joint navigation · “military navigation technology: the foundation for military ops” june 6-9,...

Sponsored by The Military Division of

The Institute of Navigation“Military Navigation Technology: The Foundation for Military Ops”

June 6-9, 2016Dayton, OhioFOUO US ONLY Tutorials: June 6FOUO US ONLY Technical Sessions: June 6-8Exhibit Hall Open: June 7-8Dayton Convention Center

US ONLY Classifi ed Session: June 9 Kenney Hall at the Air Force Institute of Technology (AFIT)on Wright-Patterson Air Force Base

www.ion.org/jnc

Joint NavigationConference 2016Sponsored by the Military Divison of The Institute of Navigation

ONSITE PROGRAM

Registration Hours• Monday, June 5 9:00 a.m. - 5:00 p.m.• Tuesday, June 6 7:30 a.m. - 5:00 p.m.• Wednesday, June 7 7:30 a.m. - 5:00 p.m.

Free Wireless Internet Access• On your device, open up a list of available networks • Choose Harborlink Public. There is no password• Open up a browser window• When your browser redirects to the DCC’s

internet landing page, click “Log In”

ROOM: ROOM 302-304 R00M 305 ROOM 306 ROOM 307-309

TRACK AND CHAIR: Track A: Sharon Donald, Draper

Track B: Paul Olson, US Army

Track C: Eddy Emile,GPS Directorate, USAF

Track D: Dr. Mikel Miller,AFRL Sensors Directorate

MONDAY, JUNE 6

10:30 a.m. – 12:00 p.m. Tutorial: Quantum Position Navigation and Timing 101

Tutorial: GPS/GNSS 101Tutorial: The Evolution of Navigation from Traditional Techniques to Modern Military

Aircraft

12:10 p.m.–1:00 p.m. Plenary Session 1 (Room 103 on the First Floor)

The Lobby Cafe on the First Floor of the Dayton Convention Center will be open 11:30 a.m. - 1:30 p.m. (Lunch is on Your Own)

1:30 p.m. – 3:00 p.m. Tutorial: Contemporary and Emerging Inertial Sensor Technologies Tutorial: Precise Time and Frequency Tutorial: GPS Cryptography -

From Here to M-Code Tutorial: Fusion Methodologies

Break: 3:00 p.m. – 3:30 p.m.

3:30 p.m. – 5:00 p.m. A1: Modeling and Simulation B1: GPS Pseudolites D1: Robust Navigation Systems for Challenged Environments

TUESDAY, JUNE 7

Morning Coffee Service in Third Floor Prefunction Area: 8:00 a.m. – 9:00 a.m. • Sponsored by Systron Donner Inertial

8:30 a.m. – 10:00 a.m. A2: Atomic Clocks and Timing Applications B2: Test and Training 1 C2: GPS Modernization D2: Collaborative Navigation Techniques

Break in Exhibit Hall: 10:00 a.m. – 10:30 a.m. • Sponsored by Harris

10:30 a.m. – 12:00 p.m. Plenary Session 2 (Room 103 on First Floor)

Lunch in Exhibit Hall: 12:00 p.m. – 1:30 p.m.

1:30 p.m. – 3:00 p.m. A3: Inertial Measurement Unit (IMU) 1B3: Impacts and Mitigation Methods

for GPS Disruption within Critical Infrastructure

C3: GPS Constellation Performance D3: Alternate Navigation Technologies 1: Naturally Occurring Measurement Sources

Break in Exhibit Hall: 3:00 p.m. – 3:30 p.m. • Sponsored by Harris

3:30 p.m. – 5:00 p.m. A4: Inertial Measurement Unit (IMU) 2B4: Data Authentication/ Alternate

Sources of Timing for Critical Infrastructure Applications

C4: GNSS in Military Applications D4: Open Architectures (OAs)

Exhibitor Hosted Reception in Exhibit Hall: 6:00 p.m. - 8:00 p.m.

WEDNESDAY, JUNE 8

Morning Coffee Service in Third Floor Prefunction Area: 8:00 a.m. – 9:00 a.m. • Sponsored by Systron Donner Inertial

8:30 a.m. – 10:00 a.m.A5: Multi-Sensor Solutions for Guidance,

Navigation and ControlB5: Test and Training 2 C5: Making MGUE Work

D5: Alternate Navigation Technologies 2: RF Aided (Non-GPS)

Break in Exhibit Hall: 10:00 a.m. – 10:30 a.m. • Sponsored by Harris

10:30 a.m. – 12:00 p.m. Plenary Session 3 (Room 103 on First Floor)

Lunch in Exhibit Hall: 12:00 p.m. – 1:30 p.m.

1:30 p.m. – 3:00 p.m. A6: Space and Satellite Applications 1 B6: Operational System Demonstrations 1C6: Military GPS Receivers and Military

GPS Receiver TechnologyD6: Alternate Navigation Technologies 3a:

Vision Aided

Break in Exhibit Hall: 3:00 p.m. – 3:30 p.m. • Sponsored by Harris

3:30 p.m. – 5:00 p.m. A7: Space and Satellite Applications 2 B7: Operational System Demonstrations 2C7: Military GPS/Antenna Technologies

and Interference MitigationD7: Alternate Navigation Technologies 3b:

Vision Aided

THURSDAY, JUNE 9: US ONLY CLASSIFIED SESSION HELD AT THE AIR FORCE INSTITUTE OF TECHNOLOGY’S KENNEY HALL ON WRIGHT-PATTERSON AFB

7:45 a.m.–8:25 a.m. Security Validation

8:25 a.m.- 8:30 a.m. Opening Remarks

8:30 a.m.–11:05 a.m. E1: The Navwar Threat: Plenary Session

11:20 a.m.–12:00 p.m. E2: Alternative Positioning, Navigation and Timing

Lunch: 12:00 p.m. – 1:00 p.m.

1:00 p.m.–3:00 p.m. E3: Panel Discussion: Warfighter Crosstalk

3:30 p.m.–4:50 p.m. E4: Operational Navwar

4:50 p.m.–5:30 p.m. E5: Signal Integrity and Authenticity

5:40 p.m. Buses Load

JNC 2016 • June 6-9, 2016 • Dayton, Ohio • www.ion.org/jnc

Technical Session Overview

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Technical Session Overview Convention Center Floor Plan


First Floor

Second Floor

Third Floor

Conference DressBattledress uniform or business casual.

JNC Mobile WebsitePoint your mobile device’s web browser to m.ion.org to access JNC information such as:

• Real-time conference program• Current exhibit hall map• Local area info/ weather• Restaurant reservations

Conference ProceedingsFOUO conference proceedings will be mailed in July to elligible conference participants.

Customized ScheduleLog in to the JNC website at www.ion.org/jnc to build a customized schedule of conference papers you wish to attend.

Marriott University of Dayton ShuttleComplimentary shuttle bus transportation will be provided between the Dayton Convention Center and the Marriott University of Dayton. Buses will depart from the front entrance of the Marriott on the hour and 30 minutes past the hour. Buses will depart from the Fifth Street entrance of the Dayton Convention Center at 15 minutes and 45 minutes past the hour.

Day First Bus Departs Marriott

Last Bus Departs DCC

Mon. June 6 9:30 a.m. 5:45 p.m.

Tues. June 7 7:00 a.m. 8:45 p.m.

Wed. June 8 7:00 a.m. 5:45 p.m.

Classified Session ShuttleComplimentary bus transportation will be provided from the Crowne Plaza and the Marriott University of Dayton to/from WPAFB on Thursday. Buses will depart the Marriott at 6:45 a.m., and the Crowne Plaza at 7:00 a.m., returning after the conclusion of the classified session. No midday shuttle will be offered.

Photography PolicyYour presence at JNC constitutes your agreement to be photographed, filmed, videotaped or otherwise recorded by conference management, or its agents, and your agreement that your image or voice may be distributed in print or electronic communications media without any compensation being paid to you. Video recording by participants is not allowed without written permission of ION during any portion of the conference. Photography, audio recording, or video recording of any FOUO presentation is strictly prohibited.

