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`CONTACT INFORMATION
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`CURRICULUM VITAE
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`Chris Gregory Bartone, Ph.D., P.E.
`Professor, School of EECS, Ohio University
`President, GNSS Solutions® Ltd.
`Athens, Ohio 45701
`Office: 740-593-9573 (school)
`Mobile: 740-591-1660
`E-mail: bartone@ohio.edu, bartone@GNSSsolutions.com
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`EDUCATIONAL DEGREES/REGISTRATION
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`P.E. in State of Ohio, Registration Number PE 66926, since June 2002
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`Ph.D. Electrical Engineering, Ohio University, Athens, Ohio, Fall 1994 to Spring 1998, awarded
`in June 1998. Dissertation Title: “Ranging Airport Pseudolite for Local Area Augmentation
`Using the Global Positioning System”.
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`M.S. Electrical Engineering, The Naval Postgraduate School, Monterey, CA, Fall 1986 to
`Summer 1987, awarded in August 1987; specialized in Communications Engineering. Thesis
`Title: “Measured Noise Performance of a Direct-Sequence Spread-Spectrum System and a
`Comparison of Single-vice Dual-Channel Delay-Lock Loops”.
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`B.S. Electrical Engineering, The Pennsylvania State University, University Park, PA, Fall 1979
`to Spring 1983, awarded in June 1983; emphasis in electromagnetics, communications, and
`antennas.
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`ACADEMIC EXPERIENCE
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`Ohio University, School of Electrical Engineering and Computer Science, Athens, OH
`Professor (6/2009-Present)
`Associate Professor (5/2004-6/2009)
`Assistant Professor, (3/1999-5/2004)
`Visiting Assistant Professor, (9/1998-3/1999)
`Graduate Instructor, (3/1998-6/1998)
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`Research:
` Differential Global Positioning System (GPS) Performance Analysis task for Northrop-
`Grumman Corporation, El Segundo, CA for engineering services and white paper.
`2/27/2009 to 6/12/2009. Principle Investigator for this task.
` GPS Long Range Navigation (LORAN)-C Analysis and Support, sponsored by the FAA,
`Contract: DTFA01-01-C-00071, Technical Task Description 2.1, 10/1/07 to 12/30/07; new
`work from 1/1/08 to 09/26/08, then with contract extension to 04/30/09. I am the Principle
`Investigator for Loran-C support to FAA on all aspects. Coordinate all development
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`MERCEDES
`EXHIBIT 1011
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`Chris G. Bartone, Ph.D., P.E.
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`including King Air flight tests, Loran Propagation Model (LPM) development and
`validation, ASF measurement and validation studies, legacy performance assessments for
`GPS non-precision approach, H-field antenna specification.
` Ohio University Shielded Antenna Anechoic Chamber, used in research for the following
`projects:
`o Spectral Systems Incorporated/Sierra Nevada Corporation microwave antenna
`development (2.4 GHz band)
`o FAA Instrumented Landing System (ILS) antenna (300MHz band)
`o Stanford University, Joint Precision Approach and Landing System Controlled
`Reception Pattern Array measurement (L band)
`o USCG NDGPS Antenna Performance Analysis (L band)
`o FAA GPS interference work (L band)
`I am the Principle Investigator for development, testing, and coordination of all projects.
`All results were provided back to program sponsors.
` Development of a Prototype NDGPS High Performance Architecture Enhancement. Lead
`agency was the U.S. Department of Transportation (DOT) Federal Railroad Administration
`(FRA) funded through DOT/Volpe Center. Contract DTRS57-04-C-10026 Base Period
`from 10/20/05 to 04/20/06 and Options 1 until 10/20/06 to 10/20/07. This was essentially a
`follow-on contract to the Prototype NDGPS contract shown below. I was the Principle
`Investigator for all development and research efforts.
` Combat Sent System Passive Ranging for high accuracy bearing determination to locations
`off the aircraft body. Issued under contract FA8620-05-G-3015-0002, Subcontract 301502-
`OU-01, from U.S. Air Force, via Spectral Systems Incorporated/Sierra Nevada Corporation,
`from 8/1/05-4/15/06. (Co-PI with Frank van Graas); asked co-PI for advice occasionally.
`Contribution Level: High (~30%). I was the Principle Investigator for all development and
`research efforts including DC-3 flight tests.
` Analysis and Evaluation on Impact of the Wide Area Augmentation System (WAAS) on
`Maritime Radio Navigation Users, from Volpe. Contract DTRT57-05-P-80171 from
`6/17/05-3/17/06. I was the Principle Investigator for all development and research efforts.
