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EPSSG Space to Ground System Verification Validation Support

2015-08-04 12:05:04| Space-careers.com Jobs RSS

About us SCISYS Deutschland GmbH provides professional engineering and consultancy services supporting space programmes and missions. We have a strong presence at ESOC and EUMETSAT, as well as serving all ESA sites and spacecraft primes. Our team is composed of university graduates and experienced professionals, comprising some of the most knowledgeable, dedicated and talented engineers across Europe. Our services cover the whole life cycle of space programmes from early concepts to operations. Our Space Division provides a dynamic, supportive and friendly atmosphere in which you are encouraged to lead with initiative. We support new ideas from our colleagues and are focused on innovation. Moreover, we actively manage your professional development, training and career progression. For the location in Darmstadt Germany we are looking for a EPSSG SpacetoGround System Verification Validation Support at EUMETSAT. Tasks EUMETSAT Polar SystemSecond Generation EPSSG will be based on a twosatellite configuration with the launch of the first satellite MetopSG A in mid2021 followed by the second satellite MetopSG B 18 months later. Two recurrent Metop SG A and B satellites will be provided and launched in order to achieve a minimum of 21 years of operations. The activities performed by the keyperson will be an input for the overall System VV activities. The focus is on VV activities related to the spacetoground RF links between the MetopSG satellites and the ground stations. The main RF links are in Sband for housekeeping telemetry HKTM and telecommands TC and Ka and Xbands for the transmission of payload mission data. In addition, EUMETSATs ground station in Svalbard has to Support NOAAs JPSS satellites in Sband and Kaband and as needed the keyperson would be also involved in related test activities. While the tasks outlined in the following are worded to apply to System test activities related to these spacetoground interfaces RF and data handling, depending on the expertise of the keyperson, equivalent activities might also be assigned in other areas of EPSSG System VV. List of typical tasks Test preparation execution Definition of the approach scope of tests, test cases, key test data test tools, logistics, ... for testing of spacetoground RF interfaces of the MetopSG and JPSS satellites with relevant ground stations, and generation of the related test plans. Generation of test specifications elaboration of test cases and of stepbystep test procedures. Preparation of a schedule for the test activities, taking into account the development schedule of ground stations, of test tools such as RF suitcases, etc. Support for the coordination of test activities with partners in particular NOAA for testing for JPSS and, as relevant, industry. Performing reviews of technical documentation provided by MetopSG industry and by EPSSG ground segment industry, to ensure compatibility of related design and testing with needs of EPSSG System VV. Coordination of shipments of test tools such as RF suitcase to the ground station, execution of the planned tests, analysis of the results and preparation of test reports if occurring during the period of the consultancy. Test tools Generation maintenance of requirements specifications for relevant test tools e.g., for RF suitcases S, Ka and Xband and for RF InOrbit Test IOT tools. Contribution to the generation maintenance of Interface Requirements Documents Interface Control Documents for these test tools. Contribution to the development procurement of test tools Following up the development of RF suitcases part of MetopSG development review relevant technical documents provided by industry and support acceptance testing Following up the development of RF IOT tools part of EPSSG Ground Segment development review relevant technical documents provided by industry and support acceptance testing Development procurement of further test equipment as needed for testing of spacetoground RF interfaces Preparation of a plan to ensure that all relevant RF test equipment remains calibrated over the foreseen testing duration. System requirements specification and verification Support for the maintenance of the EPSSG SpacetoGround Interface Requirements Document SGIRD. Consolidation of the approach method, level, phase, etc. for the verification of the SGIRD and maintenance of the related Verification Control Matrix VCM in DOORS. Analysis of subSystem level VCMs and associated documentation, to ensure consistency with the verification approach to be applied at subSystem level MetopSG Space Segment and EPSSG Ground Segment. Assessment and tracking of results of verification activities done by MetopSG and EPSSG Ground Segment industry as relevant for spacetoground interfaces and recording of relevant results in the VCM. Recording of results of executed EPSSG System tests in the VCM if tests occurring during the period of the consultancy. Preparation of verification control documents for the SGIRD, with the synthetic status of the performed verification. In addition the keyperson will be involved in some more general tasks Participation in support for relevant internal and external technical meetings. Regular review of EPSSG documentation dealing with requirements, system concepts, architecture and design, technical analyses, to identify information of importance for System VV activities. In addition, and with the same aim, analysis of documents provided by external partners, specifically in the framework of formal reviews for space segment andor ground segment elements. Support for the preparation of documentation for EPSSG System level reviews. Essential requirements The keyperson shall have the following mandatory technical experience and background University degree in the domain of engineering, physics or equivalent. At least 3 years of handson involvement in RF testing of spacetoground interfaces at satellite andor ground station level. Familiarity with procurement, installation, use and maintenance of relevant test equipment, such as RF suitcases. Handson experience with the preparation of test documentation test plans, specifications, procedures and reports. Desirable requirements The following technical expertise would be beneficial Involvement in the preparation and execution of tests at remote sites. Involvement in RF design related to spacetoground interfaces at satellite andor ground station level. Expertise in Kaband link design or testing. Experience in other areas of System VV, such as Satellite System Validation Tests i.e. validation of endtoend TMTC chains and of spacecraft operational procedures. In terms of further skills, the keyperson shall Ability to fulfil the assigned tasks with a minimum of supervision A systematic approach to work Ability to plan hisher work, considering tight schedules and multiple tasks Good communication skills verbal and written Ability to work in a team of engineers and in cooperation with industry and partner agencies. Other Information Start date is 4th quarter of 2015 Fluency in English is mandatory The candidate must have a valid German work and residence permit or be an EU Citizen To apply online please visit httpwww.scisys.dewowirarbeitenspacekarrierespacejobs.html

