Welcome to the Johnson Space Center JSC Engineering, Technology and Science (JETS) Industry Day July 20, 2011 Gilruth Center - Alamo Ball Room 1
Welcome to the JSC Engineering, Technology and Science (JETS) Industry Day Adrian Clayton Contracting Officer Miyoshi Thompson Contract Specialist 2
Agenda SpeakerSubject Adrian Clayton, Contracting OfficerWelcome to Industry Day Debra L. Johnson, Director, Office of Procurement Welcome Miyoshi Thompson, Contract Specialist Current and Anticipated Contract Overview Beth Fischer, Associate Director, Engineering Directorate Engineering Directorate Overview Eileen Stansbery, Director, Astromaterials Research and Exploration Science (ARES) Directorate ARES Directorate Overview Cheryl Harrison, Small Business Specialist Small Business Overview Jeff Dutton, Procurement Development Team (PDT) Chair ESC Technical Overview Miyoshi Thompson, Contract Specialist Procurement Schedule and Question/Answer Session 3
Safety and Administrative Information Restrooms can be found in the hallway outside this ballroom. Fire exits are at the front entrance and side exit doors. In the event of a fire, you must move at least 75ft. away from the building. Fire Exits Fire Exit Restrooms 4
Disclaimer –These slides are for information and planning purposes only. No solicitation exists at this time. –This presentation shall not be construed as a commitment by the Government or as a comprehensive description of any future requirements. –If a solicitation is released, it will be synopsized in the FedBizOpps website and on the NASA Acquisition Internet Service (NAIS). – A detailed procurement schedule will be posted to the procurement website as soon as it is available. 5
–Promote competition on the proposed acquisition. –Develop industry understanding of the Government’s current vision and objectives. –Provide industry with the opportunity to meet with the Government early enough in the procurement process to provide input into the JETS procurement strategy. –Encourage offerors to submit questions and comments in writing via the JETS website or in person during Industry Day. The Government will respond in writing to all questions submitted by posting them to NAIS and the JETS procurement websites. Goals of Industry Day 6
Responses to Questions –Questions will be answered during Industry Day. Responses to questions will not be considered official. The official responses to the questions will be posted to the procurement website. –If a difference exists between verbal and written responses to questions, the written responses shall govern. 7
Welcome Debra L. Johnson Director, Office of Procurement 8
Engineering Directorate Overview Beth Fischer Associate Director, Engineering Directorate 9
Bruce Sauser, Manager Joe Caram, Deputy EA3/SYSTEMS ARCHITECTURE & INTEGRATION OFFICE Rob Ambrose, Chief Cliff Farmer, Deputy ER/SOFTWARE, ROBOTICS & SIMULATION DIVISION Steve Labbe, Chief Mark Hammerschmidt, Deputy EG/AEROSCIENCE & FLIGHT MECHANICS DIVISION Bill Hoffman, Chief Gene Grush, Deputy EP/ENERGY SYSTEMS DIVISION Edgar Castro, Chief Stan Donahoe & Rhonda Moore, Deputies ES/STRUCTURAL ENGINEERING DIVISION EV/AVIONIC SYSTEMS DIVISION Pat Pilola, Chief Greg Blackburn, Deputy Trish Petete, Chief Scott Swan, Deputy EC/CREW & THERMAL SYSTEMS DIVISION Cindy Neal, Manager Vacant, Deputy EA2/ENGINEERING DIRECTORATE PLANNING & CONTROL OFFICE Linda Bromley, Manager Randall Adams, Deputy EA4/TECHNICAL INTEGRATION OFFICE ENGINEERING DIRECTORATE Steve Altemus, Director Steve Poulos, Deputy Director Beth Fischer, Associate Director Steve Stich, Associate Director 10
Current Challenges and Goals Challenges: – Finding innovative ways to accomplish a new era of exploration and discovery with smaller individual projects and decentralized coordination – Coordinating and integrating efforts to leverage the various different opportunity lines currently available within the NASA Directorates and outside the agency Goals: Create and manage an affordable portfolio of activities targeting the highest priority human spaceflight functional advancements by: –Leveraging cross agency opportunities: AES, ISS, Orion, OCT, others… –Engaging available civil service workforce –Use innovative approaches in leveraging existing capabilities and opportunities to advance key human spaceflight functions 11