` Development of a Prototype Nationwide Differential Global Positioning System (NDGPS)
`and High Performance Architecture Demonstration. Lead agency was the U.S. Department
`of Transportation (DOT) Federal Railroad Administration (FRA) funded
`through
`DOT/Volpe Center. Contract DTRS57-04-C-10026 Base Period from 03/30/04 to 09/30/04
`and Options 2 until 09/30/06. I was the Principle Investigator for all development and
`research efforts. (This was the original DOT/FRA/Volpe contracts, which led to the follow-
`on contract shown earlier.)
` Missile Range Safety Technology (BMRST), Eastern Range, Command Destruct System
`(CDS) Testing Flight Test Support, supported by Florida Air National Guard (FLANG),
`Contract W911YN-06-P-002, from 10/06/05-07/06/05. I was the Principle Investigator for
`all development and research efforts.
` Antenna Baseline and Attitude Measurement Systems (ABAMS) Feasibility Study for
`UAVs, Lead agency is the U.S. Naval Research Laboratory, via ITT Industries, from
`9/29/2004 to 8/5/2005. (co-PI with Tom Arthur)
` Antenna Performance Analysis for the U.S. Coast Guard NDGPS sites. New effort awarded
`from U.S. DOT Volpe Center, Contract DTRS57-04-P-80285, from 8/16/04-04/29/05. I was
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`MERCEDES
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`the Principle Investigator for all development and research efforts.
` Antenna Baseline Measurement System (ABMS) for high accuracy bearing determination to
`locations off the aircraft body. Contract F33657-02-G-4036-0004, Subcontract 4.3604-OU-
`01. Issued from U.S. Air Force, via Spectral Systems Incorporated/Sierra Nevada
`Corporation, from 9/1/03-10/31/04. (Co-PI with Frank van Graas) I was the Principle
`Investigator for the development and research efforts including DC-3 flight tests.
` Anti-Jam Navigation Terminal System (ANTS) for the Air Force Research Laboratory,
`Space Vehicle, Ballistic Missile Technology Program Office. Contract F29601-00-C-0212,
`Anti-Jam Navigation Terminal System Using the Global Positioning System. Multi-year
`contract:
`o Base Year, from 09/07/00 to 2/29/02
`o Option Year One Awarded on 8/14/01 for 12 months:
` Task 3.1 GPS Transceiver Development
` Task 3.2 AZMLA Development; extended to 7/31/03.
`I was the Principle Investigator for all development and research efforts.
` GPS-based Range Safety System to meet the Air Force Research Laboratory, Space
`Vehicle, Ballistic Missile Technology Program Office requirements. Research for the
`establishment, licensing, and certification of a GPS-based range safety system to eliminate
`ground-based radars. Contract F29601-99-C-0176, GPS Range Safety Technology System,
`from 10/1/99 to 9/30/00; then, from 1/17/01-1/31/03. I was the Principle Investigator for all
`development and research efforts.
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`Teaching:
`I taught the following electrical engineering courses at Ohio University, Athens, OH:
`1. EE6900 Satellite Communications, F13-14.
`2. EE 441/541, EE4403/5403Antennas and Microwaves Theory, W98-99, S12-13, S13-14.
`3. EE 605/6054 Satellite-Based Navigation Systems, F00-01, F01-02, F03-04, W04-05,
`F06-07, F07-08, F08-09, F09-10, F10-11, F11-12, F12-13.
`4. EE 602/690 Radar Systems, S99-00, W10-11.
`5. EE 613/690 High-Accuracy Satellite Navigation Systems, S00-01, S01-02, W03-04, S06-
`07, W07-08, W08-09, W09-10, S10-11, S11-12.
`6. EE 690 GNSS Antennas, W11-12.
`7. EE 321/3214 Electromagnetics and Materials I, W99-00, W01-02, W02-03, F12-13, F13-
`14.
`8. EE 395C/EE3223
`Intermediate Electrical and Computer Engineering Design
`Experience/Electromagnetics & Materials II, S02-03, F03-04, F06-07, S07-08, S09-10,
`F10-11, S10-11, F11-12, S11-12, S12-13, S13-14.
`9. EE395B Intermediate Laboratory Experimentation II, W08-09, S08-09, W09-10, S09-10,
`F10-11, W10-11, S10-11, W11-12. (Electromagnetics/Motors part).
` (Electromagnetics/Antennas/Communications).
`10. EE 601/690, Electromagnetic Wave Propagation in Electronic Navigation Systems, F99-
`00, F04-05.
