<\/h2>\n

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Tecnologies d\u2019exploraci\u00f3 planet\u00e0ria (6)<\/h2>\n

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Tecnolog\u00edas de exploraci\u00f3n planetaria<\/h2>\n

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El IEEC<\/strong> es un centro puntero en la construcci\u00f3n de instrumentaci\u00f3n y sens\u00f3rica para la exploraci\u00f3n espacial.<\/p>\n

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En particular, para misiones en la Luna y en Marte y para el estudio cient\u00edfico de exoplanetas. Tambi\u00e9n participa en distintas redes europeas que definen la hoja de ruta en \u00e1reas de investigaci\u00f3n te\u00f3rica y experimental.<\/p>\n

Fruto del proyecto MELISA<\/strong>, impulsado desde el IEEC<\/strong>, se ha dise\u00f1ado y desarrollado un magnet\u00f3metro miniaturizado, de muy bajo ruido, en el rango ultrabajo de frecuencias, que implementa la modulaci\u00f3n del campo magn\u00e9tico mediante resonadores microelectromec\u00e1nicos (MEMS).<\/strong> Otro caso de colaboraci\u00f3n europea es el proyecto MiniPINS<\/strong>, cuyo objetivo es desarrollar y prototipar paquetes de sensores de superficie miniaturizados para Marte y la Luna.<\/p>\n

 <\/p>\n

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Segment terrestre (7)<\/h2>\n

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Segment terrestre (7)<\/h2>\n

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Segmento terrestre<\/h2>\n

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En el marco del estudio del cosmos y la Tierra, el IEEC<\/strong> es un agente activo en la construcci\u00f3n de instrumentaci\u00f3n astron\u00f3mica y terrestre<\/p>\n

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Asume responsabilidades de alto nivel en la implementaci\u00f3n,<\/strong> gesti\u00f3n operativa y en el procesado de datos a nivel del segmento terrestre.<\/p>\n

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Todo esto se refleja con el fomento de un telepuerto de comunicaciones en el Montsec,<\/strong> del que destaca la estaci\u00f3n terrestre en banda S del Observatorio del Montsec,<\/strong> el desarrollo y la adaptaci\u00f3n del software STARS<\/strong> para el telescopio COLIBRI en M\u00e9xico,<\/strong> y la colaboraci\u00f3n en investigaci\u00f3n y desarrollo para el observatorio Cherenkov Telescope Array (CTAO) en el desierto de Atacama, situado en el noreste de Chile.<\/strong><\/p>\n

[\/et_pb_text][et_pb_button button_url=\u00bb#segment-terrestre\u00bb button_text=\u00bbVER PROYECTOS\u00bb button_alignment=\u00bbleft\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb custom_margin=\u00bb||40px||false|false\u00bb custom_margin_tablet=\u00bb||||false|false\u00bb custom_margin_phone=\u00bb||||false|false\u00bb custom_margin_last_edited=\u00bbon|phone\u00bb custom_padding=\u00bb12px|40px|12px|30px|true|false\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb][\/et_pb_button][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ admin_label=\u00bbPopup – #cient-tecnol\u00bb module_id=\u00bbcient-tecnol\u00bb module_class=\u00bbpopup\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb width=\u00bb80%\u00bb width_tablet=\u00bb90%\u00bb width_phone=\u00bb100%\u00bb width_last_edited=\u00bbon|phone\u00bb custom_padding=\u00bb36px|||||\u00bb da_is_popup=\u00bbon\u00bb da_popup_slug=\u00bbcient-tecnol\u00bb da_disable_devices=\u00bboff|off|off\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb da_exit_intent=\u00bboff\u00bb da_has_close=\u00bbon\u00bb da_alt_close=\u00bboff\u00bb da_dark_close=\u00bboff\u00bb da_not_modal=\u00bbon\u00bb da_is_singular=\u00bboff\u00bb da_with_loader=\u00bboff\u00bb da_has_shadow=\u00bbon\u00bb][et_pb_row _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb9px||19px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb link_font=\u00bb|700|||on|||#1a1140|\u00bb link_text_color=\u00bb#1a1140″ header_2_font=\u00bb|700|||||||\u00bb header_2_text_color=\u00bb#1a1140″ header_2_font_size=\u00bb25px\u00bb min_height=\u00bb88.1px\u00bb custom_margin=\u00bb0px||-26px||false|false\u00bb custom_padding=\u00bb0px||0px||false|false\u00bb header_2_font_size_tablet=\u00bb25px\u00bb header_2_font_size_phone=\u00bb23px\u00bb header_2_font_size_last_edited=\u00bbon|phone\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

KTT Contract:<\/span><\/strong><\/h2>\n

Optical Fiber Micro-Kelvin Temperature Sensor Network for Sensitive Optical Payloads (LIRA)<\/strong><\/p>\n

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The main objective of the current ITT is the design of an optical fiber temperature subsystem prototype (TRL4) for the future gravitational wave observatory LISA<\/strong>. The design of the current proposal builds upon the experience of the IEEC-led team in the design of the LISA Pathfinder<\/strong> temperature diagnostic subsystem, the analysis of the results obtained during the LISA Pathfinder<\/strong> operations phase with the aforementioned subsystem and, finally, the expertise acquired with the LETS (LISA Enhanced Temperature Subsystem) contract (4000127051\/19\/NL\/BW). The study is coordinated by the IEEC and carried out together with INESC TEC,<\/strong> with responsibility for the design and implementation of the optical fiber sensor head, requiring a dedicated design.<\/p>\n

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Coordinator:<\/strong> Miquel Nofrarias (IEEC-CSIC)<\/em>
Funding Institution:<\/strong> European Space Agency (ESA; Contract No. 4000135481\/21\/NL\/AR)<\/em>
Partners:<\/strong> IEEC, INESC TEC (Portugal)<\/em>
Duration:<\/strong> 09\/2021-03\/2023<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

