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N A S A G O D D A R D S P A C E F L I G H T C E N T E R I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Instrument Synthesis.

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Presentation on theme: "N A S A G O D D A R D S P A C E F L I G H T C E N T E R I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Instrument Synthesis."— Presentation transcript:

1 N A S A G O D D A R D S P A C E F L I G H T C E N T E R I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Instrument Synthesis & Analysis Laboratory H. John Wood Jeff Bolognese FEMCI Workshop May 5-6, 2004

2 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p2 May 5-6, 2004ISAL Overview What is the ISAL? Instrument Synthesis & Analysis Laboratory (ISAL) Part of Goddard’s Integrated Design Capability (IDC) – IDC comprised of 2 groups ISAL Integrated Mission Design Center (IMDC) – Provide overall observatory and mission design ISAL Provides rapid multidisciplinary instrument design studies for a variety of earth science, space science, and new technology projects

3 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p3 May 5-6, 2004ISAL Overview Why an Integrated Design Capability? Previous concept design process: –Too many meetings –Too many people –Too low on the priority totem pole –Tied up too many resources –Took too long to complete –Incomplete collaboration between disciplines –Inconsistent or non- convergent results – Infrequent interaction with the “customer” – Did not always meet customer needs or expectations

4 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p4 May 5-6, 2004ISAL Overview Proven state-of-the-art engineering… Reduced cost and schedule for development of end-to-end space mission and remote sensing conceptual designs – Previous engineering process: Study duration: ~ 6 months Level of effort (LOE): 2.5 FTEs – IDC engineering process: ISAL study duration: 1 – 2 weeks ISAL approx. LOE: ~0.3 FTE IMDC study duration: 4 – 5 days IMDC approx. LOE: ~0.3 FTE

5 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p5 May 5-6, 2004ISAL Overview Proven state-of-the-art engineering con’t Increased capabilities and improved consistency across studies Hands – on involvement of the customer in the design process – Customer needs and/or expectations routinely met or exceeded Concurrent engineering environment – All disciplines working together and all at the same time – Consider all aspects of the mission life-cycle at the same time Increased and improved collaboration between subsystem disciplines – Infuse the end-to-end system perspective into the entire team – Improve product consistency, quality and system level convergence – Improve technology infusion, especially for cross-discipline items

6 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p6 May 5-6, 2004ISAL Overview IDC Competencies – Broad, Diverse, Customer Driven Instrument Synthesis & Analysis Laboratory – Imagers, Cameras – Spectrometers – Lidars – Gamma-Ray to IR Telescopes – Solar Physics Instruments, Spectroheliographs – Passive or Microwave Radiometers – Optical Molecular Sensors – Planetary & Lunar Orbiter Instruments – Large Weather Satellite Instruments – Geochemistry experiments Integrated Mission Design Center – LEO, HEO, GEO, libration orbits, interplanetary and deep space, balloon – Single spacecraft missions, formation flying, constellations, distributed systems – Uncontrolled or controlled deorbit and recoverable payload modules – Expendable vs. non-expendable launch vehicles – Custom vs. commercial spacecraft tradeoffs – Nanosats to large satellites

7 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p7 May 5-6, 2004ISAL Overview ISAL Objectives To provide a rapid and sustainable instrument development environment with clear, efficient processes and skilled engineers. To provide a capability for quick and efficient trade studies of instrument architectures and concepts. – Supports different maturity levels Direct AO response Trade Studies in advance of AO Instrument Incubator Program projects Space Exploration Studies – new NASA Directives To streamline and optimize instrument system design for Phase A, including cost, risk and technology assessment.

8 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p8 May 5-6, 2004ISAL Overview ISAL History Operational facility since Spring 1999 Completed more than more than 60 studies since its inception Experience with Earth Science, Space Science and Space Exploration instrument projects – Aquarius (Sea Salinity Study) selected for Earth Science – SDO and GPM have asked for designs – EXIST selected as part of the decadal plan by the National Academy of Sciences – NGST (now JWST) early studies done in the ISAL

9 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p9 May 5-6, 2004ISAL Overview ISAL Resources Cadre of highly-skilled discipline engineers – Collaboration of clients, discipline engineers, and scientists to discuss concept viability – Provide customized level of service – Detailed designs with significant analysis State of the Art Facility Strong Leadership Team – Unified ISAL management and operations with the Integrated Mission Design Center (IMDC) to form the Integrated Design Capability (IDC) in Spring 2001

10 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p10 May 5-6, 2004ISAL Overview – Systems – Science Liaison – Thermal/Cryogenics – Optical – Electro-Optical – Electronics – Electro-Mechanical – Opto-Mechanical – Mechanical Design and Analysis – Detectors – Cost Modeling/grass roots – Laser Technology – Microwave Technology – Flight Software – Orbital Debris – Mission Success/Risk ISAL Engineering Skills

11 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p11 May 5-6, 2004ISAL Overview ISAL Sample Product Structural Analysis Stress (psi) Stresses Dynamics CAD Concept Finite Element Model Temp ( o C) Structural Deformation Analysis Process & Products

12 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p12 May 5-6, 2004ISAL Overview State of the Art Facility Computer Resources – Workstations for discipline engineers – COTS programs for engineering disciplines Conference Area – ‘Smart Board’ – Fax Machine – Speakerphone – Projection/White Board Displays – 3 Projectors with switching to display each engineer’s workstation Audio System – For teleconferencing Video Conferencing Capability – To enhance teleconferencing Location – Goddard Space Flight Center – Bldg. 23 Room W324

13 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p13 May 5-6, 2004ISAL Overview Summary: Why ISAL? Laboratory with a proven history – Completed 60+ studies successfully – Experience and service for all NASA enterprises – Efficient processes and tools State of the Art Facility – Utilizes computers with the latest hardware and software for discipline use – Conferencing capability for scientists and engineers who cannot be present Strong Engineering Team – Provides a cadre of skilled engineers from Goddard’s engineering branches – Unified operations and management with the Integrated Mission Design Center (IMDC) to form the Integrated Design Capability to assess instrument design and mission parameters together

14 I n s t r u m e n t S y n t h e s i s a n d A n a l y s i s L a b o r a t o r y Wood, Bolognese p14 May 5-6, 2004ISAL Overview Management Team IDC Operations Manager Ellen Herring/ 500 301-286-7393 programmatics & strategic planning for ISAL & IMDC ISAL Team LeadJennifer Bracken/ 531 301-286-3688 daily planning, scheduling & product delivery Science LiaisonDr. H. John Wood/ 551 301-286-6314 interface between science team & engineering team

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