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Ground Segment System Engineer

2016-08-12 09:05:35| Space-careers.com Jobs RSS

The Serco Group is a FTSE 250 corporation with over 70,000 staff in 30 countries. Our strategy is to be a superb provider of public services, by being the best managed business in our sector. We are a focused business to government B2G business, specialising across five sectors Defence, Justice Immigration, Transport, Health and Citizen Services. Sercos space heritage over the last 40 years has placed us in the Space News Top 50 Space Industry Manufacturing and Services Companies. Our European operations have ca. 2,000 employees delivering critical services to public institutions such as the European Commission, EUMETSAT or the European Space Agency where we are the largest onsite service provider with ca. 300 staff. For our activities in EUMETSAT, we are currently looking for a Ground Segment System Engineer. Main responsibilities You will carry out tasks which support activities related to three different phases in the life cycle of EUMETSAT systems. They will correspond to Phase B Architectural and Preliminary Design, various stages of the Detailed Design Phase C of a given programme under definition and development e.g. JasonCS, and Phase D Implementation and Validation, as support to Integration, Verification and Validation in the area of ground segment engineering and architecture. The ground segments of EUMETSAT programmes consist of TTC and Payload Data acquisition ground stations, mission management and control systems, data and product processing, monitoring and archiving, data dissemination facilities and the associated network fabric elements supporting data distribution and circulation. You will perform typical system engineering activities of the phase B, C and D in the lifecycle of a system, such as Requirements engineering encompassing functional and performance analysis for justification and validation of requisites, requirement allocation, apportionment and refinement of performances, and maintenance of the requirements baseline Design defining the conceptual build and configuration which results in a physical architecture, described by its complete functional, physical and software characteristics Technical analyses which are performed for the purpose of resolving requirements conflicts, decomposing and allocating requirements, assessing system effectiveness and justification of the proposed conceptual and physical designs with consideration to the suitability of COTS and reuse of operational components developed in the context of EUMETSAT ground segments Technical tradeoffs for assessing dependability, effectiveness, risks, efforts and planning Planning for integration and verification, which final objective is to demonstrate that the deliverables conform to the specified requirements. More in detail per phase, you should carry out as a minimum the tasks identified hereafter. In support of Phase B Support the refinement, management and maintenance of the GS system requirements in its Ground Segment Requirements Document, including analysis of the system level requirements, requirements tracing and justification Support the refinement and maintenance of the ground segment functional, operational and data model Support the definition of the Ground Segment architecture addressing the overall design of the ground segment system and its physical elements, including the GS deployment views, and generation of the associated architectural design documentation Perform analyses architectural tradeoffs, technical budgets, design to cost effort and risk analyses to ensure completeness and coherence of the design for all aspects related to system engineering, and contribute to the GS design justification and GS Technical Budgets documents Support to the decomposition of the GS System into procurement development elements, COTS and reusable components including allocation of requirements and functions from GS system level. Contribution to the element level requirements, especially requirements common to all elements and recommended technologies Support the definition of GS external interfaces, and internal interfaces between the different GS elements, and their documentation in ICDs Support the generation of IVV related concepts and documents, including preliminary integration and verification plans and verification control documents VCDs Support the preparation of the documentation for the GS Preliminary Design Review PDR and the review itself, as part of the ground segment project team, i.e., providing answers to and supporting the resolution of issues raised. In support of Phase C Support the completion of the detailed design of GS components, including analyses architectural tradeoffs, system technical budgets, risk analyses to ensure completeness and coherence of the design for all aspects related to system engineering Support the management and maintenance of the requirements baseline and definition of MME Services, on the basis of the capabilities needed by the Programmes GS Support the closure of actions raised at the GS PDR and other check points which might be identified in the detailed design phase Support the definition of requirements and interfaces for the components of the GS Support to studies internal or external and the evaluation of their results, and related engineering proposals for the ground segment detailed design Support to preparation of the ground segment system and constituent parts assembly, integration and verification detailed planning. In support of Phase D Analyse deliverables for conformance to existing requirements and specified test procedures Support the integration, verification, and validation IVV of the Ground Segment elements into the overall Ground Segment system Support following up all segment level development and testing activities and status, and participate in meetings and reviews as necessary. General Support to the preparation of, and participation in, project reviews and other check points at system, ground segment system and element level Support to the preparation and maintenance of schedule, resource allocations and work breakdown structures for the GS system engineering activities. Ideal candidate Requirements Essentials You should have a university degree or equivalent in the domain of engineering or science, together with at least 5 years of demonstrated experience in the following areas and disciplines Extensive experience in the specification, design including functional analysis and modelling, implementation, integration, and verification of large and complex Earth Observation ground segments Experience in the preparation of ground segment requirements and design documentation Experience in management and traceability of complex requirements structure, and preferably experience with DOORS Experience in the use of modelling and design tools in support of architectural design activities preferably CORE, or Enterprise Architect Detailed knowledge of at least 3 of the following and a good overview of the other systems and related technologies Near RealTime Data Processing chains, Ground segment endtoend monitoring system, Data Archive and Retrievals, Data Distribution, IVV. You should be able to fulfil the assigned tasks with a minimum of supervision, have a systematic approach to work, be able to plan your work and to cope with tight schedules and multiple tasks. You should have the capability to write accurate and consistent technical documentation. Good communication skills verbal and written are important. You should be willing to work in a team of engineers and in cooperation with industry and partner agencies. Fluency in English is required. The variety of the tasks and the scope of the systems to be supported require a high degree of autonomy and good analytical skills. Desirables The following experience would represent additional assets Experience in Networking and Communications and Ground Stations subsystems Experience in system engineering formal practices and processes, especially in the field of space systems engineering, including knowledge of ECSS standards and system life cycle processes. Application procedure Important All applicants must hold a current valid work permit for Germany or be EU EEA nationals. Important Due to the high interest these roles generate, Serco reserves the right to commence, alter or conclude the recruitment process prior to the closing date. If shortlisted, a recruiter will contact you directly. You can also login at any time to apply to additional positions. Data Protection By submitting a job application you agree to the storage of any personal data provided by you directly or collected from generally accessible sources in particular professional and other social media throughout the entire application process CV, references, letter of application, interviews as applicable. To facilitate subsequent contact for professional purposes only, you agree to your data being saved after the application process has ended. You may revoke your consent to this agreement at any time. The same shall also apply if you are contacted by SERCO GROUP regarding vacancies that match your existing profile. If you are interested in this vacancy, and think you have the skills and experience required, please apply via the relevant link available in Serco Europes Careers Hub httpscareershub.serco.eu