Conference Information

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JNC Thanks:ION Military Division ChairJan Anszperger Draper

ION Military Division Vice ChairElliott KaplanThe MITRE Corporation

Program ChairNeeraj Pujara AFRL Sensors Directorate

Program Co-chairGreg GrahamUS Army

JNC Government Liaisons

Tutorials ChairDr. Thomas PowellThe Aerospace Corporation

Track: BPaul OlsonUS Army

Classified SessionsRobert Greenlee Joint Navigation Warfare Center

Track: CEddy EmileGPS Directorate, USAF

Track: ASharon DonaldDraper

Track: DDr. Mikel Miller AFRL Sensors Directorate

Jalal MaparDepartment of Homeland Security

Don JewellInstitute for Defense Analysis

James T. DohertyInstitute for Defense Analysis

Kevin CogginsUS Army

John Langer The Aerospace Corporation

Bill BollwerkNaval Observatory

John Del CollianoUS Army

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FOUO US ONLY SESSIONS (Monday-Wednesday, June 6–8)All sessions and exhibits will be held in an US ONLY FOR OFFICIAL USE ONLY (FOUO) environment at the Dayton Convention Center. To attend you must provide the following: 1. Proof of US citizenship. 2. Visit Request/including a Need-to-Know Statement (Need-to-

Know not required if using JPAS) 3. Photo ID 4. JNC Conference Badge and Paid RegistrationVisit Request and Need-to-Know Statements:All Visit Requests must be verified by the JNWC Security Office.Prospective US attendees must submit their Visit Authorization Requests through JPAS to JPAS SMO: STRATJNWC. JPAS visit request POC field must be filled with “JNC 2016” instead of a POC name. For your convenience, if JPAS is not an option, a Visit Request Form can be found at www.ion.org/jnc. It is recommended that personnel planning to attend the FOUO or classified sessions verify that their Visit Request has been received and verified by the JNWC security office prior to making any travel arrangements. Visit authorization requests received after May 6, 2016 may not be processed.Fax all FOUO Visit Requests to: Name: Diane Jacobson, Personnel Security Specialist JNWC/JFCC SPACE/USSTRATCOM Phone: 505-853-6360 Fax: 505-853-6677 Email: [email protected]

CLASSIFIED US ONLY SESSION (Thursday, June 9)The classified session will be held in a CLASSIFIED US ONLY environment at the Air Force Institute of Technology (AFIT) on Wright-Patterson AFB. Information required for clearances is as follows:

Classification: Secret

Visit Type: One Time

Request Type: Facility Invitation

Request Category: Government

Anticipated Level of Classified Information: Secret

Visit Dates: 9 June 2016

Purpose of Visit: Attend the 2016 Joint Navigation Conference, Dayton, Ohio

Facility Information: Kenney Hall, Air Force Institute of Technology on Wright-Patterson AFB

Way to Contact: E-mail

Name: Joint Navigation Warfare Center/USSTRATCOM

Program/Agreement: Navigation Warfare MOU

Knowledgeable US POC:

Name: Diane Jacobson, Personnel Security Specialist

JNWC/JFCC SPACE/USSTRATCOM

Phone: 505-853-6360

Fax: 505-853-6677

Email: [email protected]


Clearances and Attending the Classified Session

Accessing the Classified SessionBelow are the options for accessing Wright-Patterson Air Force Base to attend the classified session on Thursday:

If you have a Common Access Card (CAC):

1. You may enter the base in a private vehicle.2. You may utilize the conference-provided shuttle bus transportation to/from Wright-Patterson Air Force Base.

If you do not have a Common Access Card (CAC):1. You may enter the base in a private vehicle, escorted by a CAC Card holder (preferably your government sponsor).2. You may utilize the conference-provided shuttle bus transportation to/from Wright-Patterson Air Force Base.

Shuttle Buses: Complimentary shuttle bus transportation will be provided to and from the classified session in the morning prior to the start of the classified session, and in the evening at the conclusion of the classified session. No midday transportation will be provided. The shuttle bus will depart from the Marriott University of Dayton at 6:45 a.m., and from the Crowne Plaza at 7:00 a.m. Buses will depart from AFIT at the conclusion of the classified session, and will drop off passengers at the Crowne Plaza and then the Marriott.

Driving Directions to AFIT from the Dayton Convention Center (10 miles): 1. Take US-35 East2. Merge onto I-675 N toward Columbus3. Take Exit 15 toward WPAFB Area B/ Col Glenn Hwy4. Follow signs for WPAFB Area B5. Take slight right onto Lopp Rd. W6. Continue onto Hobson Way7. AFIT is located at 2950 Hobson Way, Wright-Patterson Air Force Base, OH 45433

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


Quantum Position Navigation and Timing 101 (Room 305)This tutorial will delve into ideas from quantum mechanics that hold great promise for improved position, navigation and timing accuracy. We will cover cold-atom physics and applications in detail, as well as challenges to creating cold-atom based PNT devices such as inertial navigation systems and advanced atomic clocks. This tutorial will also cover relevant advances in photonics, especially the frequency comb, to illustrate how lasers are changing the landscape for tomorrow’s PNT solutions.

John H. Burke received his PhD in 2010 from University of Virginia in Atomic Physics, for developing a proof-of-principle gyroscope using coherent matter waves sourced from a Bose-condensed, laser-cooled source. He has worked at the Air Force Research Laboratory’s Space Vehicles Directorate ever since, working on a combination of cold-atom inertial navigation and optical atomic clocks. The latter topic utilizes advanced photonic devices such as frequency combs to create very stable, low-phase-noise microwaves for a variety of applications.

GPS/GNSS 101 (Room 306)This course presents the fundamentals of the GPS and other GNSS, 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 structure, error characterization, dilution of precision (DOP), differential GPS, GPS modernization, and other GNSS systems.

Dr. John Raquet is the director of the Advanced Navigation Technology (ANT) Center at the Air Force Institute of Technology, where he is also a professor of electrical engineering. He has been involved in navigation-related research for over 25 years, has published over 160 navigation-related conference and journal papers and taught 50 navigation-related short courses to over 2600 students in many different organizations. He is the recipient of numerous awards, has served in a number of positions within the ION, 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.

The Evolution of Navigation from Traditional Techniques to Modern Military Aircraft (Room 307)This presentation takes us through a history of navigation methods, showing how modern combat aircraft navigation developed from simple drawings and songs, to stars, compasses, cartography, and measures of motion. Specifically, this tutorial provides a background on aircraft navigation and GPS procedures for the C-17 Globemaster III and the F/A-18 Super Hornet aircraft. Details on specific navigation avionics and aircrew interaction with platform mission computer interface(s) will be provided in support of departure, enroute operations, weapons or payload delivery, arrival and approach navigation.

Dr. Kamran Aslam manages a broad portfolio of GPS User Systems activities as a systems director for the User Equipment Integration & Assurance Department at The Aerospace Corporation. These activities include receiver-to-platform integration, receiver functional testing, advanced technology lab research, system security tasks and he and his team are leading the integration of modernized Military GPS User Equipment (MGUE) into multiple platforms across all U.S. military services. He is also a C-17 Aircraft Commander as a traditional reservist in the 729th Airlift Squadron based out of March Air Reserve Base, California. He has logged 1800+ flight hours in the C-17 Globemaster III with 400+ combat flight hours.

CDR Kyle “Dream” Weaver is the Navy liaison for Space and Naval Warfare Systems Command (SPAWAR) PMW/A 170 from San Diego and the Navy Deputy Program Manager for Navy Integration at the Space and Missile Systems Center’s GPS Directorate. He works with Navy organizations around the US to ensure that Navy interests are represented in the modernization of the GPS enterprise. CDR Weaver has over 2100 hours in the F/A-18 and 394 carrier landings, 155 of them during the hours of darkness. He graduated from the United States Naval Academy with a degree in Computer Science.

Tutorials, Monday, June 6 10:30 a.m.–12:00 p.m.

Session P1: Plenary 1 (Room 103)1. Brig. Gen. Ronald Buckley, Deputy Director of Operations, Headquarters U.S. Northern Command, USAF

Plenary Session 1, Monday, June 6 12:10 p.m.–1:00 p.m.