`11. EE 690 Satellite Navigation Systems for Automobiles Seminar (Independent Study),
`S06-07.
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`EXHIBIT 1011
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`Chris G. Bartone, Ph.D., P.E.
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`12. EE 495A/B/C Electrical and Computer Engineering Capstone Design I, II, & III, Design
`Project Leader for a GPS Antenna, 2002-2003 and 2003-2004. Used EECS Antenna
`Anechoic Chamber in design evaluation.
`13. EE 490 Electromagnetics Experimentation Design, F02-03, superseded by EE395C.
`14. EE 690 Antenna Pattern Measurement Seminar (Independent Study), W00-01, F06-07.
`15. EE 371 Applied Probability and Statistics for Electrical Engineers, S97-98, S98-99.
`16. EE 312 Linear Systems and Networks II, W98-99.
`17. EE 310 Linear Systems and Networks I, F98-99.
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`Graduate Student Summary:
`The following lists are for the Theses/Dissertations Directed (Graduated and Current):
`Graduated Students:
`1. Christian Sagardia, MSEE, “Design, Simulation, Fabrication, and Test of a GPS L1
`Antenna Using the Finite-Difference Time Domain Method and Photolithography
`Techniques”, May 2014.
`2. Augustine Yellu, MSEE, “A Uniform Geometrical Theory of Diffraction Model of VHF
`Omni Range (VOR) Systems for Improved Accuracy, August 2013.
`3. Zach Bauer, MSEE, “A Calibration Method for a Controlled Reception Pattern Antenna
`and Software Defined Radio Configuration”, May 2013.
`4. Mahesh Katragadda, MSEE, “Design and Simulation of a Planar Crossed-Dipole Global
`Navigation Satellite System (GNSS) Antenna in the L1 Frequency Band”, Fall 2012.
`5. Ravi Varma Komarabathuni, MSEE, “Performance Assessment of a 77 GHz Automotive
`Radar for Various Obstacle Avoidance Applications”, Ohio University, Spring 2010-
`2011.
`6. Raghunath Viswanatha, MSEE, “A Multi-channel RF Front End for Global Navigation
`Satellite System Receiver”, Ohio University, November 2008.
`7. Tim Needham, MSEE, “A Low Rate Data Link for a High Performance Differential
`Global Positioning System”, Ohio University, June 2008.
`8. Jeff Dickman, Ph.D.EE, “Single Platform Relative Positioning for Sensor Stabilization”,
`Ohio University, June 2008.
`9. Luyi Chen, MSEE, “Dual Frequency Patch Antenna Design for Global Navigation
`Satellite System”, Ohio University, June 2007.
`10. Ian Barton, MSEE, “Antenna Performance Analysis for the Nationwide Differential
`Global Positioning System”, November 2005.
`11. Yujie Zhang, Ph.D.EE, “High Performance Differential Global Positioning System (HP-
`DGPS) For Long Range Baseline Application”, Ohio University, August 2005.
`12. Sumit Bhattacharya, MSEE, “A Real-time Bi-directional Differential Global Positioning
`System Data Link over Internet Protocol”, Ohio University, March 2005.
`13. Sidharth Nair, MSEE, “A Multiple Antenna Global Positioning System Configuration
`For Enhanced Performance”, Ohio University, June 2004.
`14. Sai Kiran, Ph.D.EE, “A Wideband Airport Pseudolite for LAAS”, Ohio University,
`November 2003.
`15. Ranjeet Shetty, MSEE, “A Real-Time Bi-Directional Differential Global Positioning
`System”, Ohio University, November 2002.
`16. Jeff Dickman, MSEE, “Multipath Limiting Antenna Design Considerations for Ground
`Based Pseudolite Ranging Sources”, Ohio University, November 2001.
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`EXHIBIT 1011
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`Current Graduate Students:
`1. Kiran Kumar, “Intelligent Ground Vehicle Control using the Global Positioning
`Systems” graduation planned Spring 2015.
`2. Gangula Rohan Sai, MSEE, “Dual-crossed Dipole Antenna Design for Global Navigation
`Satellite System”, graduation planned Spring 2015.
`3. Joel, Schopis, MSEE, “A Dual-frequency GNSS Antenna for Aviation”, graduation
`planned Spring 2015.
`4. Tim Needham, Ph.D. EE, “A Terrestrial Positioning and Timing System”, Ph.D
`graduation planned Spring 2016.
`5. Meenakshi Kohli, Ph.D. EE, “Printed Planar Antennas Suitable for Semi-conductor
`Devices”, graduation planned, Spring 2016.
