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Space Systems Academic Group Curricula Review Working Group Meeting 23 Jan 2014.

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Presentation on theme: "Space Systems Academic Group Curricula Review Working Group Meeting 23 Jan 2014."— Presentation transcript:

1 Space Systems Academic Group Curricula Review Working Group Meeting 23 Jan 2014

2 2 Agenda Review POA&M Brief quota discussion Billet/Student representation for each curriculum Review CSRs from MAS and discuss expected ESR edits Review current Curriculum Course Matrices (including SS3051 option for Space Certificate) SSE ABET accreditation outcomes review

3 Plan of Action & Milestones ACTIONDEADLINEAO Website with working documents12/30Suede Schedule VTCs/TELECONs1/7Suede Survey from Space Cadre Advisor (draft from Suede by 1/6)1/10Owens Schedule In and Out Briefs with flags and others1/10Suede Inform protocol of flag visits and coordinate billeting and parking1/10Suede Coordinate lab tours and select student/faculty research briefs1/10Suede Action plans for each working group meeting – Review last review outcomes and open items1/7-13? – Review CSRs and ESRs (ABET objectives & outcomes)1/7-17MASs – Data required for briefs (stats/billets/grads, quotas, etc.)1/7-2/7? – AQD/PQS credit for SSO Certificate?1/30 – Review Survey dataweek of 1/27? – Action plan for specific goals and outcomes1/10? – Build briefsweek of 2/3Suede – Draft N15 Curric Review letter and enclosuresweek of 2/10Suede Pre-brief sponsors on results/gather any issues and build briefs2/3-6Suede Conduct necessary pre-briefs with GSEAS deans and mez2/3-7Suede Complete curricula review preps and draft N15 Curric Review letter2/7-10Suede Pre-brief NPS President/Provost/Associate Provost, final changes2/10-14Suede Review: Week of 24 Februaryweek of 2/24all – In-brief, tours, faculty meetings, student lunch, Out-brief √ √ √ √ √ √ √ √

4 SSO/SSE Stakeholders 366/364/316 SSO Currics: MAS: N2/N6E, RADM Sandy Daniels (Mike Saunders) N2/N6C, Ms. Diane Gronewold (4) PEO SS/C4I: RDML Christian Becker, CAPT Bruce Dickey, Dr. Clifton Phillips, CDR David Gast (2) Space Cadre Advisor: CAPT Patrick Owens; Assistant Advisor: CDR Cole Hayes SPAWAR 5.0: Dr. Clifton Phillips, CDR David Gast SSFA/NRO: CAPT Rudesill, LCDR Matt DeMartino (13) STRATCOM: CAPT Jeffrey Austin, Mr. Dan Stanley, LCDR Ken Froberg (4) USMC, MAGTF Space Plans: Col. Stephen Hoyle, Maj. Horvath, Capt. Hatch (3-5) USA, SMDC/FA40: COL(P) Farnsworth, Mr. Mike Connolly, Mr. James Schlichting, Mr. Larry Mize (3-5) NAVCYBERFOR: CAPT Kevin Johnson, LCDR Adam Dejesus, LCDR Ralph Stephens (1) FCC/10 TH Fleet: CAPT William Kimmel, Dir of Space Operations (1) JFCC Space: CAPT Joseph Spegele, CoS (1) NETWARCOM: CDR Kenneth Bates (0) NAVSOC: LCDR Lane Askew, XO (0) NPS Senior Marine: Col. Mitchell McCarthy AFIT: Col Tim Sands USNA: CDR Alan Blocker, CDR Jeff King Not included: OSD, DNI, NAVOBSY, USNELDODPOPACOM (1 ea) USNR Space Cadre Advisor: CDR Suresh Thadhani 591 SSE Curric: MAS: NAVSEA, VADM William Hilarides / NAVSEA 05, RDML Bryant Fuller & Mr. Bob Klocek MAS designated SME: SSFA 05, RDML Rodman (Diane Larson) / PEO SS/C4I, RDML Christian Becker (Renee Mccabe) Working Group Lead for SME: Mr. Roger Jaskot SPAWAR 5.0: Dr. Clifton Phillips, CDR David Gast SSFA/NRO: CAPT Rudesill, LCDR Matt DeMartino USAF/NRO: Col(ret) Karl Eager, AFIT: Col Tim Sands Space Cadre Advisor: CAPT Patrick Owens; Assistant Advisor: CDR Cole Hayes NAVCYBERFOR: CAPT Kevin Johnson, LCDR Adam Dejesus, LCDR Ralph Stephens PEO SS: CAPT Bruce Dickey, Dr. Clifton Phillips, CDR David Gast NETWARCOM: CDR Kenneth Bates NAVSOC: LCDR Lane Askew, XO (0) USNA: CDR Alan Blocker, CDR Jeff King USNR Space Cadre Advisor: CDR Suresh Thadhani