Neeraj Pujara, AFRL Sensors Directorate

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Tutorials, Monday, June 6 10:30 a.m.–12:00 p.m.

Contemporary and Emerging Inertial Sensor Technologies (Room 302)This course will present an overview of current state-of-the art inertial navigation technologies with an emphasis on contemporary and emerging inertial sensor designs. A general overview of inertial navigation principles will be presented, followed by a discussion of current gyroscope and accelerometer instruments. The sensor discussion will initially focus on the recent developments in MEMS-based designs and how MEMS technology is revolutionizing the inertial guidance navigation and control (GN&C) industry. Current industry trends will be discussed along with examples of MEMS inertial technology in the commercial, military and space sectors, including advanced systems which integrate inertial MEMS with GPS.New developments in inertial instrument design will follow with discussion of how advanced microfabrication methods, new solid state optical component developments and cold atom interfereometery are being exploited in the next generation of precision gyro and accelerometer designs.Suitable for experienced inertial instrument practitioners, it will also be of interest to novice developers as it will cover an overview of basic inertial sensing principles, and detailed discussion of gyroscope and accelerometer designs. This course will appeal to R&D, systems and manufacturing engineers, managers and executives, and will conclude with a discussion on the future direction of advanced inertial technologies.

Ralph Hopkins is a Distinguished Member of the technical staff and group leader in the Positioning Navigation and Timing Division at Draper, where he is responsible for the design and development of inertial instruments and sensors. He is an invited speaker for short course tutorials on inertial instruments and inertial technology and has presented internationally for the NATO Science Technology Organization sponsored lecture series and symposia on navigation technology.

Precise Time and Frequency (Room 305)The fundamental precision of atomic timekeeping is unequaled in any other measurement methodology. Atomic frequency standards provide the ultimate source of accuracy and stability for all modern communications, navigation, and time-keeping systems. State-of-the-art atomic clocks test the frontiers of theoretical and experimental information theory, atomic physics, and cosmology. Practical implementations of atomic clocks range from commodity rubidium oscillators, smaller than a sandwich and accurate to parts in 10^11, to one-of-a-kind laboratory-scale optical clocks, manned by teams of scientists and achieving accuracies now measured in parts in 10^18.This tutorial will provide an introduction to atomic frequency standard technology, with particular emphasis on the general scaling rules, atomic physics and engineering challenges common to all implementations in the field.The tutorial will focus on mature technologies: rubidium oscillators, cesium beam frequency standards, and hydrogen masers. Time permitting, we will also introduce emerging technologies, the application of laser sources to atomic interrogation, coherent population trapping, and chip-scale atomic clocks.

Dr. Robert Lutwak is a program manager in the DARPA Microsystems Technology Office. Prior to joining DARPA MTO he served as chief scientist at Symmetricom’s Technology Realization Center where his responsibilities included support of manufacturing and conventional atomic clock technology as well as research and development of next-generation clocks for deployment in commercial, military, and aerospace applications. From 2001-2010, Dr. Lutwak served as principal investigator on the DARPA/MTO-sponsored chip-scale atomic clock (CSAC) program, which led to Symmetricom’s 2011 release of the world’s first commercially available CSAC. Dr. Lutwak received his PhD in atomic and optical physics from the MIT in 1997.

GPS Cryptography - From Here to M-Code (Room 306)This course seeks to explore the importance of cryptography to military GPS from the perspective of the GPS user. This course will provide a brief history of cryptography and will discuss how cryptography is used in the current system and the benefits of the planned modernized GPS crypto architecture. The main intent of this course is to provide an insight to military GPS users regarding key loading and key management as the M-Code system is rolled out.

Ken Goussak is a member of the Hughes Design Group and is the navigation warfare technical lead at the GPS Directorate. Ken has over 30 years of navigation experience going. In 1995, Ken became the technical lead on the Selective Availability Anti-Spoofing Module (SAASM) program that has fielded almost 2 million SAASM-based receivers and attained Block II Electronic Protect Initial Operational Capability in 2014. Currently, he leads the development of the SAASM Mission Planning System and M-Code cryptographic architecture developments. Ken has a BS in biomedical engineering from the University of Southern California.

Fusion Methodologies (Room 307)This brief course provides an introduction to combining multiple sources of navigation information. Heuristic methods will be discussed related to optimality criteria, complementary, whole value, and error domain approaches. Simple numerical navigation examples will be shown that utilize most likely, maximum a posteriori and least squares techniques. An intuitive Kalman Filter will be derived for the case of linear systems driven by Gaussian noise. Mistuning of Kalman Filters with a numerical example leading up to innovation testing is addressed. The course concludes with examples of how the limitations of Kalman Filters due to non-linearities in the measurement and/or plant models spawned the employment of extended Kalman Filters, Unscented Filters, Adaptive and Particle Filters.

Marvin B. May is the chief navigation technologist at Penn State’s ARL Navigation Research and Development Center. He teaches Master’s Degree and sponsor directed navigation courses for the Penn State University. His experience includes eight years as the Navy chief analyst for GPS. May has served as chair of the Greater Philadelphia Chapter and is the one and only historian of the ION. He won the ION’s Weems Award (2007) and is an ION Fellow (2008). He received the PSU/ARL Director’s Award for Technical Contributions (2013) and achieved Emeritus status in 2014. He holds a MS from New York University and is a Professional Engineer.

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


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

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Monday, June 6 3:30 p.m.–5:00 p.m.

George Klaus, John Hopkins University/APL

Paul Crampton, Spirent Federal Systems

Kelly Fang, US Army

Dr. Jimmie Davis, The MITRE Corporation

Don Venable, AFRL Sensors Directorate

John Fleming, Raytheon

Session A1: Modeling and Simulation (Room 302-304)3:35 DoD PNT Modeling and Simulation Collaborative Interchange: J.P. Laine, Draper; P. Olson, US Army

3:55 Providing Flexible Integrated Navigation Tools and Implementations to the PNT Community: J.D. Quartararo, A. Cerruti, S. Miller, A. Shapiro, R. Singh, The MITRE Corporation

4:15 The Gray Eagle Modeling, Navigation, and Integration Laboratory (GEMNI): T. Pitt, G. Reynolds, Weapons Development and Integration Directorate AMRDEC; W. Barnwell, PM-UAS Medium Altitude Endurance; J. Jones, R. Cowart, A. Simmons, K. Graham; Navigation Technology Associates; J. Menne, A. Finch; General Atomics Aeronautical Systems

4:35 Pseudolite MS&A System Design: G. Green, LinQuest Corporation; J. Scott, PM PNT

Alternates 1. Uncertainty Quantification for Radio Frequency Transient Locations: E.E. Fenimore, Lawrence Livermore National

Laboratory

2. Application of a Software-Based GPS Signal Simulator to Development and Testing of Interference Mitigation Research: R. Powell, J. Starling, and D. Bevly, Auburn University

Session B1: GPS Pseudolites (Room 305)3:35 Getting a Finger on the Pulse of the Pseudolite Transmitter: A. Fortmayer, US Army

3:55 Pseudolite C2: Risky Business: A. Fortmayer, US Army

4:15 Design and Flight Test Results of a Flight Reference System: D. Ruff, J. Kawecki, I. Nacita, 746 Test Squadron, Holloman AFB

4:35 Pseudolite Interoperability and Precision Guided Munitions (PGM): K. Fang and T. Blenk, US Army ARDEC

Alternates1. The Challenges Associated with Implementing Pseudolite (PL) Command and Control (C2) Across Tactical

Networks: A. Fortmayer and A. Surany, US Army

Session D1: Robust Navigation Systems for Challenged Environments (Room 307-309)3:35 RF Aided Inertial Tracking for Dismounted Warfighters: R.B. Alwood, S.J. Radzevicius, D.T. Goff, ENSCO, Inc.; G.