Enhancement of temperature measurement for LISA (LETS)<\/strong><\/p>\n

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ESA<\/strong> contract to develop a Technology Development Activity to achieve a system for an \u2018Enhanced temperature measurement for LISA\u2019<\/strong> and with the goal to design a prototype temperature subsystem (TRL4) for the LISA space mission<\/strong> increasing one order of magnitude the performance (1 uK\/\u221aHz) down to 1mHz. The leadership for the specific tasks is allocated to the three different partners: design of front-end electronics (IEEC), design of ultra-stable test bench (DLR), integration, verification and testing (IEEC), roadmap to TRL6 (SENER).<\/strong><\/p>\n

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Coordinator:<\/strong> Miquel Nofrarias<\/em>
Funding Institution:<\/strong> European Space Agency (ESA; Contract No. 4000127051\/19\/NL\/BW)<\/em>
Partners:<\/strong> DLR, SENER<\/em>
Duration:<\/strong> 01\/09\/2019 – 30\/07\/2022<\/em><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ admin_label=\u00bbPopup – #observacio\u00bb module_id=\u00bbobservacio\u00bb module_class=\u00bbpopup\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb width=\u00bb80%\u00bb width_tablet=\u00bb90%\u00bb width_phone=\u00bb100%\u00bb width_last_edited=\u00bbon|phone\u00bb custom_padding=\u00bb36px|||||\u00bb da_is_popup=\u00bbon\u00bb da_popup_slug=\u00bbobservacio\u00bb da_disable_devices=\u00bboff|off|off\u00bb locked=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb da_exit_intent=\u00bboff\u00bb da_has_close=\u00bbon\u00bb da_alt_close=\u00bboff\u00bb da_dark_close=\u00bboff\u00bb da_not_modal=\u00bbon\u00bb da_is_singular=\u00bboff\u00bb da_with_loader=\u00bboff\u00bb da_has_shadow=\u00bbon\u00bb][et_pb_row _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb9px||19px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb link_font=\u00bb|700|||on|||#1a1140|\u00bb link_text_color=\u00bb#1a1140″ header_2_font=\u00bb|700|||||||\u00bb header_2_text_color=\u00bb#1a1140″ header_2_font_size=\u00bb25px\u00bb min_height=\u00bb88.1px\u00bb custom_margin=\u00bb0px||-26px||false|false\u00bb custom_padding=\u00bb0px||0px||false|false\u00bb header_2_font_size_tablet=\u00bb25px\u00bb header_2_font_size_phone=\u00bb23px\u00bb header_2_font_size_last_edited=\u00bbon|phone\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

KTT Contract:<\/span><\/strong><\/h2>\n

2nd Scout Mission HydroGNSS<\/strong><\/p>\n

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The IEEC<\/strong>, as partner in the HydroGNSS mission proposal to the ESA\u2019s Scout Programme<\/strong>, is subcontracted to Surrey Satellite Technologies Ltd (SSTL, UK)<\/strong> to contribute to the implementation of the mission, planned for launch in 2024. The IEEC<\/strong> supports SSTL<\/strong> in developing parts of the End-to-end simulator (E2ES)<\/strong>, a package of software to process ultra-low level data (intermediate frequency samples of unprocessed signals) once downloaded into ground, and the official ground based algorithms to generate level-2 products related to inundation of the surface (flooding, wetlands).<\/p>\n

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Coordinator:<\/strong> Estel Cardellach (IEEC-CSIC)<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> SSTL UK, La Sapienza University (Italy), Finnish Meteorological Institute<\/em>
(FMI, Finland); National Oceanographic Centre (NOC, UK), Tor Vergata University<\/em>
(Italy), IFAC-CNR (Italy), University of Nottingham (UK)<\/em>
Duration<\/strong>: 2021-2026<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

Sentinel-3 CD \u2013 Topography and GNSS Reflectometry for data processing over sea ice<\/strong><\/p>\n

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The objective of this activity is to advance: a) in the theory and processing of ideal grazing GNSS<\/strong> reflectometry (specular surface and no atmosphere), b) in the modelling of surface reflection over lakes, open ocean and sea ice, c) in the modelling of ionospheric and tropospheric effects and their correction, and d) in the acquisition of further co-located data sets with Sentinel- 3<\/strong> over instrumented lakes using all acquired raw data sets (those in Table 1 plus the 3 new acquisitions) and supporting ancillary data from other sources (such as Sentinel-3 altimetry and surface roughness, meteorological ground-based stations, weather balloons, TEC maps from IGS,<\/strong> information on physical conditions from ECMWF<\/strong>, SMOS-Cryosat<\/strong> derived sea ice thickness, SAR satellite<\/strong> images, etc.). The activity will cover all objectives, but with a focus on inland water bodies and sea-ice altimetry. Advancing and consolidating this alternative technique could provide means to validate Sentinel-3<\/strong> acquisition over lakes (and other surfaces) where in situ measurements are not available.<\/p>\n

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Coordinator:<\/strong> Weiqiang Li (IEEC-CSIC)<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Duration:<\/strong> 12\/2021-12\/2022<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

MAXSS \u2013 Marine Atmosphere eXtreme Satellite Synergy<\/strong><\/p>\n

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The primary objective of the ESA Marine Atmosphere eXtreme Satellite Synergy (MAXSS)<\/strong> project is to provide guidance and innovative methodologies to maximise the synergetic use of available Earth Observation data (satellite, in situ) to improve understanding about the multi-scale dynamic characteristics of extreme air-sea interaction. In MAXSS<\/strong>, three developments are conducted: (1) The development of a Multi-Mission Wind Product, (2) The development of an extreme Winds (severe storm, cyclone) atlas, and (3) The development of added-value products to analyse storms.<\/p>\n

