Onsite Program

Sponsored by The Military Division of The Institute of Navigation Joint Navigation Conference 2015 “Military Navigation Technology: The Foundation for Military Ops”

ONSITE PROGRAM

June 22-24, 2015 • FOUO Tutorials: June 22 • FOUO Technical Sessions: June 23-24 Renaissance Orlando at SeaWorld, Orlando, Florida Classified Session will be held June 25 at Shades of Green on Walt Disney World Resort

Registration Hours: Sponsors: Monday, June 22: 9:00 a.m. – 5:00 p.m. Tuesday, June 23: 7:30 a.m. – 5:00 p.m. JNC Mobile Website: Wednesday, June 24: 7:30 a.m. – 5:00 p.m. m.ion.org

Conference Dress: Battledress uniform or business casual.

Conference Proceedings: Official conference proceedings are scheduled for distribution in Onsite Program: July to all eligible conference participants.

Passcodes for Wireless Internet: Network: Renaissance_CONF Media: Access Code: jnc2015

Note: Renaissance meeting room connectivity and sleeping room connectivity are on separate networks. The JNC internet codes will not work in your sleeping room and vice versa.

www.ion.org/jnc Technical Session Overview June 22–25, 2015 Orlando, Florida

ROOM: Oceans Ballroom 1 Oceans Ballroom 2 Oceans Ballroom 3 Oceans Ballroom 4

MONDAY, JUNE 22

Tutorial: Modernized GPS Security Tutorial: Time or No Time: Precise 10:30 a.m. – 12:00 p.m. Tutorial: GPS 101 Certification an Approval Process Time & Frequency

Lunch: 12:00 p.m. – 1:30 p.m. (Lunch is on your own) Tutorial: Modernized M-Code Tutorial: Fundamentals of GPS/GNSS Anti- 1:30 p.m. – 3:00 p.m. Receiver Integration Tutorial: Submersible Navigation jam Adaptive Antenna Systems: Solutions and Performance Benefits for NAVWAR Break: 3:00 p.m. – 3:30 p.m. Panel Discussion - Navigation Panel Discussion - Dismounted Soldiers and First Responders: The Nexus (Oceans 3:30 p.m. – 5:00 p.m. Software Frameworks: What We Ballroom 3/4) Have/What We Need TUESDAY, JUNE 23 Track A: Sharon Donald Track B: Kevin Coggins Track C: John Langer Track D: Dr. Mikel Miller C.S. Draper Laboratory US Army PM PNT The Aerospace Corporation AFRL A1: Inertial Measurement Unit D1: Alternate Navigation Technologies 1: B1: Multi-GNSS Receivers for C1: M-Code is Here 1 8:30 a.m. – 10:00 a.m. (IMU): Fabrication, Packaging and Military Applications Naturally Occurring Measurement Sources Testing Part 1 Break in Exhibit Hall: 10:00 a.m. – 10:30 a.m.

10:30 a.m. – 12:00 p.m. Plenary Session 1 ( Oceans Ballroom 3/4) Lunch in Exhibit Hall: 12:00 p.m. – 1:30 p.m. A2: Inertial Measurement Unit D2: Alternate Navigation Technologies 1: B2: Operational Product C2: M Code is Here 2 1:30 p.m. – 3:00 p.m. (IMU): Sensor Phenomena and Naturally Occurring Measurement Sources Demonstrations 1 Design Part 2 Break in Exhibit Hall: 3:00 p.m. – 3:30 p.m.

B3: PNT Test Methods and D3: Alternate Navigation Technologies 2: RF 3:30 p.m. – 5:00 p.m. A3: Modeling and Simulation C3: GPS Modernization Capabilities Aided (Non-GPS) Exhibitor Hosted Reception: 6:00 p.m. – 8:00 p.m. WEDNESDAY, JUNE 24 B4: Application/Impact of GPS A4: Multi-Sensor Solutions for C4: GPS in Military Applications/ 8:30 a.m. – 10:00 a.m. Technologies in Homeland Critical D4: Alternate Navigation Technologies 3: Guidance, Navigation and Control NAVWAR 1 Vision Aided Intrastructure Break in Exhibit Hall: 10:00 a.m. – 10:30 a.m.

10:30 a.m. – 12:00 p.m. Plenary Session 2 ( Oceans Ballroom 3/4)

Lunch in Exhibit Hall: 12:00 p.m. – 1:30 p.m. A5: Atomic Clocks and Timing B5: Operational Product C5: GPS in Military Applications/ D5: Collaborative Navigation Techniques 1:30 p.m. – 3:00 p.m. Applications Demonstrations 2 NAVWAR 2 (Ocean’s Ballroom 6) Break in Exhibit Hall: 3:00 p.m. – 3:30 p.m. B6: Space and Satellite C6: Military GPS Receivers and D6: Robust Navigation Systems/Solutions 3:30 p.m. – 5:00 p.m. A6: Precision Azimuth Sensing Applications Military GPS Receiver Technology (Ocean’s Ballroom 6)

THURSDAY, JUNE 25 7:00 a.m Buses Depart Hotel 7:45 a.m.–8:25 a.m. Security Validation 8:25 a.m.–8:40 a.m. Introduction 8:40 a.m.–11:55 a.m. E1: Classified Session: NAVWAR Threats and Operations Lunch: 11:55 a.m. – 12:55 p.m.

12:55 p.m.–2:55 p.m. E2: Panel Discussion: Warfighter Crosstalk

3:25 p.m.–5:35 p.m. E3: Classified Session: NAVWAR Emerging Capabilities

5:40 p.m. Buses Load Note that the photographing of sessions/presentations and/or the audio or video recording of sessions/presentations is prohibited. As a courtesy to others, please silence all mobile devices. No electronic devices will be permitted in the classified sessions.

2 JNC 2015 Floor Layout Government Liaisons

ION Military ION Military Division Program Chair Program Co-Chair Division Chair Vice-Chair Bill Bollwerk Neeraj Pujara Jan Anszperger Elliott Kaplan Naval AFRL Sensors C.S. Draper The MITRE Observatory Directorate Laboratory Corporation

Track: A Track: B Track: C Track: D Sharon Donald Kevin Coggins John Langer Dr. Mikel Miller C.S. Draper Army PM PNT The Aerospace AFRL Laboratory Corporation

Tutorials Chair Classified Sessions Ron Beard John Del Colliano Greg Graham Robert Greenlee Naval Research Army CERDEC Army AMRDEC Joint Navigation Laboratory Warfare Center

James T. Doherty Eddy Emile Don Jewell Jalal Mapar Institute for GPS Directorate Institute for Department of Defense Analysis USAF Defense Analysis Homeland Security

Paul Olson Dr. Thomas Army CERDEC Powell The Aerospace Corporation

3 Exhibit Hall Information

Tuesday, June 23 Wednesday, June 24 JNC Conference Events 10:00 a.m.- 4:00 p.m. Exhibits Open 10:00 a.m.- 4:00 p.m. Exhibits Open Tuesday, June 23 12:00 p.m.-1:30 p.m. Lunch in Exhibit Hall 12:00 p.m.-1:30 p.m. Lunch in Exhibit Hall Informal Lunch with Exhibitors: 6:00 p.m.- 8:00 p.m. Exhibitor Hosted Reception 12:00 p.m.–1:30 p.m., Exhibit Hall This event is included in the price of a full registration. All conference refreshments will be served in the exhibit hall during hall hours on Guest tickets may be purchased for $60 Tuesday and Wednesday. each. Exhibitor Hosted Reception: 6:00 p.m.–8:00 p.m., Exhibit Hall FLOOR PLAN Join exhibitors as they host an evening of information and cuisine. A cash bar will be offered. This event is included with any type of registration. Spouses and traveling companions ages 21 years and older are welcome to attend.