Shoemaker, Naval Undersea Warfare Center

3:55 Deeply Integrated GPS/Inertial Navigation (DIGINAV) for Jam-Resistant PNT: UAV Test Results and Real-Time Implementation Status: A. Soloviev, M. Veth, QuNav; J. Dickman, S. Bartkowicz, Northrop Grumman

4:15 ASPN Flight Tests- the Evolution in Integrated PNT Flight Testing: J. Rohde, A. Baster, J. Campbell, M. Smearcheck, D. Venable, AFRL Sensors Directorate

4:35 War-Fighter Integrated Navigation System (WINS): N. Vo, US Army

Alternates1. GPS Anti-Jam Enhancements using Network Assisted Military PNT Acquisition (NAMPA): A. Brown, NAVSYS

Corporation

2. International Collaboration Effort to Address GNSS-Degraded Dismount Navigation: J. McIntire, E. Vinande, F. Webber, D. Nguyen, K. Schafer, M. Miller, Air Force Research Laboratory

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Monday, June 6 3:30 p.m.–5:00 p.m.


Tuesday, June 7 8:30 a.m.–10:00 a.m.

Session A2: Atomic Clocks and Timing Applications (Room 302-304)8:35 Next-Generation Space-Based Atomic Frequency Standard Development Program: L. Robertson, J. Burke, Air Force

Research Laboratory; S. Jefferts, S.E. Barlow, T. Heavner, National Institute for Standards and Technology, N. Lemke, Space Dynamics Lab; K. Martin, ATA Inc.

8:55 Precise Time and Frequency Test-bed Infrastructure for Distributed RF: A.T. Baster, J.L. Campbell, S.L. DeVilbiss, AFRL Sensors Directorate; P.G. Howe, MBO Partners

9:15 Rapid, Accurate, and Precise Wireless Time Transfer in a Network of Hand-held Radios: D.T. Goff, R.B. Alwood, W.P. Lounsbury, ENSCO, Inc.; N. Vo, US Army

9:35 Enhanced Velocity and Frequency Estimates from GPS Carrier Phase Using an INS to Screen Individual SV Measurements: S. Yitbarek, Microsemi; F. van Graas, Ohio University; T.Q. Nguyen, AFRL Sensors Directorate; E. Byrne, L. Boehnke, Mircrosemi; P. Howe, MBO Partners

Alternate1. Low G Sensitivity Cesium Atomic Frequency Reference Assembly for Airborne Applications: B.T. Milliren, MTI-

Milliren Technologies, Inc.

Session B2: Test and Training 1 (Room 305)8:35 Embedded Training Application Delivering GPS-Denied Location and Soldier Context in Indoor and Urban

Environments to Enhance Training Realism and Improve Real Time Casualty Assessment: C.A. Politi, J. Napora, TRX Systems; G. Hall, General Dynamics Mission Systems; L. Eifert, US Army Research Library; J. Stevens, University of Central Florida

8:55 A Fieldable Navigation Warfare Testbed: A. Allgeier and M. Dallmeyer, Northrop Grumman

9:15 How Good Is "Good Enough"?: C.J. Pruszynski, Raytheon Missile Systems

9:35 GNSS Independent TSPI of Guided Munitions: W.P. Lounsbury, R.B. Alwood, D.T. Goff, ENSCO Inc., G. Shoemaker, Naval Undersea Warfare Center

Session C2: GPS Modernization (Room 306)8:35 Trusted Multi-GNSS Solutions via GPS OCX Infrastructure: S. Law, and L. Summerer, Raytheon; J. Loving, Infinity

Systems Engineering

8:55 Flexible Mission Planning Tools for Optimized GPS Constellation Performance: S. Law, Raytheon; J. Loving, Infinity Systems Engineering; W. Al-Masyabi, Raytheon; I. Muenzberg, Infinity Systems Engineering

9:15 Enabling Efficient GPS Data Sharing Through National Information Exchange Model (NIEM): W. Al-Masyabi and C. Corwin, Raytheon

9:35 GPS OCX Program Update: B. Sullivan and S. Moran, Raytheon

Session D2: Collaborative Navigation Techniques (Room 307-309)8:35 Distributed, Collaborative Navigation and Mapping in GPS Denied Environments: C. Teolis, J. Karvounis, TRX Systems,

Inc.; K. Johnson, US Army

8:55 NetAssure: An Android Application for Network Based Assurance: D. Hodo, W. Travis, Integrated Solutions for Systems (IS4S); D.M. Bevly, Auburn University; K. Johnson, US Army

9:15 Use of Networked GPS Receivers to Detect, Locate, and Mitigate a Spoofing Attack: D.M. Bevly, S. Martin, J. Starling, Auburn University; D. Hodo and W. Travis, IS4S; K. Johnson, US Army

9:35 Collaborative GPS-denied Navigation: R. Kumar, S. Samarasekera, H.P. Chiu, M. Sizintsev, X. Zhou, P. Miller, G. Murray, SRI International

Francine Vannicola, Naval Research Laboratory

Angela McKinley, US Naval Observatory

Break in Exhibit Hall: 10:00 a.m. – 10:30 a.m.

Lt Col Kenneth Fisher, PACOM

Fay Spellerberg, Joint Navigation Warfare Center

Lt Col Matthew Poisson, SMC/GPU

Elliott Kaplan, The MITRE Corporation

Dr. Yoonkee Kim, US Army

Dr. Adam Rutkowski, AFRL Munitions Directorate

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Tuesday, June 7 10:30 a.m.–12:00 p.m. Session P2: Plenary Session 2 (Room 103)1. CAPT Marc Eckardt, USN, Superintendent, DoD PTTI/CRF Manager, U.S Naval Observatory

2. Harold (Stormy) Martin, SES, Director, Space-Based Positioning, Navigation and Timing, National Coordination Offi ce


Lunch in Exhibit Hall: 12:00 p.m. - 1:30 p.m.

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Tuesday, June 7 10:30 a.m.–12:00 p.m.


Tuesday, June 7 1:30 p.m.–3:00 p.m. Session A3: Inertial Measurement Unit (IMU) 1 (Room 302-304)1:35 Cold Atom Inertial Navigation on Dynamic Platforms: J. Burke, Air Force Research Laboratory; J.A. Stickney, Space

Dynamics Lab

1:55 A Hybrid Atom-Interferometer-Based IMU: D.M.S. Johnson, J. Choy, R. Stoner, K. Kotru, C. Wang, S. Byrnes, A. Gill, T. Thorvaldsen, M. Bottkol, Draper; G. Biedermann, A. Rakholia, Sandia Laboratories; M. Berarducci, AFRL

2:15 Nuclear Magnetic Resonance Gyroscope: M.S. Larsen, Northrop Grumman - Advanced PNT Systems

2:35 Software Defined Coriolis Gyroscopes with Dynamic Self-Calibration: A.A. Trusov, A. Bettadapura, A.D. Meyer, Northrop Grumman Systems Corporation

Alternate1. Crossfire: Development and Demonstration of the Commutating Technique to Improve Gyroscope

Performance: R.M. Pettit, and W.R. Gallagher, ARL, The Pennsylvania State University

Session B3: Impacts and Mitigation Methods for GPS Disruption within Critical Infrastructure (Room 305)1:35 A Time-Frequency Domain Technique for Mitigating Non-Stationary Interference of the Global Positioning

System: F. Hudson, D. Kyger, D. Larsen, B. Titzer, and N. Russell, Booz Allen Hamilton

1:55 Demonstrating the Impact of Electromagnetic Effects on Timing for Critical Infrastructure used in Urban Settings: G. Gerten, G. Johnson, D. Yeager, T. Erbes, PreTalen Ltd.; P. Geraci, Air Force Research Laboratory Sensors Directorate

2:15 A Low-Cost GPS Spoofing Detection System based on a $20 Software Defined Radio: W.L. Myrick, D.T. Goff, R.B. Alwood, W. Lounsbury, ENSCO, Inc.

2:35 Mitigation of GPS Spoofing in Precise Time Distribution – A New Approach: G. Smith, R. Barber, and K. Moon, Brandywine Communications

Alternate1. Preliminary Analysis of Civilian Critical Infrastructure GPS Receivers Against Electronic Warfare Attacks: D.