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Coordinator:<\/strong> Estel Cardellach (IEEC-CSIC)<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> SSTL UK, La Sapienza University (Italy), Finnish Meteorological Institute<\/em>
(FMI, Finland); National Oceanographic Centre (NOC, UK), Tor Vergata University<\/em>
(Italy), IFAC-CNR (Italy), University of Nottingham (UK)<\/em>
Duration:<\/strong> 01\/2021-01\/2023<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

PITHIA-NRF – Plasmasphere Ionosphere Thermosphere Integrated Research Environment and Access services: a Network of Research Facilities<\/strong><\/p>\n

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PITHIA-NRF (Plasmasphere Ionosphere Thermosphere Integrated Research Environment and Access services: a Network of Research Facilities)<\/strong> pret\u00e9n construir una PITHIA-NRF aims to build a European distributed network that integrates observing facilities<\/strong>, data processing tools and prediction models dedicated to ionosphere, thermosphere and plasmasphere research. For the first time, PITHIA-NRF<\/strong> integrates on a European scale, and opens up to all European researchers, key national and regional research infrastructures, such as EISCAT, LOFAR<\/strong>, ionosondes and digisondes, GNSS receivers, Doppler sounding systems, riometers, and VLF<\/strong> receivers, ensuring optimal use and joint development. PITHIA-NRF<\/strong> is designed to provide organised access to experimental facilities, FAIR data, standardised data products, training and innovation services. Furthermore, PITHIA-NRF<\/strong> facilitates research advances in the field of upper atmosphere and near-Earth space, through the integration of data collections from satellite missions (such as Cluster, DEMETER, Swarm and CHAMP)<\/strong> and results from key prediction models, which can be accessed by scientific users for joint exploitation with the data collected from the research infrastructures of the network. IEEC-UPC<\/strong> group operates the node of thermosphere-ionosphere coupling models based on ground and space-based GNSS<\/strong> data providing hands-on access to research users. In addition to this, the group strongly contributes to the registration of data and models in PITHIA-NRF<\/strong> e-science centre, and participates in training, dissemination and innovation activities.<\/p>\n

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Coordinator:<\/strong> Manuel Hern\u00e1ndez-Pajares (IEEC-UPC)<\/em>
Funding Institution:<\/strong> European Commission (EC; H2020 Grant Agreement no. 101007599;<\/em>
H2020-INFRAIA-2018-2020)<\/em>
Duration:<\/strong> 04\/2021-03\/2025<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

BEEPS-IOM, Biomass end-to-end performance simulator \u2013 Ionospheric Module<\/strong><\/p>\n

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ESA\u2019s BIOMASS Earth Explorer mission<\/strong> aims at providing global aboveground forest biomass. Its payload is a UHF<\/strong> synthetic aperture radar. At UHF<\/strong> ionospheric effects, notably the group delay and phase advance, the Faraday rotation, and the intensity and phase scintillations (or rapid fluctuations) are significant and have to be properly modelled to be compensated, to understand the limitations of the proposed technique, and to select the optimum observation conditions. In this project the ionospheric module of the BIOMASS end-to-end performance simulator (BEEPS-IOM)<\/strong> is implemented. IEEC is in charge for the algorithm development and prototyping in Matlab, and RDA (CH)<\/strong> to convert them into C++, complying with all ESA<\/strong> quality standards.<\/p>\n

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Coordinator:<\/strong> Adriano Camps<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> RDA (CH)<\/em>
Duration:<\/strong> 30\/1\/2020-30\/12\/2022<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

SIMIONO, Ionosphere Impact and Corrections for Low Frequency Radars<\/strong><\/p>\n

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The objective of this project is to consolidate the understanding, assessment and correction of ionospheric effects on space-borne low-frequency radar observations, including several modes of P & L-bands SAR (monostatic, bistatic, polarimetric, interferometric)<\/strong>, as well as VHF\/UHF radar sounders, and GNSS<\/strong>-Reflectometers for scatterometry and altimetry. A correct and fine representation of the ionosphere layers (models, data), considering both the mean values and the inhomogeneities causing spatial and temporal fluctuations of the electron density at different scales are considered, and an API<\/strong> is implementing these models for use in future ESA<\/strong> end-to-end performance simulators. The project is coordinated by ONERA (FR)<\/strong>, who is in charge of the algorithm prototyping of SAR sensors. IEEC<\/strong> is in charge of the algorithm prototyping of low-frequency radar sounders and GNSS-R instruments, and RDA (CH)<\/strong> is in charge of converting these algorithms into C++, complying with all ESA<\/strong> quality standards.<\/p>\n

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Coordinator:<\/strong> Adriano Camps<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> ONERA (Fr), RDA (CH)<\/em>
Duration:<\/strong> 30\/1\/2020-30\/12\/2022<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

OSIP Open Channel Early Technology Development Activities Evaluation Session 2020-05 \u2013 Widelane Grazing Angle Carrier Phase Altimetry with GNSS Reflected Signals: exploring beyond the PRETTY mission<\/strong><\/p>\n

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IEEC<\/strong> leads an experimental campaign, funded under the ESA\u2019s Open Space Innovation Platform (OSIP)<\/strong>, to understand the performance of GNSS<\/strong> sea surface altimetry using carrier phase delay observations at grazing angles of observation at two frequencies. This new technique can be applied when the scattering off the sea waves presents a strong coherent component, i.e., when the surface is effectively smooth with respect to the electromagnetic wavelength and geometry. The chances of coherent scattering increase at grazing angles of observation. The smart use of the dual frequency system is also investigated. The experiment uses IEEC<\/strong> developed hardware installed on top of Puig Major (Serra de Tramuntana, Mallorca) at over 1400 m altitude close to the sea. An oceanographic buoy located at the observational area provides in situ wind and waves information.<\/p>\n