Wednesday, June 24 Informal Lunch with Exhibitors: 12:00 p.m.-–1:30 p.m., Exhibit Hall This event is included in the price of a full registration. Guest tickets may be purchased for $60 each.

Thursday, June 25 Informal Lunch for Classified Session Attendees: 11:55 a.m.–12:55 p.m., Shades of Green This event is included in the price of a full registration.

See www.ion.org/jnc for a current list of exhibiting organizations.

4 FOUO and Classified Session Requirements

FOUO US ONLY SESSIONS CLASSIFIED US ONLY SESSION (Monday-Wednesday, June 22–24) (Thursday, June 25)

All sessions and exhibits will be held in an US ONLY FOR OFFICIAL USE The classified session will be held in a classified US ONLY environment ONLY (FOUO) environment at the Renaissance Orlando at SeaWorld. To at Shades of Green on Walt Disney World. Information required for attend you must provide the following: clearances is as follows: 1. Proof of US citizenship. Classification: Secret 2. Visit Request/including a Need-to-Know Statement (Need-to-Know Visit Type: One Time not required if using JPAS) Request Type: Facility Invitation 3. Photo ID Request Category: Government 4. JNC Conference Badge and Paid Registration Anticipated Level of Classified Information: Secret Visit Request and Need-to-Know Statements: Visit Dates: 25 June 2015 All Visit Requests must be received by May 18, 2015 and be verified by Purpose of Visit: Attend the 2015 Joint Navigation Conference, Orlando, FL the JNWC Security Office. Facility Information: Shades of Green on Walt Disney World Prospective U.S. attendees must submit their Visit Authorization Requests Way to Contact: E-mail through JPAS to JPAS SMO: OD3QFJ6ZB6. JPAS visit request POC Name: Joint Navigation Warfare Center/USSTRATCOM field must be filled with “JNC 2015” instead of a POC name. For your Program/Agreement: Navigation Warfare MOU convenience, if JPAS is not an option, a Visit Request Form can be found at www.ion.org/jnc. Knowledgeable US POC: Name: Diane Jacobson, Personnel Security Specialist It is recommended that personnel planning to attend the FOUO or classified sessions verify that their Visit Request has been received Phone: 505-853-6360/Fax: 505-853-6677 and verified by the JNWC security office prior to making any travel Email: [email protected] arrangements. Visit authorization requests received after May 18, 2015 may not be processed. Organization: Joint Navigation Warfare Center/USSTRATCOM On-Site Security Support Provided by: Fax all FOUO Visit Requests to: Ms. Sonya Gonzalez, Personnel Security Specialist Diane Jacobson, Personnel Security Specialist JNWC/JFCC SPACE/USSTRATCOM 1351 Wyoming Blvd SE, Bldg 20201 Kirtland AFB, NM 87117 Phone: 505-853-6360; Fax: 505-853-6677 Email: [email protected]

Transportation/Parking for Classified Session Conference management highly recommends taking advantage of the bus transportation provided to and from the classified session at Shades of Green on Walt Disney World. However, parking is available. Note that busing will only be provided in the morning and the evening (no mid-day shuttles will be available).

Driving Directions from Renaissance to Shades of Green 1. Head southwest on Sea Harbor Dr toward Academic Dr. 6. Exit onto World Dr. 2. Take the 2nd right onto Central Florida Pkwy 7. Turn left onto Seven Seas Dr. 3. Slight left to merge onto I-4 W toward Tampa 8. Turn right onto Floridian Way 4. Take exit 67 toward Epcot/Downtown Disney 9. Turn left onto Magnolia Palm Dr. 5. Merge onto Epcot Center Dr. 10. Arrive at 1950 Magnolia Palm Dr., Lake Buena Vista, FL 32830

5 Tutorials, Monday, June 22 10:30 a.m. – 12:00 p.m.

All tutorials will be held in an FOUO US ONLY environment. Tutorials are included in a full registration or Monday single day registration.

Modernized GPS Security Certification and Approval Process (Oceans Ballroom 1)

Security certification includes a thorough technical review of a modernized GPS device for compliance with information assurance, cryptographic and anti-tamper requirements. Following successful certification, security approval is required prior to Doug operational use by authorized military users and prior to export to authorized foreign countries. The security approval process Martoccia, for modernized GPS equipment includes assessment of new functions, such as modernized anti-spoof capabilities, which were The Aerospace not part of the legacy approval process. This tutorial describes how some aspects of legacy certification and approval processes Corporation have been streamlined, assesses new capabilities unique to modernized equipment, and incorporates the technical assessment of integrity and assurance functions required for security certification and approval. Doug Martoccia began working on GPS in 1995 as the Air Force Space Vehicle lead for Block IIF development, and has been heavily involved in the initial GPS modernization trade studies for M-Code, L5 and subsequently GPS III. He is currently the Chief Engineer for Modernized User Equipment at Aerospace Corporation where he does systems engineering and integration for NAVWAR, including finalizing the M-Code architecture across the mission planning system, control segment, space segment and user equipment.

Time or No Time: Precise Time & Frequency (Oceans Ballroom 3) This tutorial will introduce precise time and frequency (PT&F) generation, dissemination and applications in systems. An overview of the fundamentals of PT&F signals and how they are generated and determined will be discussed. This will include Ron Beard, an introduction to time scales, those in use, and their origin, to provide an understanding of how traceability of PT&F is needed Naval Research throughout its generation, dissemination and use. The distinction between global time scales and those generated and used Laboratory within systems will be described to provide an understanding of their basic differences and strengths. The distinctions and commonalities between telecommunications and navigation positioning will be described. How GPS has become the primary time dissemination system and time transfer interfaces with many and varied systems will be covered. The session will conclude with a projection of future directions of PT&F. Ron Beard is the head of the Advanced Space PNT Branch (formerly the Space Applications Branch) at the Naval Research Laboratory (NRL) where he has made significant contributions to the generation and dissemination of precise time from space over the course of his 40-year career.

GPS 101 (Oceans Ballroom 4) This course presents the fundamentals of the GPS system, and is intended for people with a technical background who do not have significant GPS experience. Topics covered include time-of-arrival positioning, overall system design of GPS, signal Dr. John Raquet, structure, error characterization, dilution of precision (DOP), differential GPS, and GPS modernization. Air Force Institute Dr. John Raquet is the director of the Advanced Navigation Technology (ANT) Center at the Air Force Institute of Technology, of Technology where he is also an associate professor of electrical engineering. He has been involved in navigation-related research for over 22 years, has published over 140 navigation-related conference and journal papers and taught 44 navigation-related short courses to over 1500 students. He is the recipient of numerous awards and is an ION Fellow. He received his PhD in Geomatics Engineering from the University of Calgary and MS in Aeronautical/Astronautical Engineering from MIT.

Lunch is on Your Own

6 Tutorials, Monday, June 22 1:30 p.m. – 3:00 p.m.

All tutorials will be held in an FOUO US ONLY environment.Tutorials are included in a full registration or Monday single day registration.