Weinman, C. Walter and B. Ciskowski, US Army; S. Mahmood, Homeland Security Science & Technology Directorate

Session C3: GPS Constellation Performance (Room 306)1:35 Boeing GPS Navigation Analysis Reports – Interpretation and Evaluation: T. Duffy, Boeing

1:55 Inter Signal Correction Sensitivity Analysis: Assessing SV Aperture Dependent Delays Induced by Antenna Anisotropy and Ground Control Approximations on Modernized GPS Dual Frequency Navigation: G. Okerson, SRI International; J. Ross, The MITRE Corporation; A. Tetewsky, A. Soltz, . Anszperger, S.R. Smith Jr., Draper

2:15 Why (and When) Did the Greenwich Meridian Move?: G.H. Kaplan, US Naval Observatory; S. Malys, National Geospatial-Intelligence Agency (NGA); J.H. Seago, Analytical Graphics, Inc.; N.K. Pavlis, NGA; P.K. Seidelmann, University of Virginia

2:35 Recent Upgrades to the NGA Precise Ephemeris and Other Daily Products: C. Minter, D. MacKeen, R. Wong, D. Manning, and G. York, National Geospatial-Intelligence Agency; J. Lundberg, E. Swift, M. Merrigan, A. Sutter, and J. Drotar, Naval Surface Warfare Center – Dahlgren Division

Alternate 1. Updated Description of P Code for the Modernize Era: F. Czopek, Microcosm, Inc.

Session D3: Alternate Navigation Technologies 1: Naturally Occurring Measurement Sources (Room 307-309)1:35 Sky Polarization Phenomena Observed Using a Low-SWAP Polarization Compass: T. Aycock, D. Chenault, A.

Lompado, J. Harchanko, T. Wolz, K. Peake, Polaris Sensor Technologies

1:55 Aerial Navigation Using the Earth's Magnetic Anomaly Field: A. Canciani and J. Raquet, Air Force Institute of Technology

2:15 Test Results for a Marine Navigation System Using Multiple Geophysical Sources: D.P. Stranghoener, S. Sloat, and K.M. Betts, Leidos, Inc.

2:35 Impact of Geomagnetic Navigation System (GMNS): J. Stanfield, Overlook Systems Technologies, Inc.

Alternates 1. Compact Atomic Magnetometer for Navigation (Nav-CAM): M.S. Larsen, Northrop Grumman - Advanced PNT Systems

2. An Experimental Comparison of GPS/INS for Ground Vehicle Localization Utilizing Measurement Aiding from Vehicle Dynamic Model, GPS Course over Ground, and Magnetometers: D.C. Salmon, G. Morales, B. Nelson and D.M. Bevly, Auburn University

Brian Grantham, US Army

Dr. Robert Lutwak, DARPA

Break in Exhibit Hall: 3:00 p.m. – 3:30 p.m.

Sarah Mahmood, DHS Science and Technology Directorate

John Dragseth, Department of Homeland Security

Maj. John Taylor, USAF 19 SOPS

Trevor Landon, Technology Advancement Group, Inc.

Dr. J.P. Laine, Draper

Mary McGriff, Kearfott

11

Session A4: Inertial Measurement Unit (IMU) 2 (Room 302-304)3:35 Development and Evaluation of a Navigation Grade Resonator Fiber Optic Gyroscope: W. Williams, G. Sanders, M.

Smickilas, J. Wu, L. Strandjord, E. Benser, Honeywell/Advanced Technology

3:55 SuperTAC Inertial Measurement Unit: R. Yahalom, J. Moody, InFiber Technology; W.K. Bischel, M. Kouchnir, Gener8 Inc.; D. Blischok, L-3 Communications, Space & Navigation Division

4:15 Optical Cavity MEMS Accelerometers: B. Grantham, C. Blankenship, US Army AMRDEC; M. Kranz and M. Whitley, EngeniusMicro

4:35 Error Estimation of a Time-Domain Switching MEMS Gyroscope: A.B. Sabater and P.D. Swanson, SPAWAR Systems Center Pacific

Alternate1. Crossfire: Development and Demonstration of the Commutating Technique to Improve Gyroscope

Performance: R.M. Pettit, and W.R. Gallagher, ARL, The Pennsylvania State University

Session B4: Data Authentication/Alternate Sources of Timing for Critical Infrastructure Applications (Room 305)3:35 Chimera: A Framework for GNSS Signal Authentication: J.T. Gillis, R. Lindell, The Aerospace Corporation; J.J. Rushanan,

The MITRE Corporation

3:55 Proposed Legacy-Compatible GPS Signal Variations for Data Augmentation: B.W. O'Hanlon, The MITRE Corporation; K.L. Carroll, Air Force Research Laboratory

4:15 A New Secure Time Distribution Architecture for Precision Time Distribution: G. Smith, K. Moon, R. Barber, Brandywine Communications; C.E. Pinkelman SPAWAR Systems Center Pacific

4:35 Independent Test Results from a LEO-Satellite-Based Secure Timing Solution: J.V. Cordaro, Savannah River National Laboratory; G. Gutt, M. O'Connor, Satelles Inc.; D.J. Shull, Savannah River National Laboratory

Alternate 1. Emerging Civilian use of GPS-RF and MANET Network Positioning with Dynamic Geofences in Forestry and

Wildland Fire: R.F. Keefe and E. Zimbelman, University of Idaho

Session C4: GNSS in Military Applications (Room 306)3:35 Authenticated GNSS MGUE Enhancement for Navigation and Timing (AUGMENT): T. Hohman, G. Gerten, K. Meyer, G.

Johnson, PreTalen Ltd.; P. Geraci, AFRL Sensors Directorate

3:55 Electronic Support (ES) Measures for Navigation Warfare (NAVWAR) and Precision GPS-Based Attitude (GPS/A) Determination with Anti-Jam (AJ) and Anti-Spoof (AS) Processing: G. Johnson, K. Ezal, E. Sandoz, Toyon Research Corporation; M.L. Psiaki, Cornell University; P. Pitoscia, US Army

4:15 Blind Detection, Demodulation and Separation of Civil GNSS Signals: B.G. Agee, B3 Advanced Communication Systems

4:35 NovAtel OEM625S SAASM RTK and ALIGN Performance Analysis: S. Godha and T. Taylor, NovAtel, Inc.

Alternate 1. Joint Kalman Filter Spoofing Detection in GPS Doppler and Code Phase: H. Howard Fan, R. Chaturvedi, and H. Chen,

University of Cincinnati

Session D4: Open Architectures (OAs) (Room 307-309)3:35 Open Architecture - The Key to Creating Cyber Resiliency for the Next Generation EGI-M: M. Miller, LCMC/EN

3:55 Advantages of Data Distribution Service (DDS) Middleware in PNT Data Fusion and Distribution in a System of Systems Architecture: P. Bach, B. Baumann, Raytheon IDS; C. Pinkelman, SSC Pacific

4:15 Scorpion–Scalable Plug-and-play Bayesian Estimation and Filtering Library for Navigation Research: K. Kauffman, Veth Research Associates /Air Force Institute of Technology (AFIT); J. Raquet, D. Marietta, AFIT; J. Kresge, Calhoun Analytics / AFIT

4:35 Implementation of an Open Architecture for Plug-and-Play Navigation Software: P .A. O'Leary, J.M. Eliser, M.A. Turbe, and K.M. Betts, Leidos, Inc.

Alternates 1. Using a Service Oriented Architecture (SOA) for Distribution of Position, Navigation, and Time (PNT) Data: R.S.

Swisshelm, Raytheon

2. AFRL’s Maturation of Airborne Image-Aided Navigation: J.L. Campbell, AFRL/RYWN; C.N. Taylor, AFRL/RYAT; D.T. Venable and J.C. Ha, AFRL/RYWN

Tuesday, June 7 3:30 p.m.–5:00 p.m.


Exhibitor Hosted Reception, Exhibit Hall, 6:00 p.m. - 8:00 p.m.