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Coordinator:<\/strong> Estel Cardellach<\/em>
Funding Institution:<\/strong> European Space Agency (ESA; Contract No. 4000133252\/20\/NL\/GLC)<\/em>
Partners:<\/strong> IEEC, IMEDEA-CSIC, SOCIB, DLR<\/em>
Duration:<\/strong> 26\/11\/2020-31\/1\/2022<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

Analysis of Water Relations in the Soil-Plant Continuum Using Microwave-Lidar Synergy<\/strong><\/p>\n

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The project exploits L-band passive and active microwave missions, as well as Lidar vegetation height measurements, in order to disentangle the water component from the signal of the passive microwave attenuation variable, the vegetation optical depth (VOD)<\/strong>. The VOD<\/strong> contains information on biomass, vegetation structure, and vegetation water content. In this project, VOD-derived vegetation moisture maps are produced and are applied as a keystone variable to model the water flux in the soil-plant-atmosphere continuum (SPAC)<\/strong>. This new, multi-sensor approach provides more detailed models of the SPAC<\/strong>, which is an essential component in the water and carbon cycles. Therefore, the project provides future models on carbon uptake and climate scenarios, is used to monitor vegetation hydric stress, and provides a more accurate understanding of a key ecophysiological process.<\/p>\n

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Coordinator:<\/strong> David Chaparro<\/em>
Funding Institution:<\/strong> Fundaci\u00f3 \u201cla Caixa\u201d<\/em>
Partners:<\/strong> MIT (USA), DLR (Germany), Universitat de Val\u00e8ncia, Universit\u00e9 Catholique de Louvain (Belgium)<\/em>
Duration:<\/strong> 1\/1\/2020 \u2013 31\/8\/2022<\/em><\/p>\n

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KTT\u00a0<\/span>Contract: <\/span><\/strong><\/h2>\n

Forecasting Space Weather Impacts on navigation systems in the Arctic – Greenland Area (FORSWAR)<\/strong>\u00a0<\/strong><\/p>\n

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Prototype of a new advanced space weather forecast model for Positioning, Navigation and Timing (PNT)<\/strong> satellite-based users in the Greenland area. New techniques for space weather forecasting (in particular ionospheric scintillation forecasting) are being developed and their advantage over existing models will be analysed. The new model aims to provide a readable map over Greenland that indicates weak, moderate and severe disturbances to PNT<\/strong> applications for general users.<\/p>\n

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Coordinator:<\/strong> Manuel Hern\u00e1ndez-Pajares<\/em>
Funding Institution:<\/strong> European Space Agency (ESA-ESTEC; contract no. 4000131555\/20\/NL\/AS)<\/em>
Partners:<\/strong> University of Oslo, DLR<\/em>
Duration:<\/strong> 10\/09\/2020-10\/12\/2021<\/em><\/p>\n

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KTT Contract:<\/span><\/strong><\/h2>\n

LEO-PNT-USER – Proof of Concept of user segments technologies for complementary LEO system<\/strong><\/p>\n

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The objective of this project is to develop enabling technologies at user equipment level related to hardware, algorithms (baseband and positioning engines), and access to the candidate frequency bands, as a contribution to the technical understanding of the LEO PNT landscape<\/strong>. The project will produce a testing environment, combining simulation, laboratory and field trials, to demonstrate and assess the performance of LEO-based<\/strong> positioning in different frequency bands (from VHF to S-band), different use cases (outdoor and indoor, low-energy consumption, static or dynamic user, etc.) and different positioning techniques (hybridisation with other measurement, code or carrier-phase based positioning, etc.). SPCOMNAV<\/strong> is in charge of the design, development and testing of the baseband algorithms for the acquisition and tracking of the new LEO-PNT signals.<\/strong><\/p>\n

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Coordinator:<\/strong> Gonzalo Seco-Granados (IEEC-UAB)<\/em>
Funding institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> Thales Alenia Space (France), Thales Alenia Space (Italy), IEEC (Spain),<\/em>
Orolia (France), Saphirion (Switzerland)<\/em>
Duration:<\/strong> 02\/2021\u201301\/2023<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

EGNOS-NEXT \u2013 EGNOS Evolutions Systems Engineering (Phase 0\/A1)<\/strong><\/p>\n

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The aim of this activity is to prepare for future stages of EGNOS<\/strong> developments to support the consolidation of the future EGNOS Evolutions HLD (eHLD)<\/strong>. The study will assess the System feasibility (Phase 0\/A1) to preliminary mission requirements, assessing expected system performances, security constraints, dependability and safety goals. It also supports the definition of the EGNOS<\/strong> Evolutions roadmap presenting different implementation scenarios, where trade-off analyses are performed considering time-to-service, cost, architecture complexity and performances. SPCOMNAV<\/strong> is in charge of the SBAS E5b signal design.<\/strong><\/p>\n

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Coordinator:<\/strong> Gonzalo Seco-Granados (IEEC-UAB)<\/em>
Funding institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> GMV (Spain), GMV GmbH (Germany), UAB (Spain), Qascom (Italy)<\/em>
Duration:<\/strong> 09\/2021\u201308\/2023<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

GNSSW-HS \u2013 Earth-Moon Navigation \/ System Study and Development of a Highly-Sensitive Spaceborne Receiver Prototype<\/strong><\/p>\n