5 5 Review Quota Data 6206P: 5500P: Designator Total P: Designator Total

6 6 SSO Graduation Years

7 7 SSE Graduation Years

8 8 6206P/Q Billets vs FY Quota

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10 P Billets vs FY Quota

11

12 12 Review CSRs Core Skills Requirements include text description of skills as well as appropriate billet subspecialty coding basis Please review respective curriculum review letters, enclosure 3, for details on billet base and community manager approvals

13 13 SSO/6206 CSRs The Space Systems subspecialty code (6206) is achieved through an 18-month curriculum, including any required refresher training, intended to provide a command with an officer who can plan and manage the operation, tasking and employment of space surveillance, intelligence collection, communications, navigation and atmospheric/oceanographic/ environmental sensing systems. The following is a representative sample of requirements for which this subspecialty applies: ‒ On following 2 slides…

14 14 SSO/6206 CSRs 1.Space System Processes: Officers will be able to formulate operational requirements, plans, policies, architectures, operational concepts, doctrine and tactics for development and employment of space systems and the tasking, collection, processing, evaluation, and dissemination information products derived from space- based systems. 2.Space System Capabilities and Design: Officers will have knowledge of the space environment, spacecraft design and operation, space systems technologies. 3.Orbital Mechanics and Analysis: Officers will have knowledge of orbital mechanics, systems analysis and integration, as well as information and knowledge management.

15 15 SSO/6206 CSRs 4.Space Liaison: Officers will perform liaison with other services, agencies, and/or industry concerning policy and procedures for operational employment of space systems and their information products. 5.Space Systems Assessment: Officers will perform operational evaluation of space systems performance. 6.Decision Superiority: Officers will provide recommendations to senior decision-makers regarding space systems operations, including the benefit of added space-based capabilities and the impact to operations if current space-based systems capabilities are denied to the force.

16 366 Space Systems Operations USN 18-Month Matrix BOLD= Satisfies an ESR Fall Entry Includes: Final Design Project Integrated JPME Thesis (classified?) SECNAV Guest Lectures SS4000 Lectures 6206 P-Code TS/SCI Courses* Degree: MS-Space Systems Ops Entrance Requirement: APC = 334 or tailored refresher option Academic Associate: LCDR Steve Tackett (ret) 16 1F PH2514 Space Environment NW3230 Strategy & Policy PH3052 Remote Sensing SS3011 Space Technologies & Applications 2W NW3285 NSDM EO3516 Intro Communication Systems Engineering AE4830 S/C Systems I SS3500 Orbital Mechanics and Launch Systems 3S SS3041 Space Systems & Ops 1 EO4516 Communication Systems Analysis AE4831 S/C Systems 2 Elective 4S SS3051* Space Systems & Ops 2 SS0810 Thesis Research SS3001* Military Applications of Space SS3613 MILSATCOM Systems 5F SS4051 Military Space Systems/Arch SS0810 Thesis Research ElectiveNW3275 JMO Part 1 6W SS0810 Thesis Research SS0810 Thesis Research ElectiveNW3276 JMO Part 2 P - Code Elective JPME See Notes for Summary of Changes

17 366 Space Systems Operations USMC/USA 24-Month Matrix BOLD= Satisfies an ESR Summer Entry Includes: Final Design Project Thesis (classified?) DAU certificates SECNAV Guest Lectures SS4000 Lectures 6206 P-Code TS/SCI Courses* Degree: MS-Space Systems Ops Entrance Requirement: APC = 334 with required refresher quarter Academic Associate: LCDR Steve Tackett (ret) 17 Other P - Code Elective 0S MA1113 Single Var Calc MA1114 Matrix Algebra PH1121 Mechanics SS3011 Space Technologies & Applications 1F PH2514 Space Environment MO1903 Applied Math for Space Systems PH1322 Electricity & Magnetics PH3052 Remote Sensing 2W MN3331 ACQ Management EO3516 Intro Communication Systems Engineering AE4830 S/C Systems I SS3500 Orbital Mechanics and Launch Systems 3S SS3041 Space Systems & Ops 1 EO4516 Communication Systems Analysis AE4831 S/C Systems 2 SS3600 Modeling & Simulation 4S SS3051* Space Systems & Ops 2 SS3001* Military Applications of Space SS3613 MILSATCOM Systems Elective 5F SS4051 Military Space Systems/Arch SS0810 Thesis Research AE4860 Space Control Elective 6W NS4677 Space & International Security SS0810 Thesis Research Elective 7S SS0810 Thesis Research SS0810 Thesis Research IW3101 Intro to Info Warfare Elective