Virginia Overstreet, US Army

Chris Lund, Honeywell

Dr. Keith Conner, Department Homeland Security

Capt Russell Holmes, USCG NAVCEN

Kristen Palmer, US Army

Kenneth Goussak, The Aerospace Corporation

Dr. Jeffrey Hebert, AFRL Sensors Directorate

Dr. Keith McDonald, The MITRE Corporation

12

Tuesday, June 7 3:30 p.m.–5:00 p.m. Wednesday, June 8 8:30 a.m.–10:00 a.m.


Break in Exhibit Hall: 10:00 a.m. – 10:30 a.m.

Session A5: Multi-Sensor Solutions for Guidance, Navigation and Control (Room 302-304)8:35 Hybrid Relative Navigation System for Aerial Refueling Probe-Drogue and Boom-System: S. Moafipoor, L. Bock, J.A.

Fayman, D. Honcik, Geodetics Inc.

8:55 Collaborative Robust Integrated Sensor Positioning (CRISP) EO-DAS Vision Navigation Flight Test: Y. Ma, Northrop Grumman Corporation; D. Venable and J. Campbell, Air Force Research Laboratory

9:15 Maximizing Civil Certification Capabilities with Minimal Impact on Aircraft Architecture: M. Engel, S. Leavy, and C. Cutright, Honeywell

9:35 NAVSSI Performance Improvements and Path to Assured PNT: M. Ferguson, SSC Pacific

Alternates1. Military Airborne Navigation System Architectures: J. Fleming, Raytheon

2. Quantifying the Effect of Measurement Faults on Multi-Sensor Navigation Systems: S. Langel, The MITRE Corporation

Session B5: Test and Training 2 (Room 305)8:35 Flight Testing the Next-Level Time, Space, Position Information (TSPI) System for Test and Training: M.S. Richard and

E.C. Bolte, Rockwell Collins

8:55 Micro-PNT Test Preparation and Test Conduct Results: I. Nacita, 746 Test Squadron

9:15 Advanced Inertial Test Laboratory: I. Nacita and R. Sturdevant, 746 Test Squadron

9:35 Simulated Programmable Aircraft-Embedded Jammer (SPACE JAM) Upgrades & Expansion: W. Deike, J. Hebert, J. Campbell, AFRL Sensors Directorate; J. Raquet, AFIT/ANT Center; D. Dresher, Northrop Grumman

Session C5: Making MGUE Work (Room 306)8:35 M-code GPS User Equipment Advantages: P. Huber, Rockwell Collins

8:55 M-Code Receiver Readiness: G. Watson and R. Bieniak, L-3 Interstate Electronics Corporation (IEC)

9:15 MGUE Maritime Domain Lead Platform Approach and Status: J. Wrinn, PMW/A 170; K. Weaver, SMC/GPN; C. Pinkelman, SSC Pacific

9:35 Modernized GPS User Equipment (MGUE) and Hot Start Data Transfer: T. Marquez, US Navy, M. Schafer Booz Allen Hamilton (BAH)

Alternate1. M-code Early Integration Results: P. Huber, Rockwell Collins

Session D5: Alternate Navigation Technologies 2: RF Aided (Non-GPS) (Room 307-309)8:35 ADVICE: Advanced Diagnostics for VLF Ionospheric Channel Estimation: R.C. Moore, University of Florida; S.A.

Cummer, Duke University; M. Golkowski, University of Colorado Denver; M. Cohen, Georgia Institute of Technology; V. Rakov, M.A. Uman, University of Florida

8:55 Advancements towards Accurate Global Navigation using Very Low Frequency Signals: M.A. Turbe, D.P. Stranghoener, P.A. O'Leary, and K.M. Betts, Leidos, Inc.

9:15 Vehicle Positioning Results Using Delta-Range Measurements from Man-Made VLF Signals of Opportunity: W.C. Ogle, A. Jovancevic, M. Wenske, J. Wang, K. Patel, K. Jagler, V. Anzalone, S. Kim, Argon ST

9:35 Precision Time and Position Transfer Over Tactical Data Links: C. Obranovich, P. Bidigare, D. Chang, and M. Rudolph, Raytheon BBN Technologies

Alternates1. Improvements on a Positioning Method using Lidar or Radar Range and Range-Rate Measurements of a Single

Spacecraft: P. Reed, A. LeClerc, M. McBeth, SPAWAR Systems Center Atlantic

2. RadarNav: GPS-denied Navigation in Littoral Waters: J. Larson and B. Okorn, SSC Pacific

Phuong (Lisa) Tran, U.S. Army

Randall Jaffe, L-3/Interstate Electronics Corporation

Dr. Alex Cerruti, The MITRE Corporation

Charles Pruszynski, Raytheon

Col Edward Hospodar, SMC/GPU

Lt Col Matt Bradford, SMC/GPUM

Dr. Lin Haas, DARPA

Eric Vinande, AFRL Sensors Directorate

13


Wednesday, June 8 10:30 a.m.–12:00 p.m. Session P3: Plenary Session 3 (Room 103)1. Col Gerard Gleckel, Deputy Director of the Global Positioning Systems (GPS) Directorate, Space and Missile Systems

Center, Air Force Space Command, Los Angeles Air Force Base, California

2. Kevin Coggins, SES, U.S. Army Program Manager PNT, U.S. Army


Lunch in Exhibit Hall: 12:00 p.m. - 1:30 p.m.

14

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Wednesday, June 8 10:30 a.m.–12:00 p.m.


Wednesday, June 8 1:30 p.m.–3:00 p.m.

Break in Exhibit Hall: 3:00 p.m. – 3:30 p.m.

Session A6: Space and Satellite Applications 1 (Room 302-304)1:35 Research and Development on Gallium Nitride RF Amplifiers to Improve GPS: K. Bole, AFRL Space Vehicles

Directorate

1:55 High-Power GaN Solid State Power Amplifier for Modernization of Future GPS Payloads: K. Woolrich and J. Grebliunas, Boeing Network & Space Systems

2:15 GaN Linearized SSPA For Navigational Satellites: S.S. Moochalla, J. MacDonald, A. Katz, R. Dorval, Linearizer Technology Inc.; B. Eggleston, Vintage Microwave

2:35 High Efficiency GPS Block-III L1-band Envelope Tracking Power Amplifier: D.F. Kimball, T. Nakatani, J. Yan, I. Telleiz , P.T. Theilmann MaXentric Technologies LLC.

Alternate 1. Next Generation PNT Satellite Technologies: Navigation Test Satellite 3 (NTS-3): D.C. Chapman, M. Naudeau, Air

Force Research Laboratory; J. Anderson, Canyon Consulting; E. Kaplan, The MITRE Corporation

Session B6: Operational System Demonstrations 1 (Room 305)1:35 Navigation Sensor Smart Cables: M. Smearcheck, J. Campbell, A. Baster, D. Venable, J. Rohde, Air Force Research

Laboratory; K. Kauffman, J. Kresge, D. Marietta, J. Raquet, Air Force Institute of Technology

2:15 TRX NEON Operational System Demonstration: C. Politi and C. Teolis, TRX Systems

Alternate 1. Multi-Platform Anti-Jam GPS Navigation Antenna (MAGNA-F) Affordable Low SWaP GPS Anti-Jam and Iridium

Solution: J. Thomas, Mayflower Communications Company, Inc.

Session C6: Military GPS Receivers and Military GPS Receiver Technology (Room 306)1:35 Chip-Scale Atomic Clock (CSAC)-augmented Military GPS Receiver: C. Zarowski and N.B. Jarmale, Mayflower

Communications Company, Inc.; Y. Kim, US Army

1:55 GNSS Receiver Design Development Based on ChipShape Correlation: R. Armstrong, UDRI; S. Gunawardena, USAF AFIT/ENG; J. Macdonald, USAF AFRL/RYWN

2:15 Modernize GPS User Equipment Capability Assessment Program (MCAP) for Precision Guided Munitions (PGMs): J. Miller, L-3 Interstate Electronics Corporation (IEC)

2:35 Modernized NavFire GPS Receiver for Weapons Applications: W. Trach, Rockwell Collins

Alternates1. Integration of Advanced Capabilities into GNSS Test Architecture (GNSSTA): M. Carroll, Air Force Institute of

Technology (AFIT); J. Hebert, Air Force Research Laboratory (AFRL); J. Pontious, LinQuest; D. Chou, Oak Ridge Institute for Science and Education (ORISE); S. Deaton, The Perduco Group

2. 746th Test Squadron Airborne Jammer System: B. Wells, E. Cason and J. Diaz, 746 Test Squadron

Session D6: Alternate Navigation Technologies 3a: Vision Aided (Room 307-309)1:35 Developments with Vision Aided Navigation for the Warfighter: R. Madison, P. Lommel, Draper; G. Katulka, K.