Modernized M-Code Receiver Integration (Oceans Ballroom 1) The current integration of military GPS receivers into integrated platform/weapon systems is limited to the four possible combinations of pre-Selective Availability/Anti-Spoof Module (pre-SAASM) and SAASM GPS receivers. These receivers can reside either in the platform itself or one of the weapons it carries. With the introduction of the modernized GPS M-Code receiver, there are now nine possible combinations of Pre-SAASM, SAASM, and M-Code GPS receivers that could reside on the platform Steve Callaghan, or in the associated weapons. Platform/Weapon integrations must be able to support a mixed load of weapons with Pre-SAASM, The Aerospace Corporation SAASM, and M-Code GPS receivers. Platform Mission Computer Operational Flight Program (OFP) changes will be required. This tutorial provides proposed GPS key loading sequences and navigation message data transfer considerations for integrated platform/weapon systems. It presents the data transfer integration concept of “Modify the OFP once and modify the GPS Receivers on each end of the integration, as needed.” This concept accommodates possible changes to the GPS key loading sequence and possible changes to the data content of the M-Code navigation message without having to change the Platform OFP. Steve Callaghan is a Senior Project Engineer at The Aerospace Corporation, where he supports the GPS Directorate User Equipment Group in the areas of requirements, interfaces, test vectors, and security approvals. Mr. Callaghan received a BS in Engineering from Tenny Sharpe, The Aerospace the University of Southern California, Los Angeles. He has over 30 years of experience in the development of aerospace and industrial Corporation electronics. Tenny Sharpe is a Senior Project Engineer at The Aerospace Corporation where he supports the GPS Directorate User Equipment Group serving as their Senior Navigation Engineer and is part of the team defining the next generation of modernized military GPS user equipment. Mr. Sharpe received a B.S. in Physics from Case Institute of Technology and a M.S. in Computer Science from the University of California, Los Angeles.

Submersible Navigation (Oceans Ballroom 3) This brief course provides an introduction to the unique navigation requirements and techniques of submersibles. Their generally infrequent satellite/radio navigation opportunities and inherently covert and at depth missions mandate an inertial measurement unit as the kernel of the navigation subsystem. A “port-to-port” inertial navigator has been the Holy Grail for submersible navigation, but tradeoffs of size, weight, power and cost necessitate some reliance on augmenting technologies. The theory and Marvin B. May, ARL Penn State’s operation of inertial navigation is introduced. Categories of inertial navigators are discussed including a survey of applicable IMUs. Navigation Their unaided error propagation characteristics, largely a function of gyroscope size and cost, are summarized. The augmenting Research & sensors discussed include “pseudo-GNSS” techniques, Doppler velocity sensors, transponder navigation and geophysical Development navigation. Geophysical Navigation correlates a priori maps of bathymetric, gravity, magnetic and/or ocean current maps with the Center corresponding measurement from onboard sensors to reset the inertial navigator. The complementary nature of the techniques are presented in the context of a representative Unmanned Underwater Vehicle scenario. Marvin B. May is the Chief Navigation Technologist at Penn State’s ARL Navigation Research and Development Center, where he also teaches navigation courses. He has a BSEE from City College of NY and a MS Degree from New York University and Polytechnic Institute, doctoral courses at Polytechnic Institute and is a Professional Engineer. His experience includes eight years as the Navy’s chief analyst for GPS. He is the recipient of PSU/ARL Director’s Award (2013), the ION’s Weems Award (2007) and is an ION Fellow. Fundamentals of GPS/GNSS Anti-jam Adaptive Antenna Systems: Solutions and Performance Benefits for NAVWAR (Oceans Ballroom 4) This tutorial reviews the various adaptive antenna technologies that are both currently operational and proposed for military applications to mitigate the effects of jamming and unintentional interference on GPS and GNSS signal reception and navigation Dr. Ira Weiss, in an electronically contested Navigation Warfare (NAVWAR) environment. The performance benefits and limitations of currently The Aerospace fielded and evolving adaptive antenna system technologies will be presented. The building blocks of adaptive antenna systems are Corporation discussed, including antenna arrays, antenna electronics, and signal processing algorithms, including the implications of operating over the entire GNSS band. An overview of techniques and metrics used to test and characterize adaptive antenna systems is presented. The course is useful for engineers, managers and other technical personnel who want to gain an understanding of the increasingly important subject of GPS/GNSS interference suppression techniques and trade-offs for military applications in a NAVWAR environment. Dr. Ira M. Weiss is a Senior Engineering Specialist for The Aerospace Corporation in the Communication Systems Engineering subdivision, where he has worked in GPS-related areas for over 30 years. He directed simulation tasks as part of the NAVWAR Allen Morrison, modeling effort, investigating advanced GPS receiver antenna performance, and has participated in acquisition and testing of GPS Booz Allen anti-jam adaptive antenna systems. Hamilton Allen W. Morrison is a Lead Associate at Booz Allen Hamilton Engineering Services, where he is working on the application of digital signal processing techniques for interference mitigation in GPS-based navigation systems. For the past 22 years, he has been involved in the requirements definition, simulation, evaluation, acquisition, fabrication, and testing of many variants of adaptive spatial, temporal, and spectral filter technologies for enhancing GPS receiver performance in the presence of jamming and interference in a NAVWAR environment. 7 Monday, June 22 3:30 p.m. - 5:00 p.m.

Panel Discussion–Dismounted Soldiers and First Responders: The Nexus (Oceans Ballroom 3/4) The war fighter and the first responders operate in different environments. However, in accomplishing their specific missions both responders and war fighters require capabilities that are largely based on the same set of technologies and equipment. For example a war fighter operating in the theater requires situational awareness enabled by GPS devices, information sharing/awareness (radios, command & control), goggles, and personal protective equipment. A first responder responding to an emergency (fire, hazmat, etc.) requires similar Jalal Mapar, capabilities intended for a different purpose. This panel will compare and contrast the needs and capabilities of both war fighter (DoD) DHS and first responders (DHS) and discuss the similarities between the two groups.

Navigation Software Frameworks–What We Have/What We Need (Oceans Ballroom 1) This session introduces a navigation software suite currently being developed by AFIT and AFRL that includes three components: SPIDER, implemented in MATLAB, includes components for high-accuracy trajectory estimation and navigation sensor simulation. This trajectory estimation software is a plug-and-play framework capable of incorporating user created sensor measurements modules using traditional filtering methods. Typical filter design tasks such as measurement sequencing and state vector management are handled Dr. John Raquet, Air automatically. SPIDER sensor measurements that will be discussed include IMU, GPS, DGPS, carrier phase GPS, and barometric Force Institute of altimeter. FLY, the sensor measurement simulation tool, is used for generating high fidelity sensor measurements over a given trajectory Technology using common format models of the physical world. FLY supports user defined sensor modules and output file formats. SCORPION, a real-time filtering framework that is currently being implemented in C++ and Python, will also be introduced.

Mark Smearcheck, AFRL Sensors Directorate

8 Tuesday, June 23 8:30 a.m. - 10:00 a.m.

Session A1: Inertial Measurement Unit (IMU): Fabrication, Packaging and Testing (Oceans Ballroom 1) 8:35 Independent Government Evaluation of the UCI/NGC Quad Mass Gyroscope: Clint Blankenship and Levi Ogle, AMRDEC 8:55 Making the First MEMS Navigation Grade Inertial Navigation System: K. Shcheglov, D. Smukowski, Sensors in Motion Inc.; K. Ezal, G. Johnson, Toyon Research Corp Dr. Adam Schofield, U.S. 9:15 MEMS Time Domain Switched Accelerometers Fabricated with a Three Mask Process and Novel Packaging: Paul D. Swanson Army CERDEC and Andrew Wang, SSC Pacific 9:35 Optical Resonant Cavity Sensitivity Enhancement via Anomalous Dispersion: Brian Grantham, Jones Hamilton, U.S. Army Dr. Ryan AMRDEC; Mark Smith, Engineering Systems and Planning, Inc.; Mark Bailey, Navigation Technology Associates, Inc. Supino, Alternates Honeywell 1. Hemispherical Resonator Gyro Performance in Dynamic Environments: David Rozelle, Matthew Spencer and Douglas Meyer, Northrop Grumman 2. Tactical Grade Quartz MEMS High Bandwidth Sensor: Shane Stone and Arvind Srivastava, Systron Donner Inertial