18 18 Fall Entry Includes: Unclassified Three electives Required IT courses Degree: MS-Space Systems Ops Entrance Requirement: APC = 324 or refresher Academic Associate: LCDR Steve Tackett (ret) 364 Space Systems Operations International 18-Month Matrix 1F IT1600 Communication Skills for Int’l Officers PH2514 Space Environment PH3052 Remote Sensing SS3011 Space Technologies & Applications 2W EO3516 Intro Communication Systems Engineering SS3500 Orbital Mechanics and Launch Systems AE4830 S/C Systems 1 IT1500 Informational Program Seminar for Int’l Officers 3S EO4516 Communication Systems Analysis IT1700 Academic Writing for Int’l Officers AE4831 S/C Systems 2 SS3600 Space Systems Modeling & Simulation 4S IS3502 Network Operations I SS0810 Thesis Research Elective 5F SE3100 Fundamentals of Systems Engineering SS0810 Thesis Research GB3031 Principles of ACQ Management Elective 6W EC4590 Communications Satellite Systems SS0810 Thesis Research SS0810 Thesis Research NS4677 Space and International Security Prerequisite Degree Elective Required Int’l

19 19 G - Code Elective JPME Fall Entry Includes: Thesis 6206 G-Code Degree: MS-Space Systems Ops Entrance Requirement: APC = 334 or 2.6 GPA Academic Associate: CDR Mark Rhoades (ret) 316 SSO Distance Learning 24-Month Matrix 1F SS3011 Space Technologies & Applications PH2514 Space Environment 2W PH3052 Remote Sensing SS3500 Orbital Mechanics and Launch Systems 3S EO3516 Intro Communication Systems Engineering AE4830 S/C Systems I 4S EO4516 Communication Systems Analysis AE4831 S/C Systems 2 5F SS3041 Space Systems & Ops 1 SS3613 MILSATCOM Systems 6W SS3051* Space Systems and Ops 2 SS0810 Thesis Research 7S SS4051 Military Space Systems/Arch SS0810 Thesis Research 8S SS0810 Thesis Research * Or elective if student does not have access to SIPR

20 20 Fall and Spring Entry Includes: Oct or Apr start Four quarters Unclassified Option for Classified course: SS3051 In residence or DL Focus on fleet and FMF operators Space Systems Certificate Entrance Requirement: Baccalaureate w/above average grades College Algebra 2 with a C or higher College Physics with a C or higher No APC requirement Academic Associate: LCDR Steve Tackett (ret) Q1 SS3011 Space Technologies & Applications Q2 PH3052 Remote Sensing Q3 SS3613 MILSATCOM Systems Q4 PH2514 Space Environment SS3051 Space Systems & Ops SSO Certificate 12-Month Matrix Cert / L – Code Classified Option

21 Questions or Comments? Break for SSE…

22 22 SSE/5500 CSRs The Space Systems Engineering subspecialty code (5500) is intended to provide a command with an officer who has the technical knowledge to plan and manage the development, design, acquisition, operation, tasking and employment of space surveillance, communications, navigation and atmospheric/oceanographic/ environmental sensing systems throughout their lifecycle. The following is a representative sample of requirements for which this subspecialty applies: ‒ On following 2 slides…

23 23 SSE/5500 CSRs 1.Formulate operational requirements, plans, policies, architectures, operational concepts, doctrine and tactics for development and employment of space systems and the information products, or the distribution, correlation and analysis of their information products. 2.Technical knowledge of the space environment, spacecraft design and operation, space systems technologies (e.g. launch systems, astronautics, spectral sensors, communications). 3.Proficient in orbital mechanics, systems analysis and integration, information management and digital processes.

24 24 SSE/5500 CSRs 4.Perform liaison with other services, agencies, and/or industry concerning policy and procedures for requirements development and analysis for the design, acquisition and operational employment of space systems, ground support segments and their information products. 5.Perform technical evaluation of space systems design and performance. 6.Provide recommendations to senior decision-makers regarding space systems engineering.