`6. Sumit Bhattacharya, Ph.D.EE, Ohio University, “A GPS-based Augmentation Navigation
`System Augmented with Multi-Vision Sensors”, graduation planned Spring 2016.
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`School Committee Service Summary:
`Department Committees:
`1. Accreditation Board for Engineering and Technology (ABET) Committee for Electrical
`Engineering Program, School of EECS, 2013-Present.
`2. Senior Design Committee, coordination of senior design project to ensure ABET
`compliance, 2013, Committee Member.
`3. Curriculum Committee, Review and oversee all changes to curriculums and courses,
`2010-2014, Committee Member.
`4. Graduate, School of EECS, 2004-2006, Committee Member.
`5. Assessment and Accreditation, School of EECS, 2002-2004, Committee Member.
`6. EE Senior Focus for the School of EECS, 2003-2006, Committee Member.
`7. EE Intermediate Courses for the School of EECS, 2003-2006, Committee Member.
`8. EE Design Courses for the School of EECS, 2003-2006, Committee Member.
`9. Matlab® Ad Hoc, February 2004, For discussion on adding additional MATLAB into the
`EECS curriculum. Outcome was to add Matlab® in EE103, Committee Member.
`10. Intermediate Curriculum Committee, Overseeing Development of new EE333/EE334
`Intermediate I/II, EE321 Electromagnetic, and EE371 Probability and Statistics Courses in
`new EECS Curriculum. 1999-2003, Head of Committee.
`11. Stocker Research Award, School of EECS, 1999-2000, Committee Member.
`College Committees:
`1. College Professional Ethics Committee, Russ College of Engineering and Technology,
`2004-2014, Faculty Senate Appointed, Committee Member.
`2. Dean’s Evaluation Committee, for 2009, 2014, Faculty Senate Appointed, Committee
`Member, Chair.
`3. Auto ID 5-year Review Committee. 2005, Committee Member.
`University Committees:
`1. Faculty Senate, Ohio University for 2006-2009, 2009-2010, and 2013-Present. Faculty
`Senator, elected by and represent Russ College of Engineering and Technology.
`2. Educational Programs and Student Activates (EPSA), Ohio University, sub-committee of
`Faculty Senate, 2013-2014, Committee Member.
`3. Copyright Committee, Ohio University, Oct 2013-Present.
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`4. Facilities and Finances Committee (FFC), Ohio University, sub-committee of Faculty
`Senate, 2007-2011, Committee Member.
`5. Professional Relations Committee (PRC), Ohio University, sub-committee of Faculty
`Senate, 2006-2007, Committee Member.
`6. Budget Planning Council, Ohio University; Sept 2004-Sept 2005, committee advises Ohio
`University President and Provost on university wide budget issues. Appointed by Provost,
`Committee Member.
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`Consulting and Seminars Experience
`The follow lists consulting and seminars performed.
`• President for GNSS Solutions® Ltd, founded April 2006, outgrowth of CNS Seminars &
`Consultants, Ltd., www.GNSSsolutions.com
`• Offered 24 tutorials on the two days preceding the ION GNSS 2010 Conference,
`Portland, OR, on September 20-21, 2010.
`• Offered 24 tutorials on the two days preceding the ION GNSS 2009 Conference,
`Savannah, GA, on September 21-22, 2009.
`• Offered 24 tutorials on the two days preceding the ION GNSS 2008 Conference,
`Savannah, GA, on September 15-16, 2008.
`• Offered 25 tutorials on the two days preceding the ION GNSS 2007 Conference, Fort
`Worth, TX, on September 24-25, 2007.
`• Offered 10 tutorials on the two days preceding the ION GNSS 2006 Conference, Fort
`Worth, TX, on September 25-26, 2006.
`• Seminar Instructor for GNSS Solutions® Ltd
`• Taught a three day seminar at Holloman Air Force Base, NM.
`o Fundaments of GNSS with emphasis on GPS, July 22-24, 2014
`• Taught three seminar classes prior to the Institute of Navigation (ION) Global
`Navigation Satellite System (GNSS) 2013 Conference, Nashville, TN, September 16-
`17, 2013:
`• Fundamentals of GNSS I, September 16, 2013
`• Fundamentals of GNSS II, September 16, 2013
`• Fundamentals of GNSS III, September 17, 2013
`• Taught three seminar classes prior to the Institute of Navigation (ION) Global
`Navigation Satellite System (GNSS) 2012 Conference, Nashville, TN, September 17-
`18, 2012:
`• Fundamentals of GNSS I, September 17, 2012
`• Fundamentals of GNSS II, September 17, 2012
`• Fundamentals of GNSS III, September 18, 2012
`• Taught one tutorial prior to Institute of Electrical and Electronics Engineers
`(IEEE)/ION Position Location and Navigation Symposium (PLANS), on GPS Error
`Characterization, Mitigation, and Analysis, April 23, 2012, Myrtle Beach, SC.