Session B1: Multi-GNSS Receivers for Military Applications (Oceans Ballroom 2) 8:35 Using Additional Signals in Military PNT Equipment: John W. Betz, The MITRE Corporation 8:55 Processing Multiple-GNSS Signals with Military GPS Equipment: Daniel Moulin and Larry Wiederholt, The MITRE Corporation

John Nielson, 9:15 Using Commercial Frequency Agile Transceivers for multi-GNSS Military Applications: Alison Brown, Kirk Madsen, Jarrett Rockwell Redd, and Josh Burns, NAVSYS Corporation Collins 9:35 Enabling Rapid Multi-GNSS Prototyping Using the GNSS Test Architecture (GNSSTA): Jeffrey Melville, The MITRE Corporation; Mark Carroll, Air Force Institute of Technology (AFIT); Alex Cerruti, Shawn Miller, Adam Shapiro, Brad Armstrong, Billy Zhong, Myles Neumann, The MITRE Corporation; Sanjeev Gunawardena, AFIT; Eddy Emile, SMC/GPUT; Jeff Hebert, AFRL/RYWN Alternate 1. Supplementing Military GPS with Multi-GNSS for Precision Survey: Trevor Landon and John Borden, Technology Advancement Dr. Jeff Hebert, Group, Inc. (TAG); Bo Gustafson and Valeriy Yarmola, DataGrid AFRL Sensors Directorate

Col. Steven Whitney, USAF Session C1: M-Code is Here 1 (Oceans Ballroom 3) SMC/GPU, 8:35 M-Code is Really Here: Rick Bieniak, Steve Alexander, Rich Townsend, Bob Stadel, L-3 Interstate Electronics Corporation LtCol James 8:55 Performance of MGUE Acquisition Engine: Phillip Bonilla, Raytheon, Space and Airborne Systems Wilson, USAF SMC/GPU 9:15 Rockwell Collins MGUE Anti-Jam Improvements: Karl Ulmer, Rockwell Collins 9:35 MGUE Flight Test Results: Isaac Nacita, Jennifer Yeom, 746th Test Squadron Alternates 1. CGM Architecture Approach for Embedded MGUE Applications: Jonathan Choi, Raytheon, Space and Airborne Systems 2. Application of Live Sky MNAV and CNAV Messages to PVT: Avram Tetewsky, Arnold Soltz, Jan Anszperger, Smith Jr., Draper Laboratory

Dr. Bryan Dorland, USNO Session D1: Alternate Navigation Technologies 1: Naturally Occurring Measurement Sources Part 1 (Oceans Ballroom 4) 8:35 Marine Navigation Using Crustal Magnetic Anomaly and Other Geophysical Sources: Douglas P. Stranghoener, Shon Sloat, and Kevin M. Betts, Leidos 8:55 Sferics for Time Synchronization and Navigation: Justin Gorgen, Lee Lemay, and Daniel Paschall, SSC Pacific 9:15 Compact Atomic Magnetometer for Navigation (Nav-CAM): Michael S. Larsen, Northrop Grumman 9:35 Precise Magnetic Velocity and Position (MVP) Sensing for Navigation in GNSS Denied Areas: Rick Vosburgh, Vrinda Dr. Christopher Haridasan, and Steve Kenyon, Physical Devices, Inc. Yu, C.S. Draper Laboratory Alternate 1. DoD Magnetic Field Models – the World Magnetic Model and Enhanced Magnetic Model: Eric Kihn, Arnaud Chulliat, Susan McLean, Patrick Alken, Manoj Nair, Adam Woods, Brian Meyer, NOAA/NCEI

Break in Exhibit Hall: 10:00 a.m. - 10:30 a.m. 9 Tuesday, June 23 10:30 a.m. - 12:00 p.m.

Plenary 1 (Oceans Ballroom 3/4) 1. Assistant Secretary Caitlin Durkovich, Infrastructure Protection, DHS 2. RADM Jon White, Oceanographer and Navigator, Navy (invited) 3. Maj Gen Martin Whelan, Director, Space Operations, Deputy Chief of Staff for Operations, Plans and Requirements, Bill Bollwerk, Naval Headquarters, USAF Observatory

Lunch in Exhibit Hall, 12:00 p.m. - 1:30 p.m. 10 Tuesday, June 23 1:30 p.m. - 3:00 p.m.

Session A2: Inertial Measurement Unit (IMU): Sensor Phenomena and Design (Oceans Ballroom 1) 1:35 Accelerometer Bias Self-Calibration: Laboratory Demonstration of a MEMS Accelerometer with Part-Per-Million Bias Error: Michael Bulatowicz, Northrop Grumman 1:55 A Hybrid Approach to an Atom-Interferometer Based IMU: D.M.S. Johnson, D. Butts, M. Bottkol, T. Thorvaldsen, S. Lim, R. Stoner, Dr. Robert J. Choy, J. Brown, M. Chaparala, S.P. Smith, Draper Laboratory; A. Rakholia, G. Biedermann, Sandia National Laboratory; M. Berarducci, Lutwak, DARPA Air Force Research Laboratory 2:15 Time Domain Switched Inertial Sensors: Paul D. Swanson and Andrew Wang, SSC Pacific Dr. Barry Roberts, Honeywell 2:35 Nuclear Magnetic Resonance Gyroscope: Michael S. Larsen, Northrop Grumman Alternate 1. Characterization of an Over-determined Navigation Module to Measure Sensor Performance: David Tarrant and Brian E. Grantham, U.S. Army AMRDEC; C. Turner Hughes and James T. Hughes, Navigation Technology Associates, Inc.

Session B2: Operational Product Demonstrations 1 (Oceans Ballroom 2) 1:35 GPS OCX Block 1 Day in the Life Demonstration: Chuck Corwin, Steve Moran, Steve Sorensen, Sarah Law, Walid Al-Masyabi, Raytheon Company, Intelligence, Information and Services; Jabari Loving, Infinity Systems Engineering 2:15 Evaluating GNSS Receivers using the PANACEA Hardware-in-the-Loop Test Platform: Tim Erbes, Kirk Meyer, Aaron Kaverman, Paul Olson, U.S. Marshall Haker, Greg Gerten, PreTalen Ltd; Patricia Geraci, AFRL Sensors Directorate Army CERDEC

Brenton Young, AOSense

Session C2: M-Code is Here 2 (Oceans Ballroom 3) 1:35 Army Platform Path to Assured PNT and GPS M-Code: Frank Rowe, U.S. Army PM PNT 1:55 Busting MGUE Transition Myths – The Integrator’s Guide to MGUE: Paul Huber, Rockwell Collins 2:15 Modernized MAGR 2000 Receiver: Joseph Ross and John Fleming, Raytheon, Space & Airborne Systems Brian Louie, USAF SMC 2:35 Enabling Assured PNT at all Threat Levels: Robert Horton, GPS Source, Inc.