Tags: support system space ground

 

10 ways Excess Space Solutions helps its customers

2015-07-31 05:46:20| Canadian Plastics Headlines

Excess Space Solutions specializes in creating valuable, usable space within its customers existing environments. The post 10 ways Excess Space Solutions helps its customers appeared first on Canadian Plastics.

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Space Environment Effects Engineer

2015-07-30 11:05:31| Space-careers.com Jobs RSS

Vitrociset Belgium is looking for a candidate with the profile described below to deploy in ESTEC Please submit applications not later than 19082015 by EMAIL to Mr. Massimiliano Mazza, Head of Engineering services Satellite Operations M.Mazzavitrocisetbelgium.com cc. jobsvitrocisetbelgium.com Specific Tasks The section supports ESA and European space mission development with investigations of space environments and their effects on space systems. This involves several activities Application of many different models and software packages to analyse the effects that space environments e.g. chargedparticle radiation, plasmas, micrometeoroids space debris, atomic oxygen, geomagnetism may have on ESA missions. Development, adaptation, use and interpretation of the various models and tools and software development of associated graphical and other utilities, including WWW applications. Inorbit measurements of environmental parameters energetic particles, microparticles, plasmas are used to investigate local spacecraft conditions and to develop models of these environments for use in future mission planning. Tasks will contribute to the analysis of some of these data, derive relevant parameters to compare with existing models for validation, and ultimately lead to improvement of the models. Tasks will also involve contributions to the design, development, testing and calibration of the equipment for inorbit measurements. Natural energetic particles in space interact with components, detectors, astronauts, etc. causing a variety of problems. The GEANT4 radiation transport toolkit is used for specific space problems, including dose, SEE, and interactions of solar and galactic particles with detectors, etc. o Microparticle environments are analysed with ESABASE2Debris. o Spacecraft plasma interactions are analysed with SPIS, as well as heritage tools. o Atmospheric environments are studied with the Mars climate databases and circulation models GCM, including the European Martian Climate Database and GCM. o Spenvis is used as a generalpurpose resource for space environments and effects analyses. The contractor tasks will also contribute to development of space weather systems, including system definition and reviews, model development, testing of developed methods and establishment services. Contributions are also expected to the definition of required space weather hardware e.g. instrumentation and software developments, and subsequently assisting in the monitoring of industrial contracts. Contributions to the preparation of ECSS engineering standards shall be made ECSSE1004, ECSSE1012, ECSSE20, etc.. Support the section with maintenance of computational infrastructure for providing space environments and effects analysis support including web site upgrade and updating, software testing, software implementation and maintenance. Reviews of contractor documents in this domain and in areas where environmental effects may have an impact shall be undertaken. The Contractor will support the activities of technology research and development contracts regarding the above areas, including direct interfaces with the contractors, participate in progress meetings and reviews, as requested, and provide appropriate feedback on the progress and discussions. When supporting projects, interfacing may include communication with the project contractor companies or partner organizations, participation in progress meetings and reviews, as requested by project work, and provision of appropriate feedback on the achieved progress and discussions. As part of the tasks, authoritative, highquality reporting on analyses shall be undertaken. Presentations to project staff shall be undertaken. Good quality control of analyses is essential. Development work shall be fully documented. In some cases contributions to scientific and technical papers will be made. Specific Competence Requirements As per Job Class in physics, applied physics, engineering with a physics andor computing content, computing with good physics ability, or equivalent experience. Advanced knowledge is required in computer programming in C and Java under Unix. Use of advanced software tools specifically including the Geant4 MonteCarlo toolkit and WWW technologies for science and engineering of interactions of radiation with matter and systems is required. Knowledge of the space radiation environment and its effects, and of detection techniques, is highly desirable. Very good verbal and written communication skills are required. Fluent in English, knowledge of another European language is an advantage. The following attributes would also be highly desirable Experience with analyses of other aspects of the space environment that fall under the sections area of operation plasmas, microparticles, atmospheres, etc. Physics simulation techniques such as Monte Carlo radiation transport or particleincell plasma simulation Design, development and operation of instrumentation for measuring the space environment, and the associated data exploitation.