`• Taught two seminar classes prior to the Institute of Navigation (ION) Global
`Navigation Satellite System (GNSS) 2011 Conference, Portland, OR, September 19,
`2011:
`• Fundamentals of GNSS I, September 19, 2011
`• Fundamentals of GNSS II, September 19, 2011
`• Taught two seminar classes in Singapore in cooperation with EEM Advancement
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`Seminars Ltd. In 2010 and 2007:
`o Fundamentals of Antennas for Communication, Navigation and Surveillance
`(CNS) Systems
` 6 - 8 December 2010, Copthorne Orchid Singapore
` 3 – 5 December 2007, York Hotel Singapore
`o Fundamentals of Global Navigation Satellite Systems (GNSS)
` 9 – 10 December 2010, Copthorne Orchid Singapore
` 1 – 2 December 2007, York Hotel Singapore
`• Taught two days prior to the Institute of Navigation (ION) Global Navigation
`Satellite System (GNSS) 2010 Conference, Portland, OR, September 20-21, 2010:
`• Fundamentals of GNSS I & II, September 20, 2010
`• GNSS Antenna I-Fundamentals, September 21, 2010
`• GNSS Antenna II-Special Topics, (taught first of three hours), September 21,
`2010
`• Taught one tutorial prior to Institute of Electrical and Electronics Engineers
`(IEEE)/ION Position Location and Navigation Symposium (PLANS), on GPS Error
`Characterization, Mitigation, and Analysis, May 3, 2010, Palm Springs/Indian Wells,
`CA.
`• At IEEE Military Communications (MILCOM) Conference, taught Fundamentals of
`GNSS Tutorial, Boston, MA, October 20, 2009,
`• Taught two days prior to the Institute of Navigation (ION) Global Navigation
`Satellite System (GNSS) 2009 Conference, Savannah, GA, September 21-22, 2009:
`• Fundamentals of GNSS I & II, September 21, 2009
`• Fundamentals of Antenna for GNSS, September 22, 2009
`• Taught two days prior to the ION GNSS 2008 Conference, Savannah, GA, September
`15-16, 2008:
`• Fundamentals of GNSS I & II, September 15, 2008
`• Fundamentals of Antenna for GNSS, September 16, 2008
`• Taught one tutorial prior to Institute of Electrical and Electronics Engineers
`(IEEE)/ION Position Location and Navigation Symposium (PLANS), May 15, 2008,
`Monterey, CA, on Fundamentals of Satellite Navigation Systems Using GPS Tutorial.
`• Taught two days prior to the ION GNSS 2007 Conference, Fort Worth, TX,
`September 24-25, 2007:
`• Fundamentals of GNSS I & II, September 24, 2007
`• Fundamentals of Antenna for GNSS, September 25, 2007.
`• Taught two days prior to the ION GNSS 2006 Conference, Fort Worth, TX,
`September 24-25, 2006:
`• Fundamentals of GNSS I & II, September 25, 2006
`• GNSS Signal Propagation: Theory & Practice, September 25, 2006
`• Fundamentals of DGNSS, September 26, 2006
`• Fundamentals of Antenna for GNSS, September 26, 2006.
`• Taught one tutorial prior to IEEE/ION PLANS, San Diego, CA, April 24, 2006, on
`Fundamentals of Satellite Navigation Systems Using GPS Tutorial.
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` Technical Expert Engineering Consultant with GNSS Solutions® Ltd
`• Supported Global Cooling Incorporate of Athens, Ohio
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`in electromagnetic
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`compatibility, interference emissions product development for European CE testing.
`(July-Aug 2010).
`• Supported Spectracom Corporation for the development of advanced GPS and timing
`products. (June-Aug 2010)
`• Technical Expert Design Consultant for ANTCOM on a Combined Ku/X-band Antenna Array
`for Land Navigations, Conceptual Design, May, 2005.
`• Seminar Instructor for CNS Seminars & Consultants, Ltd. Taught the following:
`• Fundamentals of Antennas, Spectral Systems Incorporated (SSI), Dayton, OH,
`October 19-20, 2005.