Engineering Directorate Priorities – ISS: Sustaining Engineering, Systems Management, Visiting Vehicle Certification, Utilization as Test Bed, GFE spares/replacements/upgrades – Orion/MPCV: Systems and GFE Design,Development, Test and Integration – Exploration Class Spacecraft Systems Development – Advanced Engineering Systems (AES) – Office of the Chief Technologist Projects – Commercial Cargo and Crew – Insight/oversight/certification – Inline support 12
ARES Directorate Overview Eileen Stansbery Director, Astromaterials Research and Exploration Science Directorate 13
Organization and Business Units Business Units Curation of Current Astromaterials Advanced Sample Acquisition and Handling Technology Competitive Research Robotic Mission Science Exploration Science Operations Orbital Debris Hypervelocity Impact Technology and Risk Assessment Image Science and Analysis Management and Infrastructure Education Astromaterials Research and Exploration Science (KA) Astromaterials Acquisition and Curation (KT) Astromaterials Research (KR) Human Exploration Science (KX) 14
Small Business Overview Cheryl Harrison Small Business Specialist 15
Current and Anticipated Contract Overview Miyoshi Thompson Contract Specialist 16
Industry Day Overview –The purpose of this Industry Day is to help industry understand the Government’s existing requirements and vision for the JETS Contract –Clarifications concerning the way in which we conduct business today will be answered in the Question and Answer period –A copy of this presentation is posted through NAIS and on the JETS website: 17
Current Contract Overview Contract Number: NNJ05HI05C Prime Contractor: Jacobs Technology, Inc Contract Type: –Cost Plus Award Fee (CPAF), Indefinite Delivery Indefinite Quantity (IDIQ), Level of Effort (LOE) Period of Performance: –February 01, January 31, 2013 Estimated Current Contract Value: –$2.16B 18
Current Contract Overview Current Small Business Subcontracting Goals: 19
Current Contract Overview 20 EngineeringARES Activities Engineering design, development, sustaining engineering, analysis, and test services and laboratory/facility operation and maintenance for the JSC Engineering Directorate Performs planetary, missions, physical science research and laboratory/facility operation and maintenance for the JSC ARES Directorate Customers International Space Station (ISS) Program Multi-Purpose Crew Vehicle (MPCV) Advanced Exploration Systems (AES) Office of Chief Technologist (OCT) Science Mission Directorate (SMD) Other Programs throughout NASA, other agencies, etc. The primary scope of Engineering and Science Contract (ESC) is engineering and scientific products and technical services related to human operations in space.
–The following information is pre-decisional. As such there is no guarantee that the final Request for Proposal (RFP) will be so structured. –The information is intended to obtain Industry’s comments regarding the anticipated contract. Therefore, your input is both desired and requested. –If there are any changes between what is presented herein and the final RFP, the final RFP shall govern. Anticipated Contract Overview 21
Solicitation Number: NNJ R NAICS Code and Size Standard –The NAICS Code is , Engineering Services –Size Standard is $27M under the exception for Military and Aerospace Equipment and Military Weapons Period of Performance: –Phase-in: December 1, January 31, 2013 –Contract Period of Performance: February 1, January 31, 2018 –Options – TBD Anticipated Contract Overview 22
–Place of Performance: Johnson Space Center (JSC) –Contract Type: TBD Anticipated Contract Overview 23
SPECIAL CONSIDERATION NOTE TO PROSPECTIVE OFFERORS Prospective offerors are reminded not to contact incumbent personnel (either directly or through electronic means) during duty hours or at their place of employment, as such contacts are disruptive to the performance of the current contract.
ESC Technical Overview Jeff Dutton PDT Chair 25
–Engineering Projects –Engineering Facilities –Astromaterials Research and Exploration Science Offices and Laboratories ESC Technical Overview 26 Disclaimer: This presentation includes representative examples of current Engineering and ARES Projects and Facilities and should not be a considered a comprehensive list.