Gary Okerson, Alternates SRI International 1. CGM Architecture Approach for Embedded MGUE Applications: Jonathan Choi, Raytheon, Space and Airborne Systems 2. Application of Live Sky MNAV and CNAV Messages to PVT: Avram Tetewsky, Arnold Soltz, Jan Anszperger, Smith Jr., Draper Laboratory

Dr. Stewart Session D2: Alternate Navigation Technologies 1: Naturally Occurring Measurement Sources Part 2 (Oceans Ballroom 4) DeVilbiss, AFRL Sensors 1:35 STELLA and Other Celestial Navigation Products and Services of the USNO: Nancy Oliversen, Jennifer Bartlett, U.S. Naval Directorate Observatory (USNO); George Kaplan, USNO/retired

Greg Spurlock, 1:55 Daylight Strapdown Star Tracker for Stellar-Inertial Navigation Applications: Kyle Miller, John Mastrangelo, Thomas Vaughan, GDS Innovative and Jay Speed, Ball Aerospace Systems 2:15 Satellite Observations Tightly-Integrated with Inertial Measurement Units for Navigation in GPS-Denied Environments: Scott Pierce and John Raquet, Air Force Institute of Technology; Greg Hennessy, United States Naval Observatory 2:35 Sky Polarization Azimuth Sensing System (SKYPASS): Todd Aycock, David Chenault, Art Lompado, Justin Vaden, John Reinhardt, Polaris Sensor Technologies, Inc.; Kirk Peake, Navigation Technology Associates., Inc. Alternate 1. Validation of Marine Gravity Survey Systems using Canal Lock Vertical Acceleration Signals: Richard V. Sailor, Edin Insanic, Raytheon BBN Technologies; Charles L. Medler, CM Analysis LLC; Eric W. Zettergren, Raytheon BBN Technologies; James C. Kinsey, Woods Hole Oceanographic Institution

Break in Exhibit Hall: 3:00 p.m. - 3:30 p.m. 11 Tuesday, June 23 3:30 p.m. - 5:00 p.m. Session A3: Modeling and Simulation (Oceans Ballroom 1) 3:35 SPIDER and FLY: Navigation Data Simulation and Post-Processing Software Suite: Daniel Marietta, Mark Smearcheck, and John Raquet, Air Force Institute of Technology 3:55 Improved Inertial Navigation Performance using a Modular Inertial Integration Approach with Embedded Sensor Model Dr. Alex Cerruti, Calibration: Alison Brown, Tom Silva, and Anja Brokaw, NAVSYS Corporation The MITRE Corporation 4:15 Navigation Simulation Toolkit for Trade Space Analyses: Joel Douglas, Shozo Mori, Doug Morgan, Systems & Technology Research; Jeffrey Darland, Edward Schlatter, Raytheon Missile Systems; Kevin Brink, Air Force Research Laboratory 4:35 Modeling and Simulation of GPS Receiver Carrier Phase Measurement for Airborne Relative Navigation: Kedan Zhao, Engility

Patrick Pitoscia, US Army CERDEC Session B3: PNT Test Methods and Capabilities (Oceans Ballroom 2) 3:35 Prolonged High Power GPS Jamming of Weapon Systems: Donald Morales and James Brewer, 746th Test Squadron 3:55 Central Inertial and GPS Test Facility Advanced Threat Simulator: Brittany Wells, Alfredo Perez Jr., 746th Test Squadron 4:15 MGUE Anti-Spoof Testing: David J. Goldstein, The Aerospace Corporation; Douglas Guth, SMC/GPUM; Robert Glance, Space and Mark Smearcheck, Naval Warfare Systems, Pacific (SSC PAC) AFRL Sensors 4:35 Adaptation of TSPI to Support T&E for MGUE GPS: Jon Maenpa, Raytheon Space and Airborne Systems Directorate Alternates 1. Advanced Inertial Test Laboratory Capability and Development: Adam Reinelt, Cleon Barker, Reese Sturdevant, Michael Hooser, 746th Test Squadron 2. CIGTF Modernization: 260” Precision Centrifuge: Isaac Nacita, Reese Sturdevant, Mark Wireman, 746th Test Squadron 3. Solid State Temperature Controller: Mark Wireman, Adam Reinelt, and Michael Hooser, 746th Test Squadron Francine Vannicola, NRL

Session C3: GPS Modernization (Oceans Ballroom 3) 3:35 GPS OCX Program Overview and Update: Matthew G. Gilligan and Stephen G. Moran, Raytheon Company 3:55 GPS IIF Performance: Harry Brown, Greg Hatten and William Witwicki 4:15 Future Aviation Applications Using Enhanced GPS Signal Accuracies & Advanced Receiver Autonomous Integrity Karl Kovach, The Aerospace Monitoring (A-RAIM): Tony Marquez, US Navy; Mark Anderson, Science Technology Forum, LTD (STFLTD); Karl Kovach, The Corporation Aerospace Corporation 4:35 Design of a New C/A Code Generator Surpassing Capabilities of Legacy: Robert Gold, Robert Gold Comm Systems; Reginald Little, Iris Technology Inc. Alternates 1. Higher Order POCET Via General Lagrangian Multiplier: Alexander Tai and Daniel Liu, Northrop Grumman Aerospace Systems Nina Faustino, 2. Relating User Range Error To Error Vector Magnitude in GPS: Daniel Liu and Dennis Hall, Northrop Grumman Aerospace Systems The Aerospace Corporation 3. GNSS Space Segment Futures Predicted by the Reviewing the History of GPS, TRANSIT, Galileo, Launch of First Satellite of a Block and on Orbit Trends: Frank Czopek, Microcosm, Inc.

Session D3: Alternate Navigation Technologies 2: RF Aided (Non-GPS) (Oceans Ballroom 4) 3:35 Bandwidth Efficient Ranging Waveforms - How Little Bandwidth is Required for Accurate Rangig?: Tom Wallace, Vesperix Corporation 3:55 Radar-based Navigation with Scatterer Parameter Estimation: Andrew Kondrath and Kyle Kauffman, Air Force Institute of Lin Haas, Technology DARPA 4:15 A Reverse-Ephemeris Positioning Method using Lidar or Radar Range and Range-Rate Measurements of a Single Spacecraft: Phillippe Reed, Michael McBeth, and Samuel Venable, SPAWAR Systems Center Atlantic 4:35 GPS-independent 6-DOF Tracking of Guided Munitions: David W.A. Taylor, ENSCO, Inc.; George Shoemaker, Naval Undersea Warfare Center Alternates Charles Schue, UrsaNav 1. Rapid Spoof Detection Using Multi-Antenna Iridium Measurements: Yu Hsuan Chen, Sherman Lo, Per Enge, Stanford University; David Whelan, The Boeing Company 2. Software Defined Radio API for Distributed Network Opportunistic Positioning: Alison Brown and Kirk Madsen, NAVSYS Corporation Exhibitor Hosted Reception in Exhibit Hall, 6:00 p.m. - 8:00 p.m. 12 Wednesday, June 24 8:30 a.m. - 10:00 a.m.

Phuong (Lisa) Oceans Ballroom 1) Tran, US Army Session A4: Multi-Sensor Solutions for Guidance, Navigation and Control ( 8:35 Aided Navigation and Geo-registration in GPS-denied Environments via Factor Graphs: Mark Keck, Jeff Zampieron, Joel Douglas, Doug Morgan, Systems & Technology Research; Clark Taylor, Air Force Research Laboratory 8:55 Improved Navigation Accuracy Through Multi-use Remote Sensing: Andrew Beard, L3-Communications Sonoma EO 9:15 Demonstration of DARPA’s Plug and Play Navigation Algorithms on a US Navy Surface Vessel: Lee Lemay, Minhdao Nguyen, Frederick Birchmore, Justin Gorgen, and James Edwards, SSC Pacific Dr. David 9:35 Integrated Position Navigation and Timing (PNT)- A Path to Flexible-Navigation: Jacob L. Campbell, Donald T. Venable, and Taylor, ENSCO, Stewart L. DeVilbiss, AFRL/RYWN Inc Alternates 1. A Real-Time GPS-Challenged Navigation and Image Geo-registration System for Airborne Platforms: Steve Berardi, Han Park, Northrop Grumman Electronic Systems; Andrew Brown, Toyon Research Corporation; Clark Taylor and J.C. Ha, Air Force Research Laboratory 2. SCORPION – Towards a Unified Navigation Estimation Framework: Kyle Kauffman, John Raquet, Jared Kresge, Air Force Institute of Technology; Don Venable, Air Force Research Laboratory