Tags: space environment effects engineer

 

BioMed lands two new biotech tenants at former Vertex space

2015-07-30 00:37:55| Biotech - Topix.net

BioMed Realty has landed two new life science tenants for its newly repositioned Sidney Research Campus at 200 Sidney St., 40 Erie St. and 21 Erie St. in Cambridge. The new tenants of the space, formerly inhabited by Vertex Pharmaceuticals , are CRISPR Therapeutics and Synlogic Inc. CRISPR, a biopharmaceutical company that's pioneering genome-editing technology to make medicines for serious diseases, will lease 19,817 square feet of lab and office.

Tags: space lands biotech tenants

 

Space Environment Effects Engineer

2015-07-29 14:05:52| Space-careers.com Jobs RSS

HE Space is a successful international space company. For over 30 years, we have been supporting our customers with qualified experts in the field of engineering, science and administration. We are currently looking for a Space Environment Effects Engineer to support our customer in the Netherlands. Space Environment Effects Engineer Key Tasks and Responsibilities In this role you will be part of the Space Environment and Effects Section at ESAESTEC. You will have the following responsibilities Analyse the effects that space environments may have on ESA missions Develop, adapt, use and interpret the various models and tools and software development of associated graphical and other utilities Contribute to the analysis of inorbit measurements of environmental parameters, derive relevant parameters to compare with existing models for validation Contribute to the design, development, testing and calibration of the equipment for inorbit measurements Contribute to development of space weather systems Support with maintenance of computational infrastructure for providing space environments and effects analysis. Skills Experience You will have the following qualifications and relevant experience University degree or equivalent in physics, applied physics, engineering with a physics andor computing content Advanced knowledge of computer programming in C and Java under Unix Use of advanced software tools specifically including the Geant4 MonteCarlo toolkit and WWW technologies for science and engineering of interactions of radiation with matter and systems is required Knowledge of the space radiation environment and its effects, and of detection techniques would be an asset Experience with analyses of other aspects of the space environment that fall under the sections area of operation Knowledge of physics simulation techniques such as Monte Carlo radiation transport or particleincell plasma simulation Design, development and operation of instrumentation for measuring the space environment, and the associated data exploitation Excellent organizational and communication skills both written and spoken Fluency in English is mandatory knowledge of another European language is an advantage. This job is located in Noordwijk. We welcome applicants who are available as soon as possible. If you think you have what it takes for this job, please send us your CV together with a letter of motivation both in English and in Word to Ms Julia Niehaus at jobshespace.com, quoting job NLSC2707 before 18Aug15. An exciting and dynamic international working environment awaits you! Apply for this job

Tags: space environment effects engineer

 

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