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In this project, we have developed a full implementation of the OSNMA protocol in open-source code. It is probably the first implementation publicly available. OSNMA<\/strong> is an integral function of the Galileo Open Service<\/strong>, providing data authentication to all enabled receivers. OSNMA<\/strong> is authenticating data for geolocation information from the Open Service through the Navigation Message (I\/NAV)<\/strong> broadcast on the E1B signal component. This is executed by transmitting authentication specific data in previously reserved fields of the E1 I\/NAV message<\/strong>. The transmission of OSNMA<\/strong> data was started in December 2021.<\/p>\n

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Coordinator:<\/strong> Gonzalo Seco-Granados (IEEC-UAB)<\/em>
Funding institution:<\/strong> European Union Agency for the Space Programme (EUSPA)<\/em>
Duration:<\/strong> 01\/2021\u201305\/2021<\/em><\/p>\n

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KTT\u00a0<\/span>Contract: <\/span><\/strong><\/h2>\n

PAULA – Test Platform on Galileo HAS\/CAS\/OSNMA<\/strong><\/p>\n

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The objective of this project is to study and test the benefits that can be obtained from the Galileo High Accuracy Service (HAS)<\/strong>, Commercial Authentication Service (CAS) and Open Service Navigation Message Authentication (OSNMA)<\/strong> service, in standalone mode or in combination with other technologies for improving the Position, Navigation and Timing (PNT)<\/strong> performance and robustness. SPCOMNAV\u2019s<\/strong> contribution to the project consists of the study, provision of implementation guidelines and test of the semi-assisted CAS<\/strong>, considering in particular how it can be used for initialisation of OSNMA<\/strong> synchronisation. Advanced anti-spoofing and signal integrity techniques are also investigated.<\/p>\n

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Coordinator:<\/strong> Gonzalo Seco-Granados (IEEC-UAB)<\/em>
Funding institution:<\/strong> European Commission (EC; No. DEFIS\/2020\/OP\/0002)<\/em>
Partners: GMV (Spain), Qascom (Italy), IEEC (Spain), Finnish Geospatial Research<\/em>
Institute (Finland), Universit\u00e9 catholique de Louvain (Belgium).<\/em>
Duration:<\/strong> 01\/2021\u201310\/2022<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

INNUENDO \u2013 Enhanced GNSS Signals in Space and User Receiver Processing<\/strong><\/p>\n

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The objective of this project is to investigate alternative approaches to the classic MEO-based GNSS<\/strong> positioning, navigation and timing. Emphasis is placed on the potential use of LEO<\/strong> satellites as well<\/strong> as on innovative techniques and signal designs to improve resilience and performance. SPCOMNAV-UAB<\/strong> contribution is focused on the analysis of chirp spread spectrum for positioning with LEO satellites<\/strong>, as a way to achieve faster acquisition with lower complexity while preserving a good trade-off in terms of multiple access interference and multipath rejection.<\/p>\n

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Coordinator:<\/strong> Gonzalo Seco-Granados<\/em>
Funding institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> LINKS Foundation (Italy, coord)<\/em>
Duration:<\/strong> 20\/02\/2020\u201330\/03\/2021<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

GIMAD \u2013 GNSS Interference Monitoring and Detection System<\/strong>[\/et_pb_text][et_pb_text _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

The objective of this project is to develop an interference detection station capable of permanently detecting potential interference sources that may hinder the safety and integrity of GNSS<\/strong> users. SPCOMNAV-UAB<\/strong> contributes to this activity by developing signal processing techniques for interference detection using measurements from a single antenna in the GNSS<\/strong> band, from an antenna array in the GNSS<\/strong> band and from a single antenna out of the GNSS band.<\/p>\n

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Coordinator:<\/strong> Gonzalo Seco-Granados<\/em>
Funding institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> Indra (Spain, coord)<\/em>
Duration:<\/strong> 08\/07\/2020\u201331\/12\/2021<\/em><\/p>\n

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Contracte KTT: <\/span><\/strong><\/h2>\n

OSNMA+ \u2013 Receptor GNSS millorat\/terminal d\u2019usuari<\/strong><\/p>\n

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The objective of this project is to design, develop, test and demonstrate a close-to-market enhanced GNSS receiver fully compatible with the latest Galileo Open Service Signal In Space Interface Control Document (SIS-ICD)<\/strong>, including I\/NAV<\/strong> improvements and the use of the Open Service Navigation Message Authentication (OSNMA).<\/strong><\/p>\n

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Coordinador:<\/strong> Jos\u00e9 A. L\u00f3pez-Salcedo<\/em>
Entitat finan\u00e7adora:<\/strong> Ag\u00e8ncia Europea de GNSS (GSA)<\/em>
Socis:<\/strong> Qascom (Italy, coord)<\/em>
Durada:<\/strong> 02\/11\/2020\u201301\/11\/2022<\/em><\/p>\n

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KTT\u00a0<\/span>Contract: <\/span><\/strong><\/h2>\n

RF-SESMS \u2013 GNSS Reference Station Environment Monitoring Unit<\/strong><\/p>\n

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The objective of this project is to develop an RF<\/strong> site environment survey and monitoring system in order to monitor, characterize and model the RF<\/strong> environment affecting GNSS<\/strong> ground sensor stations. SPCOMNV-UAB<\/strong> is providing support on multipath characterization and modeling in the GNSS<\/strong> band.<\/p>\n

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Coordinator:<\/strong> Gonzalo Seco-Granados<\/em>
Funding institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> Indra (Spain, coord)<\/em>
Duration:<\/strong> 01\/09\/2020\u201328\/02\/20221<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