Johnson, E. Bickford, US Army; S. Sokolowski, QED

1:55 Robustness Testing of a Vision-Aided GPS-Denied Ground Vehicle Navigation System: D.P. Stranghoener, J.H. Britt, P.A. O'Leary, J.M. Eliser, T.J. Mitchell, T.R. Grieve, and K.M. Betts, Leidos, Inc.

2:15 Real-Time Absolute Positioning of a UAV Using Vision-Aided Navigation: T. Machin, J. Raquet, and D. Jacques, Air Force Institute of Technology

2:35 Integrity Monitoring for Stereo Vision-Based Automated Air Refueling: T. Stuart and S. Nykl, Air Force Institute of Technology

Alternate 1. Toward Automated Aerial Refueling: Relative Navigation from Stereo Vision: K.P. Werner, B.D. Denby and B.G.

Woolley, Air Force Institute of Technology/ENG

Dr. David Chapman, AFRL Space Vehicles Directorate

Dr. Jon Anderson, Canyon Consulting, LLC

Dr. Vicki LeFevre, US Army

Dr. Jacob Campbell, AFRL Sensors Directorate

Doug Martoccia, The Aerospace Corporation

John Nielson, Rockwell Collins

Kevin Johnson, US Army

Dr. Adam Rutkowski, AFRL Munitions Directorate

15


Wednesday, June 8 3:30 p.m.–5:00 p.m. Session A7: Space and Satellite Applications 2 (Room 302-304)3:35 An Overview of Air Force Research Laboratory Advanced GPS Technology Developments for Future GPS Satellite

PNT Payloads: K. Slimak and M. Finical, Air Force Research Laboratory

3:55 A GPS III Waveform Generator Enabling the Benefits of Modernization: R. Gold, R. Gold Comm Systems; T. Stansell, Stansell Consulting; R. Little, Iris Technology Corporation

4:15 Signal-in-space Methods for Authentication of Satellite Navigation Signals: K.L. Carroll, Air Force Research Laboratory; J.T. Gillis, The Aerospace Corporation; J.J. Rushanan, The MITRE Corporation; N.P. DevilBiss, ATA Aerospace; R.A. Yazdi, J.M. Anderson, Canyon Consulting

4:35 Waveform Experiments Supporting Next-Generation Satellite Navigation: K.L. Carroll, Air Force Research Laboratory; J.M. Anderson, Canyon Consulting

Alternate 1. Advanced Atomic Frequency Standards for Space Using Cold Atoms and Optical Frequency Combs: J.H. Burke, Air

Force Reseach Laboratory; N. Lemke, G. Phelps, SDL; K. Martin, ATA; S. Jefferts, T. Heavner, S. Barlow, NIST

Session B7: Operational System Demonstrations 2 (Room 305)3:35 A Prototype Vision Aided Navigation System: R. Madison, P. Lommel, Draper; G. Katulka, K. Johnson, E. Bickford, US

Army; S. Sokolowski, QED

4:15 GNSS Hardware-in-the-loop Simulation, Data Collection, Performance Analysis, and Visualization: T. Erbes, PreTalen Ltd.; P. Geraci, Air Force Research Laboratory Sensors Directorate

Session C7: Military GPS/Antenna Technologies and Interference Mitigation (Room 306)3:35 GPS Antijam Steerable Parasitic Array (GASPAR): D.C. Dawson, A. Siripuram, R. Santoyo-Mejia, M. Ontiveros, R.

Thompson, and J.L. Sluder III, SPAWAR

3:55 GPS Anti-Jam Antennas and Situational Awareness: N. Tchorowski, I.J. Gupta, The Ohio State University; J.M. Hebert, AFRL/RYWN

4:15 Signal Processing Algorithms for GPS Anti-Jam/Anti-Spoof & Attitude Determination using a Small Antenna Array: M.L. Psiaki, Cornell University; K. Ezal, Toyon Research Corporation

4:35 A Modernized GPS Receiver with Integrated Space-Time Adaptive Processing (STAP) for Interference Suppression: I. Johnston, L-3 Interstate Electronics Corporation (IEC)

Alternate 1. Jammer Detection and Angle-of-Arrival Estimation Capability in GPS Anti-Jam Antenna System (GAJAS): H.W.

Tseng, C. Zarowski and N.B. Jarmale, Mayflower Communications Company; P. Pitoscia, US Army

Session D7: Alternate Navigation Technologies 3b: Vision Aided (Room 307-309)3:35 Demonstrating Real-Time GPS-Denied Navigation and Image Geo-registration on Airborne Platforms: S. Berardi,

O. Safavian, Northrop Grumman Mission Systems; A. Brown, Toyon Research Corporation; C. Taylor, J.C. Ha, Air Force Research Laboratory

3:55 Improving Real World Performance of Vision Navigation in a Flight Environment: D. Venable, Air Force Research Laboratory, Sensors Directorate; J. Raquet, Air Force Institute of Technology

4:15 Accelerated and Discrete SURF for Homography Estimation in Close Range Aerial Navigation: A. Leighner, B. Woolley, J.M. Pecarina, Air Force Institute of Technology

4:35 Relative Positioning for Automated Aerial Refueling Using Stereoscopic Imagery from Geometrically Accurate Real-Time Virtual Worlds: C. Parsons and S. Nykl, Air Force Institute of Technology

Alternates1. On the Integration of Medium Wave Infrared Cameras for Vision-Based Navigation: J.S. Tharp and B.G. Woolley, Air

Force Institute of Technology/ENG

2. Fusion of Stereo Machine Vision with INS/GPS for Automated Aerial Refueling: D. Johnson and S. Nykl, Air Force Institute of Technology

Dr. Thomas Powell, The Aerospace Corporation

Maj Steven Lewis, USAF Space Command

LtCol Jeremiah Shockley, AFRL Sensors Directorate

Michael Vincelli, US Army

Marlon Browne, US Army DRPM PNT

Greg Gerten, PreTalen, Ltd.

John Del Colliano, US Army

Dr. Jeff Dickman, Northrop Grumman

16

Wednesday, June 8 3:30 p.m.–5:00 p.m.


Thursday, June 9 7:45 a.m.–5:35 p.m.

Session E1: The Navwar Threat: Classified Plenary (US Only) (Kenney Hall, AFIT, WPAFB)8:30 a.m.–11:05 a.m.8:30 KEYNOTE: PNT, CYBER, and Alt Nav: Maj Gen Sandra Finan, Deputy Chief Information Officer for Command, Control,

Communications and Computers (C4) and Information Infrastructure Capabilities, Office of the Secretary of Defense, Pentagon, USAF

9:10 The Air Force's Cyber Resiliency Campaign and it's Impact on PNT: M. Miller, LCMC/EN

9:40 Worldwise Navwar Threat Update: B. Butts, National Air & Space Intelligence Center

10:10 Advanced Threat: Intelligence, Laboratory Demonstration, and Impact Analysis: K. McDonald, K. Martin, D. Shultz, T. Bielicki, M. Kolb, The MITRE Corporation

Break 10:00 a.m. - 10:30 a.m.

11:00 Open Source GPS Threats: M. Nair, Michael D., and B. Patton, Army Research Laboratory

Session E2: Alternative Positioning, Navigation and Timing: Classified (US Only) (Kenney Hall, AFIT, WPAFB)11:20 a.m. - 12:00 p.m.11:20 Daytime Sensor Performance for Celestial Navigation: K.D. MacAloney, U.S. Air Force; Benjamin F. Lane, Draper; J.F.