`• Fundamentals of Antennas for CNS Systems, National Aeronautics and Space
`Administration (NASA), NASA John Glenn Research Center, Cleveland, OH,
`September 26-28, 2005.
`• Fundamentals of Navigation I, July 28-30, 2003, Florida Air National Guard, Cape
`Canaveral, FL.
`• Seminar Instructor for Navtech GPS Seminars. Taught the following:
`• Pseudolites in Navigation and their Augmentation to GPS/GNSS, ION GNSS 2004
`Tutorial, September 20, 2004, Portland, OR.
`• GPS Antenna Fundamentals and Details, ION GNSS 2004 Tutorial, September 20,
`2004, Portland, OR.
`• GPS Antenna Fundamentals and Details, U.S. Coast Guard C2CEN, Portsmouth, VA,
`August 17, 2004.
`• Pseudolites in Navigation and Their Augmentation to GPS/GNSS, ION GPS 2003
`Tutorial, September 8, 2003, Portland, OR.
`• Pseudolites in Navigation and Their Augmentation to GPS/GNSS, ION GPS 2002
`Tutorial, September 23, 2002, Portland, OR.
`• Technical Expert Engineering Consultant for OnStar, Incorporated on new antenna test
`techniques and small anechoic chamber design, March-August 2001.
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`Florida Institute of Technology, Department of Electrical Engineering, Patuxent River, MD
`Graduate Instructor, (7/89-9/93)
` Taught the following graduate level courses at the Patuxent River, Maryland branch campus:
`1. EE 5234 Communication Systems I, and
`2. EE 5235 Communication Systems II. Text: Ziemer R.E., and Tranter W.H., “Principles
`of Communications, Systems, Modulation, and Noise”, John Wiley, 1985.
`3. EE 5233 Satellite Communications; Text: Pratt T., and Bostian C., “Satellite
`Communications”, John Wiley, 1986.
` Developed Comprehensive Exams for the Communications Concentration and graded
`comprehensive exams for the Linear Systems and Digital Control Systems Concentrations.
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`The Pennsylvania State University, Department of Electrical Engineering, University Park,
`PA
`Teachers Assistant, (12/82-5/83)
` Graded homework and projects in an EE 438 Antenna Engineering course. Text: Stutzman
`W.L., and Thiele G.A., “Antenna Theory and Design”, John Wiley, 1981.
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` Laboratory Assistant in an EE 166 Electrical Instrumentation Laboratory. Answered
`students questions during laboratory, corrected their laboratory notebooks, and evaluated
`student’s design projects.
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`FULL-TIME PROFESSIONAL EXPERIENCE
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`The following is a summary of my full-time professional experience prior to my full-time position at Ohio
`University.
`Electronics Engineer, Naval Air Warfare Center, Patuxent River, MD (6/83-9/98)
`Research Engineer (1994 – 1998), while at Ohio University
` Performed Research Investigating the Integration of Airport Pseudolites into the Local Area
`Augmentation System for increased availability. Research was sponsored by the FAA
`Satellite Program Office and performed at Ohio University.
` Developed unique Multipath Limiting Antennas for Pseudolite Applications,
` Developed and Tested off-frequency and on-frequency Pseudolite Architectures in
`Laboratory, Ground, and Flight Environments,
` Developed unique Pulsing and Automatic Gain Control Blanking Techniques to minimize
`Electromagnetic Interference with GPS,
`Integrated Pseudolite in a Differential Fashion for sub-meter Accuracy Necessary for
`Precision Approach.
`Head, Communications, Navigation, and Identification Laboratory (1989 - 1994)
` Program Manager for the development of the Air Combat Environment Test and Evaluation
`Facility (ACETEF) Communications, Navigation, and Identification (CNI) Laboratory. The
`CNI Laboratory was a new facility that was started in 1989. This position involves the
`design and development of several high fidelity friendly, foreign, and threat CNI simulators
`for the Research, Developmental, Test and Evaluation (RDT&E) of friendly CNI systems
`and Electronic Warfare (EW) systems. The position involved:
` Recruiting and Supervision of 6 Civil Servant and 10-15 Contractor employees.
` Management of $12M in simulator development during tenure. Contracting Officer
`Technical Representative (COTR) on all CNI Laboratory contracts.
` GPS & Auxiliary Navigation Simulator Selection, Procurement, and Integration ($5M).
` Communications Environment Simulator (CES). The CES was developed for high-density
`threat CNI simulation; it was used primarily for the RDT&E of the ES-3A Multi-static Signal
`Processor and the EA-6B ALQ-99 EW System. The CES was developed under the Small
`Business Innovative Research (SBIR) Program. A full-scale CES was developed under a
`Phase III SBIR effort.