25 0S MA2043 Matrix Algebra MA1115/6 Multi-Variable Calculus PH1121 Mechanics NW3230 Strategy & Policy 1F PH1322 Electromagnetism MA2121 Differential Equations AE2820 Spacecraft Structures EC2820 Digital Logic Circuits 2W SS3500 Orbital Mechanics PH2514 Space Environment MA3046 Matrix Analysis EC2300 Control Systems 3S AE3815 S/C Rotational Mechanics EO2525 Probabilistic Analysis PH3052 Remote Sensing Track 4S AE3851 S/C Propulsion EO3525 Communications Engineering PH3360 EM Wave Propagation Track 5F AE3804 Thermal Control of S/C AE3818 S/C ADC Track 6W AE3870 Computational Tools SS3051* Space Systems & Operations SS3001* Military Applications of Space AE0810 Thesis Research 7S AE4870 S/C Design & Integrations I EC3230 Space Power SS3035 Microprocessors for Space Track 8S AE4871 S/C Design & Integrations II MN3331 Project Management AE0810 Thesis Research NW3275 JMO Part 1 9F AE0810 Thesis Research AE0810 Thesis Research NW3285 NSDM NW3276 JMO Part 2 Prerequisite P - Code Degree JPME Fall Entry Includes: Final Design Project Integrated JPME Degree Specialization SECNAV Guest Lectures SS4000 Lectures 5500P Code TS/SCI Courses* ABET Degree Options: MS-Astro MS-Electrical MS-Mechanical WASC Degree Options: MS-Computer Science MS-Physics Entrance Requirement: APC = 323 Academic Associate: CAPT Al Scott (ret) 591 Space Systems Engineering 27-month Matrix 29 NOV 11

26 All engineering programs at NPS are undergoing accreditation by the Accreditation Board for Engineering and Technology (ABET) in 2013 ― Curriculum review process is leveraged extensively for accreditation purposes Shows ABET we are closely tied to our sponsors Provides a process for continuous improvement In conjunction with the 2013 accreditation, ABET Program Educational Objectives (PEOs) were updated to more closely comply with ABET guidance ― Previous PEOs used the 591 Educational Skill Requirements (ESRs) This approach mirrored the curriculum review process and provided excellent linkage to the program sponsor However, ESRs are too detailed to serve as ABET PEOs, which are intended to be “broad statements that describe what graduates are expected to attain within a few years after graduation” ― PEOs are now consistent with Core Skill Requirements (CSRs) ― ESRs will continue to be captured in ABET Student Outcomes (see following slides) ABET Accreditation 26

27 The overall educational objective of the Astronautical Engineering program is to support the NPS mission by producing graduates who have knowledge and technical competence, at the advanced level in Astronautical Engineering, to support national security. In order to achieve this goal, the specific objectives are to produce graduates who have knowledge and technical competence in the following areas (aligned with ESRs): Orbital Mechanics, Space Environment and Remote Sensing Military Space Systems Project Management and System Acquisition Spacecraft Communications and Signal Processing Computers: Hardware and Software Spacecraft Dynamics, Guidance and Control Spacecraft Structures and Materials Propulsion Systems Spacecraft Thermal Control and Power Spacecraft Design and Integration Original ABET PEOs 27

28 The overall educational objective of the NPS Astronautical Engineering program is to support the NPS mission by producing graduates who have, at an advanced level, knowledge and technical competence in astronautical engineering and who can use that knowledge and competence to support national security. Specific Program Educational Objectives (i.e., skills and abilities that graduates can bring to their position after having graduated from NPS and receiving 3-5 more years of on-the-job training and professional development) include: Technical Expertise* Leadership* Operational Utilization* *See notes Updated ABET PEOs 28

29 Student Outcomes for the NPS Astronautical Engineering program are: 1. Graduating students will have knowledge and skills equivalent to an ABET-accredited BSAE. 2. Graduating students will have advanced level knowledge in Astronautical Engineering as demonstrated by the ability to apply masters level knowledge in one of the available specialized disciplines of Astronautical Engineering. 3. Graduating students will have high level of communication skills including technical writing and oral presentation. 4. Graduating students will have the ability to independently identify, formulate and solve technical and engineering problems in Astronautical Engineering. 5. Graduating students will have the ability to apply technical knowledge in a leadership role related to national security. To fulfill their future responsibilities and meet the intent of Student Outcome 5, the program sponsor has specified that Navy officer graduates have technical knowledge and competence in the following specific areas (aligned with ESRs): Updated ABET Student Outcomes 29 Orbital Mechanics and Space Environment National Security Space Systems Project Management and System Acquisition Spacecraft Communications and Signal Processing Computers: Hardware and Software Spacecraft Guidance and Control Spacecraft Structures, Materials and Dynamics Propulsion Systems Spacecraft Thermal Control Spacecraft Power Remote Sensing and Payload Design Spacecraft Design, Integration and Systems Engineering0

30 The six year ABET accreditation cycle was completed this year Self-study report submitted to ABET 27 June 2013 Accreditation team visit was 8-10 September 2013 Request sponsor approval of updated Program Educational Objectives ABET Accreditation 30

31 Questions or Comments?


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