Tags: system ground engineer segment

 

EDRS European Data Relay System Quality Manager

2016-08-12 09:05:35| 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 an EDRS Quality Manager to support our customer in Germany. EDRS European Data Relay System Quality Manager Key Tasks and Responsibilities Responsibility for the following tasks within the various EDRS Ground Segment SubSystems NCR Management for the subelements Problem ReportNCR handling NRBs Support the RFDRFW process with Config Management Team Organize and holdsupport reviews e.g. TRRs, TRBs, QR AR Review the PA documentation of the supplier reviews e.g. TRRs, TRBs, QR AR Support all activities concerning the EDRS GSeg level test campaigns Provide a weekly PA report about the covered work package Participate to the relevant project meetings. Skills Experience You will have the following qualifications and relevant experience Universitys Degree in the relevant field To have bbetween five and ten years of work experience as QA in ESA prime projects, e.g. for ground segment Ability to cooperate with complex challenges in a matrix organisation Ability to understand the challenges of the EDRS program beyond the scope of the own work and take those challenge into account in the execution of the own work Fluency in English is mandatory knowledge of German language is an advantage. This job is located in Munich. We welcome applicants who are available from November 2016 or as soon as possible thereafter. 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 Micheline Blisle at jobshespace.com, quoting job DEBSC3180 before 28Aug16. Please note Due to work permit requirements for this position, please apply only if you are citizen of a European Union state or if you are eligible to obtain a work permit for Germany.

Tags: system data quality manager

 
 

I/O System Offers Wireless Data Transfer

2016-08-12 06:18:16| Chemical Processing

ProSoft Technology expands wireless I/O family.

Tags: system data offers transfer

 

Australias ASC upgrades virtual shipyard system to 3DEXPERIENCE platform

2016-08-12 01:00:00| Naval Technology

Australian submarine builder and maintainer ASC has upgraded its virtual shipyard system from the existing Dassault Systmes ENOVIA application to the next-generation 3DEXPERIENCE platform.

Tags: system virtual platform asc

 

Calnetix Technologies to provide shipboard heat recovery system component to Tokyo Boeki

2016-08-12 01:00:00| Ship Technology

US-based Calnetix Technologies has secured a manufacturing agreement to provide materials for a Hydrocurrent Organic Rankine Cycle (ORC) 125EJW shipboard heat recovery system to Tokyo Boeki Machinery.

Tags: system provide technologies component

 

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