` Data Link Simulation: Developed/Procured simulation assets for various
`tactical,
`surveillance, and satellite voice and data links (Link 11, 4A, 16, OTCIXS/DAMA,
`TRAP/TADIX B, TIBS, TRIX, ANDVT, HAVEQUICK, and SINCGARS).
` Development of Communications/Identification Test Tool for RDT&E of CNI systems. This
`test tool was a VXI based test system with simulation, RF network, and data extraction
`components.
` Lead Navy CNI Engineer for the “Prelude Charlie” Project conducted between the U.S.
`Department of Defense and the United Kingdom Ministry of Defense, 1992.
`Communications Engineer (1986 to 1989)
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`Chris G. Bartone, Ph.D., P.E.
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` Primary Design Engineer for the Navy Chainsaw Communication Link, a direct-sequence
`spread-spectrum system used to demonstrate a low rate digital data anti-jam capability in the
`VHF/UHF band. This project was an outgrowth of my thesis and funded from the Navy
`Science Advisory Program.
` Lead Engineer for the development of the Joint Tactical Information Distribution System
`(JTIDS) Laboratory Test System (JLTS), a VME based test system that measures the anti-
`jam (AJ) Margin of the JTIDS terminal as installed in a full-scale aircraft. This system was
`used primarily for E-2C and F-14D Aircraft AJ performance tests during the Developmental
`Testing (Phase II).
` Lead Program Engineer for the Naval Air Test Center on the High-Frequency Anti-Jam/ Link
`11 Improvement Program.
`Identification Friend or Foe Engineer (1983 to 1986)
` Project Engineer for measuring the electromagnetic compatibility (EMC) in the laboratory
`between the JTIDS and various Identification Friend or Foe (IFF), (i.e., secondary radar)
`Transponder (APX-72 & 100) and Interrogator (APX-76) Systems.
` Project Engineer for measuring the EMC in the laboratory between the Mark XV Combat
`Identification System (CIS) and several civilian Air Traffic Control Radar Beaconing System
`(ATCRABS) transponders and a civilian Distance Measuring Equipment (DME) device.
` Responsible for the development of the Navy IFF Test and Evaluation (NIFFTE) capabilities
`at the Naval Air Test Center, which included the establishment of the NIFFTE Laboratory.
`
`
`BOOK PUBLICATIONS
`
`Grewal, M., Andrews, A., Bartone, C., “Global Navigation Satellite Systems, Inertial
`Navigation, and Integration, 3rd Edition, ISBN: 978-1-118-44700-0, 2013, John Wiley & Sons,
`March 2013.
`http://www.wiley.com/WileyCDA/WileyTitle/productCd-111844700X.html
`
`PUBLICATIONS APPEARING IN REFEREED TECHNICAL JOURNALS
`
`For the following list of refereed journals, italic font for author indicate advised student.
`1. Dickman, J., Zhen, Z., Bartone, C., "Carrier Phase Multipath Error Characterization and
`Reduction in Single Aircraft Relative Navigation", GPS Solutions Journal, Springer-
`Verlag,. Volume 14, Number 2 / March, 2010.
`2. Dickman, J., Bartone, C., “Smoothing GPS carrier phase double differences using inertial
`measurements for high performance applications”, GPS Solutions Journal, Springer-
`Verlag, Published online: 22 August 2007, print form, Vol. 12, No. 2, March 2008,
`pp.119-133, DOI 10.1007/s10291-007-0072-x.
`3. Zhang, Y., Bartone, C., “A Real-time MET-based Hopfield Troposphere Correction with
`Integrity Bound for Long Baseline DGPS”, GPS Solutions Journal, Springer-Verlag,
`available on line and in printed version, Vol. 9, No. 4, Nov 2005, pp. 256-272. DOI
`10.1007/s10291-005-0132-z.
`4. Zhang, Y., Bartone, C., “A General Concept and Algorithm of Projected DGPS for High
`Accuracy DGPS Based Systems”, NAVIGATION Journal of The Institute of Navigation,
`Winter 2004-2005 Issue, Vol. 51, No. 4, pp.293-309.
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`5. “Verification and Mitigation of the Power-Induced Measurement Errors for Airport
`Pseudolites in LAAS”, co-author: Kiran, S., GPS Solutions Journal, Springer-Verlag,
`Vol. 7, No. 4, March 2004, pp. 241-252, DOI 10.1007/s10291-003-0076-0.