27 Engineering Projects Flight Hardware / Software
28 Engineering Projects Hardware Development International Low Impact Docking System (ILIDS) –Next generation docking system provides capability to dock a wide range of vehicles –Common element for commercial and international use
29 CEV Parachute Assembly System (CPAS) –Drogue Parachutes –Main Parachutes –Attach hardware Engineering Projects Hardware Development
30 Mission Evaluation Room (MER) –Provides real time mission support for flight vehicle subsystems, hardware, and software Engineering Projects Flight Hardware / Software Operations
Spacecraft external and internal operations –Exercise Equipment –EVA Equipment 31 Engineering Projects Sustaining Engineering
32 –Flight Crew Systems –Water Recovery System Engineering Projects Sustaining Engineering
33 Engineering Projects Advanced Technology
34 – Improved mobility and dexterity – Improved environmental protection Micrometeoroids Radiation Thermal Extremes Engineering Projects Advanced Space Suit / Portable Life Support Technology
35 –Cabin Air Separator for EVA Oxygen –Regenerated amine system Engineering Projects ISS Utilization and Advanced Life Support Technology
36 Propulsion and avionics test bed –Morpheus Vertical Test Bed Green Propulsion Cryogenic Fuel Management –Automated Landing and Hazard Avoidance Technology (ALHAT) Sensors and software for landers Avionics Engineering Projects Advanced Technology for Future Programs
37 –Surface Operations –Lunar, Mars, Asteroid mission concepts –Human/ robotic cooperation –Tele-operation –Autonomous robotics Engineering Projects Advanced Concepts for Future Programs
38 –Power Generation, Storage and Distribution Fuel cells Batteries Smart Grids –In Situ Resource Utilization (ISRU) Proof-of-concept to gather and process planetary resources for oxygen Engineering Projects Advanced Concepts for Future Programs
39 Engineering Facilities
Engineering Directorate Facilities: –Engineering has approximately 76 facilities located throughout JSC campus –Engineering Facilities provide capabilities for the development and testing of Human Space Flight equipment Life Support Systems Flight Design Integrated Environments Robotics and Simulation Manufacturing –Engineering External Website with Detail Descriptions of the Facilities: 40 Engineering Facilities
41 These facilities provide the capability to develop and test: –Space Suits and Components –Environmental Control Systems –Regeneration Systems Engineering Facilities Life Support System
42 –Flight Design facilities offer unique capabilities in developing ascent, on-orbit, entry and landing recovery systems. –The facilities provides computer graphics for engineering visualization. Engineering Facilities Flight Design
43 Engineering Directorate integrated environments facilities used to test, evaluate, and certify hardware and software for spaceflight. Capabilities Include –Launch Dynamics –Entry Environments –Space Environment –Thermal Vacuum Chambers –Electromagnetic Testing –Power and Pyrotechnics Testing Engineering Facilities Integrated Environments
James Webb Telescope and Chamber A Space Environment Simulation Lab 44 Engineering Facilities Integrated Environments
45 Energy Systems Test Area (ESTA) provides test facilities and personnel involved in hardware evaluation and problem solving activities. These activities encompass many of the fluid and energy conversion systems required for human exploration and development of space. Facilities Include: –Battery Systems Test Facility –Exploration Electrical System Test Bed –Fluid Systems Test Facility and Component Processing Facility –Pyrotechnics Test Facility Engineering Facilities Integrated Environments
46 Virtual Reality Lab Dexterous Robotics Lab/Test Bed Robotics facilities offer a variety of capabilities to conceive, develop, adapt, infuse, and sustain intelligent systems, robotics systems, and real-time simulation systems within the programs and tasks assigned to the center. Engineering Facilities Robotics and Simulation
47 Manufacturing Facilities use state-of-the-art technology for the manufacture, fabrication and assembly of developmental, test, and flight hardware. Capabilities include: –Machining, Fabrication and Assembly –Friction Stir Welding –Soft Goods Fabrication –Metal Cleaning and Finishing –Clean Room Operations –Non Metallic and Composite Capabilities Engineering Facilities Manufacturing
48 The Flight Manufacturing Facility (FMF) is responsible for manufacturing flight and flight- like electronic hardware in support of the ISS program and other space-related applications. Engineering Facilities Manufacturing
49 ARES Technical Overview
–Curation: NASA’s repository of extraterrestrial samples. –Research: Conduct frontier, world class research in Earth, space and planetary science. –Mission Science: Carryout scientific investigations on NASA missions. –Mission Support: Give authoritative science and technology support to NASA and world wide programs. –Communication: Communicate NASA science to professional peers, to educators, and to the public. ARES Mission 50