ESGR \u2013 Edge Snapshot GNSS Receiver<\/strong><\/p>\n

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ESGR<\/strong> is a technology transfer project between SPCOMNAV-UAB and Loctio<\/strong>, a Location as a Service (LaaS)<\/strong> startup company targeting positioning for the Internet of Things (IoT)<\/strong>. The ultimate goal of the project is to reduce the energy per position fix incurred by conventional IoT<\/strong> devices, which mostly rely on embedded GNSS<\/strong> chipsets. Instead, the project aimed at exploiting the new paradigm of processing GNSS<\/strong> signals in the cloud\/edge, thus offloading most of the computational load out of the IoT<\/strong> device and enabling ultra-low power positioning.<\/p>\n

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Coordinator:<\/strong> Jos\u00e9 A. L\u00f3pez-Salcedo<\/em>
Funding institution:<\/strong> European Commission (EC; H2020-ICT-04-2017)<\/em>
Partners:<\/strong> Loctio<\/em>
Duration:<\/strong> 16\/08\/2020\u201314\/02\/2021<\/em><\/p>\n

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KTT Contract: <\/span><\/strong><\/h2>\n

PODIUM, Pulsar Orbit Determination for Interplanetary Unaided Missions – Pulsar Navigation for Science Missions<\/strong><\/p>\n

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The aim of the PODIUM<\/strong> activity is to perform a preliminary design and sizing of a hardware navigation unit that, once mounted on a spacecraft, will acquire and process measurements to enable autonomous on-board positioning in the Solar System. The unit design and performances are assessed for two reference scenarios, well known by the proposal team: EnVision<\/strong> and L2 observatory.<\/strong> The PODIUM Pulsar Navigation System relies on pulsars for these measurements. The IEEC team at ICE-CSIC<\/strong> contributes with the pulsar signal timing algorithm software that is used for selected sizing cases based on the analytic approach to refine the error budget assessment. And it also contributes with the expertise in the design and test of X-ray optics that is very relevant for the concept study of the PODIUM<\/strong> sensor.<\/p>\n

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Coordinator:<\/strong> Nanda Rea & Margarida Hernanz<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> Sener Aeroespacial, Elecnor Deimos<\/em>
Duration:<\/strong> 29\/12\/2020 \u2013 31\/3\/2022<\/em><\/p>\n

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KTT\u00a0<\/span>Contract:<\/span><\/strong><\/h2>\n

SWESNET – Space Weather Service Network<\/strong><\/p>\n

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The Space Weather Service Network in the ESA Space Safety programme<\/strong> consists of five expert service centres that provide crucial information on the space weather situation. The network provides services in the following domains: Solar Weather, Heliospheric Weather, Space Radiation, Ionospheric Weather and Geomagnetic Conditions. The IEEC-UPC group<\/strong> participates as part of the Ionospheric Weather expert service centre, contributing with real-time services for the GNSS-based solar flares\u2019 detection and monitorisation based on the world-wide distributed network of permanent GNSS<\/strong> receivers. Alerts are also triggered in case of solar flares impacting the Earth\u2019s ionosphere.<\/p>\n

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Coordinator:<\/strong> Manuel Hern\u00e1ndez-Pajares (IEEC-UPC)<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> BIRA-IASB (Belgium); 42 Europe-wide partners.<\/em>
Duration:<\/strong> 02\/2021-02\/2023<\/em><\/p>\n

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KTT\u00a0<\/span>Contract: <\/span><\/strong><\/h2>\n

Space Weather User Needs for the Mediterranean Region (SWEMED)<\/strong><\/p>\n

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The project aims to identify how the SSA SWE<\/strong> segment customer requirements baseline needs to be enhanced and tailored to best meet the needs of end users operating in the Mediterranean region. To achieve this, a user consultation exercise has been performed including workshops in five countries of the Mediterranean region: France, Greece, Italy, Portugal, and Spain. The targeted sectors include communication and navigation, offshore resource exploration\/exploitation, power system operation, pipeline operation, railway operation, aviation, shipping, logistics, space surveillance and insurance.<\/span><\/p>\n

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Coordinator:<\/strong> Manuel Hern\u00e1ndez-Pajares<\/em>
Funding institution:<\/strong> European Space Agency (ESA-ESOC, SSA P3-SWE-XXIII.1)<\/em>
Partners:<\/strong> Universidad de Alcal\u00e1, GMV, Deimos, NKUA<\/em>
Duration:<\/strong> 06\/2019-05\/2021<\/em><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ admin_label=\u00bbPopup – #telecomunicacions\u00bb module_id=\u00bbtelecomunicacions\u00bb module_class=\u00bbpopup\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb width=\u00bb80%\u00bb width_tablet=\u00bb90%\u00bb width_phone=\u00bb100%\u00bb width_last_edited=\u00bbon|phone\u00bb custom_padding=\u00bb36px|||||\u00bb da_is_popup=\u00bbon\u00bb da_popup_slug=\u00bbtelecomunicacions\u00bb da_disable_devices=\u00bboff|off|off\u00bb locked=\u00bboff\u00bb collapsed=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb da_exit_intent=\u00bboff\u00bb da_has_close=\u00bbon\u00bb da_alt_close=\u00bboff\u00bb da_dark_close=\u00bboff\u00bb da_not_modal=\u00bbon\u00bb da_is_singular=\u00bboff\u00bb da_with_loader=\u00bboff\u00bb da_has_shadow=\u00bbon\u00bb][et_pb_row _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb9px||19px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb link_font=\u00bb|700|||on|||#1a1140|\u00bb link_text_color=\u00bb#1a1140″ header_2_font=\u00bb|700|||||||\u00bb header_2_text_color=\u00bb#1a1140″ header_2_font_size=\u00bb25px\u00bb min_height=\u00bb88.1px\u00bb custom_margin=\u00bb0px||-26px||false|false\u00bb custom_padding=\u00bb0px||0px||false|false\u00bb header_2_font_size_tablet=\u00bb25px\u00bb header_2_font_size_phone=\u00bb23px\u00bb header_2_font_size_last_edited=\u00bbon|phone\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