`6. Kiran, S., Bartone, C., “Flight-Test Results of an Integrated Wideband-Only Airport
`Pseudolite For The Category II/III Local Area Augmentation System”, Institute of
`Electrical and Electronics Engineers, Transactions on Aerospace and Electronics
`Systems, Vol. 40, No. 1, January 2004, pp. 734-741, ISSN 0018-9251.
`7. Thornberg, B., Thornberg, D., DiBenedetto, M., Braasch, M. , Van Graas, F., Bartone,
`C., “The LAAS Integrated Multipath Limiting Antenna (IMLA)”, NAVIGATION
`Journal, of The Institute of Navigation, Vol. 50, No. 2, Summer 2003, pp. 117-130.
`8. Slivinsky, S., Nesbit, C., Bartone, C., Phillips, R., Roxrode, R., Development and
`Demonstration of a Ballistic Missile Range Safety Technology System”, NAVIGATION
`Journal of The Institute of Navigation, Vol. 49, No.2, Summer 2002, pp. 91-102.
`9. Kiran, S., Bartone, C., “Flight-Test Results of an Integrated Wideband-Only Airport
`Pseudolite for the Category II/III Local Area Augmentation System”, NAVIGATION
`Journal of The, Institute of Navigation, Vol. 48, No.1, Spring 2001, pp. 35-48.
`10. Bartone, C., Van Graas, F., “Airport Pseudolite for Local Area Augmentation”, Institute
`of Electrical and Electronics Engineers, Transactions on Aerospace and Electronics
`Systems, Vol. 36, No. 1, January 2000, pp. 278-286, ISSN 0018-9251.
`
`
`OTHER REFEREED PUBLICATIONS
`
`The following list of refereed publications includes a variety of technical refereed conference
`papers (e.g, IEEE Aerospace Conference) a technical navigation magazine (i.e., InsideGNSS)
`and an encyclopedia. Items prior to 2003 are not included in this list.
`1. Dickman, J., Bartone, C., “Considerations for Sensor Stabilization Using Stand-alone
`GPS Velocity and Inertial Measurements”, IEEE Aerospace Conference, Big Sky, MT,
`March 4-9, 2007, pp. 1-16, DOI: 10.1109/AERO.2007.352973.
`2. Bartone, C., "Antenna", The World Book Encyclopedia, World Book, Inc., invited
`article. 2006, pp. 543-544.
`3. Zhang, Y., Bartone, C., “Improvement of High Accuracy Positioning with Real-time
`WaveSmoothTM Multipath Mitigation Technique”, Institute of Electrical and Electronics
`Engineers, Aerospace Conference, March 7-11, 2005, pp. 1-12, IEEE Catalog Number:
`05TH8788C, ISBN: 0-7803-8870-4.
`4. Slivinsky, S., McWhorter, M., Samson, J., Bartone, C., Schofield, Lt. Col. R,
`“Demonstration of the Ballistic Missile Range Safety Technology (BMRST) Mobile
`GPS-Based System for the QRLV-2 Launch”, Institute of Electrical and Electronics
`Engineers Aerospace Conference, March 9-14, 2003, pp. 1-15, IEEE Catalog Number:
`03TH8652C ISBN: 0-7803-7652-8.
`The following list of lightly refereed publications includes a variety of navigation magazines
`(i.e., GPS World), and non-technical navigation newsletters (i.e., ION Newsletter).
`1. Bartone, C., GNSS Antennas, InsideGNSS Magazine, Volume 8, Number 5,
`September/October 2013.
`2. Bartone, C., “From Sextants to Digital GPS Receivers: The Virtual Navigation Museum
`Invites Submissions”, ION Newsletter, Volume 18, Number 2, Summer 2008, pp. 15.
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`Chris G. Bartone, Ph.D., P.E.
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`3. Bartone, C., Horowitz, A., “REACHING OUT! ION Outreach Helps Young Engineers
`Reach for the Sky”, ION Newsletter, Volume 16, Number 4, Winter 2006-2007, pp. 4-5,
`22.
`4. Bartone, C., "Expert Advice: What’s New: ION GNSS 2006", no co-author, GPS World
`Magazine, August 2006, pp. 12, also on-line at:
`http://www.gpsworld.com/gpsworld/article/articleDetail.jsp?id=360950.
`5. Bartone, C., "GNSS Solutions: Will I need a new antenna for the new GPS and Galileo
`signals?, InsideGNSS Magazine, Volume 1, Number 2, March 2006, pp. 21-23.
`6. Bartone, C., "Making the Virtual (Museum) Real”, ION