Session B4: Application/Impact of GPS Technologies in Homeland Critical Infrastructure (Oceans Ballroom 2) 8:35 Threat Detection Methods in GPS Based Critical Infrastructure Timing Systems: Daniel Weinman, Patrick Deltuvia, Joseph Stevanak, Brad Ciskowski, US Army Communications-Electronics RD&E Center (CERDEC); Sarah Mahmood, DHS Science & Technology Directorate

Jalal Mapar, 8:55 GNSS Satellite Simulator Timing Tests: Joseph Stevanak, Yoonkee Kim, Daniel Weinman, CERDEC DHS Science 9:15 Evaluation of Electromagnetic Effects on GPS Receivers used in Critical Infrastructure: Marshall Haker, Greg Gerten, Kirk and Technology Meyer, Tim Erbes, PreTalen Ltd; Patricia Geraci, Air Force Research Laboratory Sensors Directorate Directorate Sarah Mahmood, 9:35 Multilevel Authentication Approaches for Location Assurance: Logan Scott, LSC DHS Science Alternates and Technology Directorate 1. Navigation Assurance Experiments : Results from iNavfest 2013: Alan Choy, Alinn Herrera, Jason Hsu, Mikhail Tadjakov, Esteban Valles, Carl Yu, The Aerospace Corporation 2. GEOINT App Store and the Innovative GEOINT App Provider Program (IGAPP): Shana Simmons, National Geospatial- Intelligence Agency

Patricia Geraci, AFRL Sensors Session C4: GPS in Military Applications/NAVWAR 1 (Oceans Ballroom 3) Directorate 8:35 GNSS BFEA NAVWAR Mission Assessment Concepts: Daniel Moulin and Evan Lewis, The MITRE Corporation 8:55 An Overview of the Army’s Plan for using Pseudolites: Kelly Fang, U.S. Army CERDEC 9:15 Flight Test Results of In-Line GPS Jamming Effects - Raspberry Jam: Jacob L. Campbell, Jeffrey M. Hebert, and Samuel E. Raudabaugh, AFRL/RYWN 9:35 ADS-B OUT in Precision Operation: Paul Braisted, Roger Gonzalez, Stephen McGrath, Trimble Military and Advanced Systems, Inc. John Davis, Alternates Northrop Grumman 1. Autonomous Digital Approach to BFEA And Other CW & NB interferers: Phillip Izdebski and Jonathan Choi, Raytheon, Space and Airborne Systems 2. 2014 GPS User Equipment Algorithms and Testing in a PNT Operational Field Assessment: Alinn R. Herrera, Jason Hsu, Mikhail Tadjikov, Alan Choy and Esteban Valles, The Aerospace Corporation

Session D4: Alternate Navigation Technologies III: Vision Aided (Oceans Ballroom 4) 8:35 GPS Denied Navigation Algorithms using Factor Graphs and Geo-registration: Rakesh (Teddy) Kumar, Supun Samarasekera, Han Pang Chiu, Xun Zhou, Phil Miller, Aveek Das, Mikhail Sizintsev, Charles Karney, SRI International 8:55 Vision-aided Navigation Techniques and Solutions for Dismounted Soldier Applications: Richard Madison, David Goldberg, Dr. Gary Shan Mohiuddin, Charles Stark Draper Laboratory; Gary Katulka, US Army CERDEC; Stanley Sokolowski, QED Systems; Kevin Johnson, Katulka, US US Army CERDEC; Joe McGowan, QED Systems Army CERDEC 9:15 Distributed Kernelized Locality-Sensitive Hashing for Faster Image Based Navigation: Scott A. Hutchison, Gilbert L. Peterson, Air Force Institute of Technology; Jacob Campbell, Air Force Research Laboratories Sensors Directorate 9:35 Unmanned Aerial System Vision Aided Navigation (UVAN) Rapid Reaction Effort: Donald Venable, Jacob Campbell, Air Force Research Laboratory; Kyle Kauffman, John Raquet, Mark Smearcheck, Daniel Marietta, Jared Kresge, Air Force Institute of Technology Alternate Dr. Jeff Dickman, Northrop 1. Strictly Bayesian SLAM for Precise Estimation of Geo-location Uncertainty: Mark Keck, Joel Douglas, Systems & Technology Grumman Research; John Fisher III, Alan Willsky, Massachusetts Institute of Technology; Clark Taylor, Air Force Research Laboratory

Break in Exhibit Hall: 10:00 a.m. - 10:30 a.m. 13 Break in Exhibit Hall: 3:00 p.m. - 3:30 p.m. Wednesday, June 24 10:30 a.m. - 12:00 p.m.

Plenary 2 (Oceans Ballroom 3/4) 1. Lt Gen Kevin McLaughlin, Deputy Commander, US Cyber Command, USAF (invited) 2. Brig Gen William Cooley, Director, Global Positioning Systems (GPS) Directorate, USAF 3. Mr. Kevin Coggins, SES, U.S. Army Program Manager PNT Bill Bollwerk, Naval Observatory

Lunch in Exhibit Hall, 12:00 p.m. - 1:30 p.m. 14 Break in Exhibit Hall: 3:00 p.m. - 3:30 p.m. Wednesday, June 24 1:30 p.m. - 3:00 p.m.

Van Tran, US Session A5: Atomic Clocks and Timing Applications (Oceans Ballroom 1) Army CERDEC 1:35 Design Innovations for Miniaturized GPS Quality Clocks: Jennifer Sebby-Strabley, Chad Fertig, Ken Salit, Terry Stark, Chad Langness, Rob Compton, Karl Nelson, Honeywell 1:55 Long-term Performance of GPS Dissemination of UTC(USNO): Ed Powers, Blair Fonville, and Stephen Mitchell, U.S. Naval Observatory 2:15 Tools for Exploring and Characterizing GPS Signal Quality: Edward Byrne, Microsemi; Thao Q. Nguyen, AFRL/RYWN; Lars Peter Cash, Boehnke, Microsemi; Peter Howe, MBO Partners; Frank van Graas, Ohio University; Jacob Campbell, AFRL/RYWN; Joe Fargey, Microsemi Northrop Grumman Systems Corporation; Jeremy Warriner, Microsemi 2:35 Long Distance Time Transfer using Time Reversal (T3R): Dhiman Sengupta and Jim Yen, Naval Research Laboratory Alternate 1. GPS Constellation Atomic Clock Performance: Francine Vannicola, Ronald Beard and Kenneth Senior, U.S. Naval Research Laboratory

Session B5: Operational Product Demonstrations 2 (Oceans Ballroom 2) 1:35 PPS-GPS-S Army Program of Record Survey System: John Borden, VP of Programs and Technologies; Trevor Landon, VP of Research and Development 2:15 Signal Architect GPS Jamming Demonstration Kit for Military GPS User Equipment Training: Jarrett Redd and Jeff Seabaugh, Brian Grantham, NAVSYS Corporation ARMDEC