KTT\u00a0<\/span>Contract:<\/span><\/strong><\/h2>\n

WhiteDwarf<\/strong><\/p>\n

 <\/p>\n

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This project dealt with the maintenance of the ESA\u2019s Whitedwarf<\/strong> suite of CCSDS<\/strong> data compressors and decompressors, with the objective of ensuring high quality implementations of compression standards CCSDS 121.0-B-3, CCSDS 122.0-B-2, and CCSDS 123.0-B-2<\/strong>. The ESA\u2019s<\/strong> existing implementations required extensive modifications to either correct known defects, or to be upgraded to the latest versions of the standards. Hence the project included extensive rewrites of the aforementioned software suite, including a full implementation of a CCSDS 122.0-B-2<\/strong> decoder created from scratch, as well as a significant testing and validation campaign so that they could be used as reference models in other projects.<\/p>\n

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Coordinator:<\/strong> Joan Serra-Sagrist\u00e0, Ian Blanes (IEEC-UAB)<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Duration:<\/strong> 01\/2021-12\/2021<\/em><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ admin_label=\u00bbPopup – #exploracio-planetaria\u00bb module_id=\u00bbexploracio-planetaria\u00bb module_class=\u00bbpopup\u00bb _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb width=\u00bb80%\u00bb width_tablet=\u00bb90%\u00bb width_phone=\u00bb100%\u00bb width_last_edited=\u00bbon|phone\u00bb custom_padding=\u00bb36px|||||\u00bb da_is_popup=\u00bbon\u00bb da_popup_slug=\u00bbexploracio-planetaria\u00bb da_disable_devices=\u00bboff|off|off\u00bb locked=\u00bboff\u00bb collapsed=\u00bboff\u00bb global_colors_info=\u00bb{}\u00bb da_exit_intent=\u00bboff\u00bb da_has_close=\u00bbon\u00bb da_alt_close=\u00bboff\u00bb da_dark_close=\u00bboff\u00bb da_not_modal=\u00bbon\u00bb da_is_singular=\u00bboff\u00bb da_with_loader=\u00bboff\u00bb da_has_shadow=\u00bbon\u00bb][et_pb_row _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb9px||19px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.14.8″ _module_preset=\u00bbdefault\u00bb link_font=\u00bb|700|||on|||#1a1140|\u00bb link_text_color=\u00bb#1a1140″ header_2_font=\u00bb|700|||||||\u00bb header_2_text_color=\u00bb#1a1140″ header_2_font_size=\u00bb25px\u00bb min_height=\u00bb88.1px\u00bb custom_margin=\u00bb0px||-26px||false|false\u00bb custom_padding=\u00bb0px||0px||false|false\u00bb header_2_font_size_tablet=\u00bb25px\u00bb header_2_font_size_phone=\u00bb23px\u00bb header_2_font_size_last_edited=\u00bbon|phone\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

IEEC Contract:<\/span><\/strong><\/h2>\n

MELISA – MEMS miniaturized low-noise magnetic field sensor for LISA<\/strong><\/p>\n

 <\/p>\n

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The objective of MELISA (MEMS miniaturized low-noise magnetic field sensor for LISA)<\/strong> is the design and fabrication of a prototype (TRL4) magnetic field sensor implementing magnetic field modulation by means of micromechanical resonators. The prototype will show the feasibility of applying this noise-reduction technique to fulfil the stringent requirements of the LISA<\/strong> mission. The proposal plans to explore the exploitation of the resulting high performance sensor for its application in surface planetary exploration missions and Cubesats in LEO<\/strong> or other planetary bodies\u2019 orbits.<\/p>\n

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Coordinator:<\/strong> Manuel Dom\u00ednguez Pumar (IEEC-UPC)<\/em>
Funding Institution:<\/strong> CERCA & IEEC<\/em>
IEEC units:<\/strong> IEEC-UPC, IEEC-CSIC, IEEC-UB<\/em>
Duration:<\/strong> 04\/2021-05\/2022<\/em><\/p>\n

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KTT\u00a0<\/span>Contract:<\/span><\/strong><\/h2>\n

MiniPINS \u2013 Miniature Planetary In-situ Sensors (CCN extension)<\/strong><\/p>\n

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MiniPINS<\/strong> is an ESA<\/strong> study to develop and prototype miniaturised surface sensor packages (SSPs)<\/strong> for Mars and the Moon. The study aims at miniaturising the scientific sensors and subsystems, as well as identifying and utilising commonalities of the packages, making it possible to optimise the design, cut costs and reduce the development time. The group has participated in the analysis and selection process of the different sensor systems in view of the multiple science requirements and mission constraints. The group has also participated in the prototyping of some of the sensor systems that have been selected for demonstration in the contract. Specific effort is devoted to the miniaturisation of the different electronic and sensor systems. SSPs<\/strong> are capable of working on the surface of Mars or the Moon<\/strong> and they can produce high quality science data with state of art instrumentation. In particular, Mars SSP MINS<\/strong> is a penetrator with approx. 25 kg mass, piggy- backed by another Mars mission spacecraft to the Martian orbit and deployed from there. The science programme is focused on the study of Mars\u2019 atmosphere, seismology, magnetic field and chemistry. The Moon SSP<\/strong> will be a miniature 5 kg station deployed on the Moon\u2019s surface by a rover. Both Mars and Moon SSPs<\/strong> will be miniaturised, light and robust, and still capable of surviving high G loads and extreme thermal environments. The output of this contract will enable the ESA<\/strong> to prepare the technological programmes required for these ambitious planetary missions.<\/p>\n