ARES protects, preserves, and distributes for study samples from the Moon, Mars, and interplanetary space in support of solar system exploration. –Current Collections Apollo Lunar Samples Antarctic Meteorites Cosmic Dust Genesis Stardust Space Exposed Hardware –Acquisition / Future Curation New mission proposals –Advanced Curation Research Cold curation Robotic sample handling Planetary protection ARES Mission Astromaterials Acquisition and Curation 51
–Mission Collaboration – Currently mostly Mars Science Teams for Mars ’01, ’03, ’05 ’05 CRISM, Phoenix, Mars Science Laboratory –Planetary Evolution – Understanding the origin and evolution of our solar system Accretion Planetary Differentiation Volcanism Impact –Mars Soil Genesis – Mineralogy, chemistry, and origin of Martian soil: Sample and Remote-Sensing Based Multi-institutional / Multi-Disciplinary Consortium –Astrobiology – Investigating the origin and evolution of life in our solar system Search for evidence of biomarkers in meteorites from Mars Documentation of Terrestrial Biomarkers ARES Mission Astromaterials Research 52
–Space Debris Orbital Debris Policy & International Leadership Environment Measurement & Modeling Mitigation & Environment Control Hypervelocity Impact Technology Risk / Threat Assessments Shielding Development & Impact Testing –Image Science & Analysis Static 2D and 3D Measurements High-Resolution Motion Tracking Detailed Surveys and Monitoring of External Vehicle Conditions, Image Screening Image Acquisition Planning Astronaut Training in Earth Observations Crew Observations Planning Cataloging and Archiving Crew Photographs –Exploration Science planning for Advanced Exploration Missions Analog Studies and Operations Geologic Field Training for Planetary Exploration ARES Mission Human Exploration Sciences 53
ARES has 34 laboratories – 11 in Astromaterials Acquisition & Curation Office Curation of Extraterrestrial Samples, 7 separate collections – 20 in the Astromaterials Research Office Conduct Astromaterial, Planetary & Exploration Research –3 in the Human Exploration Science Provide services for human space flight missions Innovation and services for science and technology development in human space flight Conduct research, plan and execute human exploration science operations 54 ARES Laboratories
55 Lunar Sample Laboratory Collector Tray Lunar Rock Extraterrestrial Samples Curation Facilities include: –Lunar Sample Lab –Meteorite Processing Lab –Stardust Lab –Genesis Lab –Cosmic Dust Lab –Space Exposed Hardware Lab –Hayabusa Lab (under construction) ARES Laboratories Astromaterials Acquisition and Curation
Sample Analysis and Experimental Facilities Scanning Electron Microscopes Electron Microprobe Transmission Electron Microscopes Laser Ionization Mass Spectrometer NanoSIMS Neutron Activation Analysis Magnetic Properties Reflectance Spectroscopy Light Element Analysis Lab Isotope Chronology & Chemistry Noble Gas Laboratory High Temperature, High Pressure Experimental Petrology Experimental Impact Laboratory Sample Analysis and Experimental Facilities Scanning Electron Microscopes Electron Microprobe Transmission Electron Microscopes Laser Ionization Mass Spectrometer NanoSIMS Neutron Activation Analysis Magnetic Properties Reflectance Spectroscopy Light Element Analysis Lab Isotope Chronology & Chemistry Noble Gas Laboratory High Temperature, High Pressure Experimental Petrology Experimental Impact Laboratory Bulk Analysis Simu- lation Micro- Analysis ARES Laboratories Astromaterials Research 56
Presolar Grain formed in Supernova NanoSIMS Ion Microprobe Field Emission Scanning Electron Microscope Two-step Laser Ionization Mass Spectrometer Mineral identification, composition, structure Isotopic Composition Organic Molecules Comet Wild 2 Stardust Mission Encounter ARES Laboratories Coordinated Analysis 57
Science and Technology Development in Human Space Flight – Hypervelocity Impact Laboratory Shielding development, Impact testing & mitigation 58 ARES Laboratories Human Exploration Science
59 Human Space Flight Missions – Service, Science, Operations – Image Science and Analysis Laboratory (ISAL) STS110 Survey Fly-around Houston at Night ARES Laboratories Human Exploration Science
M3EGA Laboratory –The Mars, Moon, Meteorite Evolved Gas Analysis (M3EGA) laboratory objective is to conduct thermal and evolved gas analyses of volatile bearing minerals (e.g., carbonates, sulfates, etc.) 60 Phoenix ARES Laboratories Human Exploration Science
Question & Answer Miyoshi Thompson Contract Specialist 61
62 15 Minute Break
63 Q&A Period
One-on-One Communication with Industry –July 20, 2011, 1:00 p.m.-5:00 p.m. and July 21, 2011, 8:00 a.m.-5:00 p.m., as assigned. –No more than 4 individuals may represent any company or team. –Only 1, One-on-One meeting will be allowed. –Meetings will not exceed 25 minutes in length. 64
HOW TO GET CONNECTED –JSC Engineering, Technology and Science (JETS) Contract Website –NASA/JSC Business Opportunities Home Page Set up your user profile –NASA Acquisition Internet Service (NAIS) –JSC Procurement Website –Industry Assistance – Bldg JSC 65
Thank you for attending! Visit: 66