Doug Meyer, Northrop Grumman Session C5: GPS in Military Applications/NAVWAR 2 (Oceans Ballroom 3) 1:35 SWAP Constrained SAASM GPS Solution for Rifleman Radio: Daniel Weinman, U.S. Army Communications-Electronics RD&E Center (CERDEC); M. Sayeed Hasan, Tactical Radios (PM TR), PEO C3T; Naresh Babu Jarmale, Mayflower Communications Company, Inc.; Wade Owen, Thales Defense & Security, Inc. Edwin Hogan, 1:55 An Extremely Agile Adaptive Anti-jam System for GPS: Ivan Johnston, L-3 Interstate Electronics Corporation AMRDEC 2:15 Experimental Verification of Direct Mapping Method for Geolocation of Multiple Ground-Based RF Emitters: Inder “Jiti” Gupta, Andrew L. Kintz and Andrew J. O’Brien, The Ohio State University 2:35 GNSS Threat Detection using Nominal Chip-Shape Monitoring: Feasibility Study using Live Sky Data: Sanjeev Gunawardena, Mark J. Carroll, John F. Raquet, Air Force Institute of Technology Alternates Michael 1. Benefits of Additional Signal Power from Space for Regional Anti-jam: Bob Wright, Chuck Frey, Michael Souder, Lockheed Berarducci, AFRL Sensors Martin Directorate 2. 746th Test Squadron Airborne Jammer System: Earl Cason, Troy Biersack, and Jose Diaz, 746th Test Squadron

Session D5: Collaborative Navigation Techniques (Oceans Ballroom 6) 1:35 Collaborative GPS Signal Acquisition Algorithms for Military GPS Applications: Alison Brown and Kirk Madsen, NAVSYS Corporation 1:55 Direct-Y Acquisition using a Rifleman Radio Network: David Hodo, William Travis, Integrated Solutions for Systems (IS4S); Chris Jean Coupet, US Collins, David Bevly, Auburn University Army CERDEC 2:15 Navigating Challenging Indoor and Underground Environments Using Distributed Navigation and Collaborative Mapping: Carol Politi and Carole Teolis, TRX Systems 2:35 Collaborative PNT Using Inter-Aircraft RF Measurements: E.J. Kreinar, D.W.A. Taylor, W.T. Faulkner, ENSCO, Inc. Alternate Dr. Carole Teolis, 1. Low Bandwidth Representations for Cross-Platform Localization: Mark Keck, Joel Douglas, Jeff Zampieron, Cory Schutz, Systems TRX Systems & Technology Research; John Fisher III, Massachusetts Institute of Technology; Martin Eilders, Air Force Research Laboratory

Break in Exhibit Hall: 3:00 p.m. - 3:30 p.m. 15 Wednesday, June 24 3:30 p.m. - 5:00 p.m. Session A6: Precision Azimuth Sensing (Oceans Ballroom 1) 3:35 Compact MEMS Precision Azimuth System (CMPAS) – Program Overview: Benjamin Mohr and Barry Roberts, Honeywell 3:55 Improved Magnetic Heading Sensor for Azimuth Sensing: Ahmed Zaki, Timothy Straw, Peter Child, Michael Obara, William Slater, Michael Kroger and Jay Melillo, Naval Undersea Warfare Center Division Charles 4:15 Milli-HRG Demonstration of Beyond Navigation Grade Performance and Real-Time Self-Calibration: A.A. Trusov, M.R. Pruszynski, Phillips, G. Atikyan, G.H. McCammon, J.M. Pavell, Y.A. Choi, D.K. Sakaida, D.M. Rozelle, A.D. Meyer, Northrop Grumman Systems Raytheon Corporation 4:35 Compact, Low-Cost Fiber-Optic Gyroscope for Long-Term Attitude Stabilization: Behzad Moslehi, Levy Oblea, Joey Costa, Richard Black, Intelligent Fiber Optic Systems Corporation (IFOS) Ram Yahalom, InFiber Technology Michael Berarducci, Air Force Research Laboratory, Sensors Directorate Alternates

Ann Witt, 1. Improving Accuracy and Availability of Precision Target Location and Self Location Determinations: Greg Alman, Jeff Cavins, Honeywell Scott Krywick, Northrop Grumman Systems Corporation 2. Emcore’s Fiber Optic Gyros and INSs for Azimuth Determination: Christopher Reynolds, Consultant to Emcore; KK Wong, Emcore Session B6: Space and Satellite Applications (Oceans Ballroom 2) 3:35 GPS Antenna Characterization Experiment (ACE): Receiver Design and Initial Results: Philip Martzen, Dolan Highsmith, The Aerospace Corporation; Jennifer Valdez, Joel Parker, Michael Moreau, NASA Goddard Spaceflight Center 3:55 Overview of ANGELS Weak-Signal GPS Experiment and Preliminary On-Orbit V&V Results: Josue Munoz and Frank R. Chavez, AFRL/RVES Dr. Donna Senft, AFRL 4:15 Shaping GPS Technology Research via a GPS Reference Architecture: Katherine Carroll, Air Force Research Laboratory/ Space Space Vehicles Electronics Branch; Nathan DeVilbiss, ATA Aerospace LLC; Renee Yazdi Canyon Consulting LLC Directorate 4:35 A2/AD Technologies for GPS Payloads: Donna Cowell Senft, Kevin Slimak, and Lawrence “Robbie” Robertson, Air Force Research Laboratory Space Vehicles Directorate Alternates 1. Examination of GPS on-orbit Solar Array Flight Experience to Determine Ability to Meet Operational Gap and US Government GPS Availability Needs: Jacob Hempen, US Air Force; Simon Liu, The Aerospace Corporation; Raymond Madachi, Naval John Langer, Post Graduate School; Mark Rhoades, Naval Post Graduate School The Aerospace Corporation 2. GPS Augmentation with Responsive, Low-Cost LEO Satellite Constellation: Frank Czopek, James Wertz, John Collins, Richard Van Allen, Earl Anderson, Microcosm, Inc. 3. Research on Gallium Nitride RF Amplifiers to Improve GPS: Kenneth Bole, AFRL Space Electronics Lt Col Nathan (Oceans Ballroom 3) Diller, USAF Session C6: Military GPS Receivers and Military GPS Receiver Technology SMC/GPU 3:35 Embedded GPS/INS (EGI) M-Code Upgrade: Angelo Trunzo and James Brewer, 746th Test Squadron 3:55 Software Enabled Reconfigurable GNSS Embedded Architecture for Navigation and Timing (SERGEANT) – Real-Time Ken Goussak, Embedded Demonstration System: Jeff Dickman, Mathew Cosgrove, Omid Safavian, Northrop Grumman; Jeff Hebert, JC Ha, AFRL The Aerospace Corporation 4:15 Evaluation of GPS Anti-Jam Antennas for US Army Mounted Ground Platforms: Patrick Pitoscia, U.S. Army CERDEC; Dontae Ryan, Ryan Institute 4:35 Realizing Keyless M-Code: Joseph J. Rushanan, Kevin Skey, Erich Whitney, Steve Langel, Adam Woodbury, Carl Pearson, The MITRE Corporation Alternates 1. GNSS Signal Processing for Tactical Operations using Android End User Devices: Alison Brown, Kirk Madsen, and Josh Burns, NAVSYS Corporation 2. Demonstration of M-code Vector Tracking and Multibit Correlation Technologies: Christopher Zarowski, Jianhui Luo, Steven Semanki, and Naresh Babu Jarmale, Mayflower Communications Company, Inc.; Jean G. Coupet, U.S Army CERDEC; Eddy Emile, Advanced Technology Branch, GPS Directorate; Alex Cerruti, The MITRE Corporation Session D6: Robust Navigation Systems/Solutions (Oceans Ballroom 6) 3:35 GPS-Denied Field Test Results for Real-Time Plug-and-Play Navigation Software: Michael A. Turbe, Kevin M. Betts, Douglas P. Stranghoener, Troy J. Mitchell, Jonathan G. Ryan, and Michael J. Carroll, Leidos 3:55 A Flexible GNSS Denied Surface Navigator for Vehicle Applications: Paul Samanant, Wes Hawkinson, Rob McCroskey, Ryan Ingvalson, Andrew Stewart, Honeywell International Dr. Jacob Campbell, 4:15 Intelligent Human Motion for Improved Personal Navigation: Andrew Zaydak, William Deninger, Yotta Navigation Corporation; AFRL Sensors Nhut Vo, US Army CERDEC APG MD Directorate 4:35 Deeply Integrated GPS/INS Navigation (DIGINAV) for Jam-Resistant PNT: Andrey Soloviev, QuNav; Jeff Dickman, Northrop Grumman, Chun Yang, QuNav Alternates 1. MINav Navigation System for GPS Denied Applications: Virginia Overstreat, AMRDEC; Christopher Reynolds, Consultant to Emcore Chris Lund, 2. Programmatic Update on Future U.S. Navy Navigation Efforts: GPS Based Position, Navigation, and Timing Service (GPNTS) and Honeywell Multi-Platform GPS Navigation Antenna (MAGNA): Armen Kurdian, U.S. Navy Break in Exhibit Hall: 3:00 p.m. - 3:30 p.m. 16 Thursday, June 25 8:25 a.m. - 5:35 p.m.