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Coordinator:<\/strong> Manuel Dom\u00ednguez Pumar (IEEC-UPC)<\/em>
Funding Institution:<\/strong> European Space Agency (ESA)<\/em>
Partners:<\/strong> FMI, INTA, SCIS-INTA, AVS, UPC, IMSE, IMDEA, Talvioja Consulting Ltd.<\/em>
Duration:<\/strong> 04\/2021-10\/2021<\/em><\/p>\n

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Collaboration Agreement for the exploitation of the S-band Ground Station at Montsec Observatory<\/span><\/strong><\/h2>\n

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Collaboration Agreement between the UPC<\/strong> and the IEEC<\/strong> for the creation of the scientific infrastructure that consists of the S-band Ground Station<\/strong> for LEO-orbit satellite<\/strong> communications, located at Montsec Observatory (OdM)<\/strong>. The agreement establishes the conditions for its installation, exploitation and operations.<\/p>\n

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Entities:<\/strong> Universitat Polit\u00e8cnica de Catalunya\u00b7BarcelonaTech & IEEC<\/em>
Responsibility:<\/strong> Ignasi Ribas, Adriano Camps, Josep Colom\u00e9<\/em>
Duration:<\/strong> 01\/2021-01\/2031<\/em><\/p>\n

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KTT Contract:<\/span><\/strong><\/h2>\n

STARS scheduling software for the COLIBRI Telescope<\/strong><\/p>\n

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The STARS (Scheduling Technologies for Autonomous Robotic Systems)<\/strong> software framework developed by the IEEC<\/strong> for telescope time scheduling purposes was adapted and delivered to the Laboratoire d\u2019Astrophysique de Marseille (LAM)<\/strong> for its specific use at the COLIBRI telescope. The framework is complemented with two graphical interfaces: the Management for Users in the Robotic Observatory Control System (MUR)<\/strong> for proposal management (or planning) purposes; and the Analysis Tool for Planning (ATP)<\/strong> that is used for an expert performance analysis of the obtained schedules. COLIBRI<\/strong> telescope is located in Mexico and is devoted to carry out automatic follow-up observations of the SVOM (Space based multi-band Variable Object Monitor)<\/strong> satellite, a French and Chinese mission for GRB<\/strong> detection to be launched by the end of 2021.<\/p>\n

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Coordinator:<\/strong> Francesc Vilardell & Josep Colom\u00e9<\/em>
Funding Institution:<\/strong> Centre National de la Recherche Scientifique \u2013 Laboratoire d\u2019Astrophysique de Marseille (CNRS-LAM, France)<\/em>
Duration:<\/strong> 05\/2020 – 05\/2021<\/em><\/p>\n

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KTT Contract:<\/span><\/strong><\/h2>\n

IAC tender CTA Lot 3<\/strong><\/p>\n

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Production, integration and validation of mechanical elements, electronics and programming for the construction of the cameras for the Large-Size Telescopes LST-2, LST-3 and LST-4 of the Cherenkov Telescope Array observatory in the Northern site (ORM, Observatorio del Roque de los Muchachos)<\/strong>. Contract devoted to the Camera Control Software that allows the data acquisition of the Cherenkov radiation with the camera detector and the calibration light, and uses weather sensors to provide a high-logic behaviour ensuring the correct instrument operation.<\/p>\n

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Coordinator:<\/strong> Josep Colom\u00e9<\/em>
Funding Institution:<\/strong> Instituto de Astrof\u00edsica de Canarias (IAC; LIC-19-008-Lote3)<\/em>
Duration:<\/strong> 8\/6\/2020-23\/12\/2022<\/em><\/p>\n

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KTT Contract:<\/span><\/strong><\/h2>\n

Collaboration on calibration and environmental monitoring for preparing the implementation of the Cherenkov Telescope Array Observatory<\/strong><\/p>\n

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The purpose of the contract is to establish and carry out a Research and Development Collaboration for preparing the implementation of the Cherenkov Telescope Array Observatory<\/strong>. In particular, IEEC<\/strong> provides support from Dr Markus Gaug, who coordinates the Array Calibration, the Environmental monitoring and the Atmospheric characterization projects of CTAO<\/strong>.<\/p>\n

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Coordinator:<\/strong> Llu\u00eds Font<\/em>
Funding Institution:<\/strong> Cherenkov Telescope Array Observatory GmbH (CTAO)<\/em>
Duration:<\/strong> 1\/03\/2020 \u2013 28\/02\/2021<\/em><\/p>\n

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Innovaci\u00f3n | Proyectos por \u00e1mbitosProyectos por \u00e1mbitosMiembros del IEEC llevan a cabo proyectos de investigaci\u00f3n y desarrollo aplicados en gran variedad de \u00e1mbitos: investigaci\u00f3n cient\u00edfico-tecnol\u00f3gica, observaci\u00f3n de la Tierra, navegaci\u00f3n, seguridad espacial, telecomunicaciones, tecnolog\u00edas de exploraci\u00f3n planetaria y segmento terrestre, entre otros.El IEEC, en algunos casos a trav\u00e9s de sus Unidades de Investigaci\u00f3n, cubre una […]<\/p>\n","protected":false},"author":1,"featured_media":26069,"parent":2781,"menu_order":2,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_et_pb_use_builder":"on","_et_pb_old_content":"","_et_gb_content_width":"","footnotes":""},"class_list":["post-2789","page","type-page","status-publish","has-post-thumbnail","hentry"],"yoast_head":"\nProyectos por \u00e1mbitos - IEEC<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/ieec-wp.ixole.es\/es\/innovacion\/proyectos-por-ambitos\/\" \/>\n<meta property=\"og:locale\" content=\"es_ES\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Proyectos por \u00e1mbitos - 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