Raquet, Air Force Institute of Technology

11:40 Military Pseudolite Jamming Coverage and Deployment Analysis & Results: W. Pettus, J. Shields, PM PNT; G. Green, LinQuest Corporation

Lunch Will be Provided: 12:00 p.m. - 1:00 p.m.

Session E3: Warfighter Cross-Talk Panel: Classified (US Only) (Kenney Hall, AFIT, WPAFB)1:00 p.m.–3:00 p.m.

"Cross Talk" is an interactive discussion between the audience and a panel of warfighters who have had recent operational experience that informs the community on how to better formulate military PNT systems. Warfighters will make an opening statement that addresses the nature of their specialty or how current PNT systems are meeting the needs of their missions; be prepared to be "wowed" by film and photographs of their experiences. After the opening statements, questions will be taken from the audience.

Panel members – TBD

6:45 a.m. Buses Depart Marriott University of Dayton for Air Force Institute of Technology, WPAFB7:00 a.m. Buses Depart Crowne Plaza Dayton for Air Force Institute of Technology, WPAFB7:45 a.m.–8:25 a.m. Security Validation/Entry Control: Mr. Mark Correll, Joint Navigation Warfare Center8:25 a.m.–8:30 a.m. Opening Remarks: Mr. Benjamin Wash, Joint Navigation Warfare Center Security: Mr. Mark Correll, Joint Navigation Warfare Center

Benjamin Wash, Joint Navigation Warfare Center


Classified Day Agenda: Kenney Hall, Air Force Institute of Technology, WPAFB

Kevin Coggins, Army PM PNT



17

Session E4: Operational Navwar - Classified (US Only) (Kenney Hall, AFIT, WPAFB)3:30 p.m. - 4:50 p.m.3:30 The Performance of GPS Digital Adaptive Anti-Jam Antenna Systems Against Tailored Jammer Waveforms: I.

Weiss, The Aerospace Corporation; A. Morrison, Booz Allen Hamilton; J. DeCoste, Hughes Design Group

3:50 Phase 1 Military GPS User Equipment Testing and Results at the 746 Test Squadron: J.S. Yeom and I.M. Nacita, 746 Test Squadron

4:10 Offensive NAVWAR: F. Spellerberg and B. Wash, Joint Navigation Warfare Center

4:30 Modeling Global Positioning System Flexible Power Activation with the GPS Interference and Navigation Tool (GIANT): C.F. Vaughan and M.R. Romero, Joint Navigation Warfare Center

Session E5: Signal Integrity and Authenticity: Classified (US Only) (Kenney Hall, AFIT, WPAFB)4:50 p.m. - 5:30 p.m.4:50 Characterization of GNSS Spreading Code Chip Asymmetries: S. Gunawardena and M. Carroll, Air Force Institute of

Technology

5:10 Measured Effects of Representative CRPA Technology on GPS Time and Frequency Recovery in Clear and Challenged Environments: E. Byrne, Microsemi; T.Q. Nguyen, D. Howell, AFRL/RYWN; L. Boehnke, Microsemi; J. Campbell, AFRL/RYWN; J. Warriner, Microsemi; P. Howe, MBO Partners

Alternates1. Extended Testing and Comparison of GNSS Authentication Algorithm Performance: J. Macdonald, USAF AFRL/

RYWN; R. Kolker, Wright State University

2. Flight Demonstration of Navigation Using Draper’s Celestial Object Sighting System: B. Lane, W. Whitacre, P. Lewis, S. Holmes, J.P. Laine, and R. Elliott, Draper

3. A Unified Framework for Detecting and Classifying GPS Spoofers: A. Lemmenes and P. Corbell, Air Force Institute of Technology

4. Flex Power Effects on the SDB/JDAM and on Received Signal Power: G. Cherolis, A. Humphrey, M. Romero, J. Miller, Joint Navigation Warfare Center

5:30 p.m. Closing Remarks: Mr. Neeraj Pujara, JNC 2016 Program Chair.

5:40 p.m. Buses Load







18


Tuesday, June 710:00 a.m.- 4:00 p.m. Exhibits Open

12:00 p.m.-1:30 p.m. Lunch in Exhibit Hall

6:00 p.m.- 8:00 p.m. Exhibitor Hosted Reception

Wednesday, June 810:00 a.m.- 4:00 p.m. Exhibits Open

12:00 p.m.-1:30 p.m. Lunch in Exhibit Hall

FLOOR PLAN

All conference refreshments will be served in the exhibit hall during hall hours on Tuesday and Wednesday.

JNC Conference EventsTuesday, June 7Informal Lunch with Exhibitors: 12:00 p.m.–1:30 p.m., Exhibit HallIncluded in the price of a full registration.

Exhibitor Hosted Reception:6:00 p.m.–8:00 p.m., Exhibit Hall Join exhibitors as they host an evening of information and cuisine. A cash bar will be off ered. This event is included with any type of registration. Spouses and traveling companions ages 21 years and older are welcome to attend.

Wednesday, June 8Informal Lunch with Exhibitors: 12:00 p.m.-–1:30 p.m., Exhibit HallIncluded in the price of a full registration.

Thursday, June 9Informal Lunch for Classifi ed Session Attendees: 12:00 p.m.–1:00 p.m., AFITIncluded in the price of a full or a Thursday single-day registration.

Exhibit Hall Access and Entry ControlThe JNC Exhibit Hall will be restricted to a US ONLY FOUO environment during exhibit hall hours on Tuesday, June 7 and Wednesday June 8, from 10:00 a.m. - 4:00 p.m.

Please note that during the Exhibitor Hosted Reception on Tuesday June 7, from 6:00 p.m. - 8:00 p.m., the Exhibit Hall will be open to spouses and traveling companions ages 21 years and older. Nationality of guests at the reception will not be verifi ed. Exhibitors are advised to limit discussions and demonstrations during this period to public release materials.

Exhibit Hall Information


Main Entrance

20

16

EX

HIB

ITO

RS Acutronic USA, Inc. (Booth 310)

Air Force Research Laboratory (Booth 211)Autonomy and Navigation Technology Center/ AFIT (Booth 312)BAE Systems (Booth 308)The Boeing Company (Booth 106)Brandywine Communications (Booth 109)CAST Navigation, LLC (Booth 208)Cobham Antenna Systems (Booth 110)Davenport Aviation (Booth 104B)EMCORE (Booth 305)FIBERNETICS (Booth 313)GPS Source, Inc. (Booth 102)Harris (Booth 203)Ideal Aerosmith, Inc. (Booth 103)The Institute of Navigation (305B)iXBlue Inc. (Booth 108)Kearfott Corporation (Booth 311)KVH Industries (Booth 300)L-3 Interstate Electronics (Booth 100)

LinQuest Corporation (Booth 309)Mayflower Communications Company, Inc. (Booth 307)Microsemi Frequency and Time Corporation (Booth 101)Northrop Grumman (Booth 210)NovAtel, Inc. (Booth 209)Overlook Systems Technologies, Inc. (Booth 105)PreTalen (Booth 301)Raytheon (Booth 113)Rockwell Collins (Booth 302)Rohde & Schwarz USA (Booth 104)Sensonor AS (Booth 204)Spectracom (Booth 212)Spirent Federal Systems (Booth 200)Systron Donner Inertial (Booth 201)Technology Advancement Group, Inc. (Booth 205)TRX Systems, Inc (Booth 111)VectorNav Technologies, LLC (Booth 112)(List current as of 5/23/16)

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It’sLockedon Target

The Inertial MEMS Performance Leader

for specifi cations and a quote visitwww.systron.comor call866-234-4976

Systron Donner’s improved tactical-grade SDI500 IMU delivers

1°/hr gyro & 1mg accel bias performance over the full -55°C to

+85°C temperature range and through extreme 19g vibration

environments for greater precision at longer stand off ranges.

At only 19 cubic inches, the fast-starting SDI500’s accuracy

is repeatable, never needs calibration and is an excellent

alternative to larger and costlier FOG/RLG technologies.

For more information visit Booth 201

joint navigation · “military navigation technology: the foundation for military ops” june 6-9,...

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