CLASSIFIED DAY AGENDA: Shades of Green Buses Depart Renaissance Orlando 7:00 a.m. Security Validation/Entry Control 7:45 a.m. – 8:25 a.m. Opening Remarks: Mr. Robert Greenlee, JNWC 8:25 a.m. – 8:40 a.m. Administrivia: Mr. Benjamin Wash, JNWC Security Policies • There is only one door assigned for entry and exit; do not attempt to use any other door. • You may only leave the room between presentations. If you exit, you will not be allowed back into the room until the next scheduled break. • No electronics or mobile devices are allowed in the room at any time. • Note taking is prohibited. • No classified discussions outside of the room, or when the door is open.

Session E1: Classified Session: NAVWAR Threats and Operations Time: 8:40 a.m.- 11:55 a.m. Room: Magnolia Ballroom, Shades of Green 8:40 PLENARY PRESENTATION: PNT Perspectives from the DoD CIO: Maj Gen Wheeler, Deputy Chief Information Officer for Command, Control, Communications and Computers (C4) and Information Infrastructure Capabilities (DCIO for C4IIC) Robert Greenlee, Joint 9:15 Navigation Warfare Current and Emerging Threats: Fay Spellerberg, Joint Navigation Warfare Center Navigation Warfare Center 9:40 The Role of Satellite Navigation (Satnav) for Military Operations Beyond 2020: Jon Anderson, Canyon Consulting Break: 10:05 a.m. - 10:35 a.m. 10:35 DoD PTTI and CRF Management: CAPT Brian Connon, Naval Observatory 10:55 Recent JNWC Flex Power Observations: Jeremiah Harlin, Joint Navigation Warfare Center 11:15 GPS Accuracy in a Jamming Environment: Jeremy J. Chapman, M.I.T. Lincoln Laboratory Ben Wash, Joint Navigation 11:35 JNWC NAVWAR Annual Assessment: Fay Spellerberg, Joint Navigation Warfare Center Warfare Center Lunch: 11:55 a.m. - 12:55 p.m.

Session E2: Classified Session: Warfighter Crosstalk Panel Discussion Time: 12:55 p.m.- 2:55 p.m. Room: Magnolia Ballroom, Shades of Green

James Doherty, Don Jewell, Kevin Coggins, Institute for Institute for US Army - PM Defense Defense PNT Analysis Analysis

“Crosstalk” is an interactive discussion with war fighters who have had recent operational experience that informs the navigation development community on how to better formulate military navigation systems. Panel members will make an opening statement on how current navigation systems are meeting the needs of their missions, followed by questions from the audience.

Break: 2:55 p.m. - 3:25 p.m.

Break in Exhibit Hall: 3:00 p.m. - 3:30 p.m. 17 Thursday, June 25 8:25 a.m. - 5:35 p.m.

Session E3: Classified Session: NAVWAR Emerging Capabilities Time: 3:25 p.m. - 5:35 p.m. Room: Magnolia Ballroom, Shades of Green 3:25 F-35 GPS Sensor Open-Air Jamming Confirmation: John Fleming, Raytheon, Space and Airborne Systems (SAS) Robert 3:45 Advanced Threat: Intelligence, Laboratory Demonstration, and Impact Analysis: Keith McDonald, Kevin Martin, Daniel Shultz, Greenlee, Joint Thomas Bielicki, Monica Kolb, The MITRE Corporation Navigation Warfare Center 4:05 Assured PNT Condition Level Modelling and Simulation Results: Bill Pettus, U.S. Army Product Director for Positioning, Navigation and Timing (PNT) 4:25 NAVWAR Sensor – Today’s Solution for Tomorrow’s Threats: Dana Howell and Denice Jacobs, AFRL/RYWN 4:45 Results of the GYPSY JULIETT Over-The-Air Cryptokey Distribution Demonstration: Nina N. Faustino, Kenneth Goussak, The Aerospace Corporation; Brian Smith, U.S. Air Force 5:05 (U) On the Performance of GPS Timing Receivers in response to RF Interference: Phillip M. Corbell, Adam Lemmenes, Air Force Institute of Technology Ben Wash, Joint Navigation Classified Session Alternates Warfare Center 1. M-code Receiver Mitigation Results for NAVWAR Threats: Gareth Jones and Paul Huber, Rockwell Collins 2. MGUE Anti-Spoof Technology Implementation in MGUE: David J Goldstein, The Aerospace Corporation 3. Integrated GPS Anti-Spoof, Anti-Jam, and Threat Tracking: David A Anderson and Gary A McGraw, Rockwell Collins 4. The NAVWAR Threat To NAVSSI From An Information Assurance Perspective: Michael Ferguson, SSC PACIFIC 5. (U) Application of RF Distinct Native Attributes (RF-DNA) and Direction of Arrival (DoA) to Detect, Classify, and Mitigate Inauthentic GPS Signals: Juliana Nine and Phil Corbell, Air Force Institute of Technology 6. Use of Multiple Antennas/Receivers for Analysis of 2013 NAVFEST Experiment: David M. Bevly, Thomas Bitner, Nate Carson and David Hodo, Auburn University

Buses Load 5:40 p.m. Buses load for return to Renaissance Orlando at SeaWorld

Transportation/Parking for Classified Session • Buses will depart the Renaissance Hotel SeaWorld promptly at 7:00 a.m. Conference management highly recommends taking advantage of the bus transportation provided to and from the classified session at Shades of Green on Walt Disney World. However, parking is available. Note that busing will only be provided in the morning and the evening (no mid-day shuttles will be available).

• Note that no electronic devices will be permitted in the classified session. It is highly recommended that all electronic devices, notebooks, planners, etc. are left at the hotel.

• If you are planning to depart to the airport directly from Shades of Green please check your baggage at the Shades of Green bell desk. Driving Directions from Renaissance to Shades of Green 1. Head southwest on Sea Harbor Dr toward Academic Dr. 6. Exit onto World Dr. 2. Take the 2nd right onto Central Florida Pkwy 7. Turn left onto Seven Seas Dr. 3. Slight left to merge onto I-4 W toward Tampa 8. Turn right onto Floridian Way 4. Take exit 67 toward Epcot/Downtown Disney 9. Turn left onto Magnolia Palm Dr. 5. Merge onto Epcot Center Dr. 10. Arrive at 1950 Magnolia Palm Dr., Lake Buena Vista, FL 32830

18 NOTES ______

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