Pseudolite Bibliography

SNAP wesbite has listed many papers on pseudolites and applicaitons at: http://www.gmat.unsw.edu.au/snap/work/pseudolite.htm

A collection of recent publications on pseudolites from US ION conferences and GPS World Magazine.

Abdel-Masih D., P. Cam, M. Hernandez, A. Bawany, R. Madrid, I.F. Progri , and R. Cockrum, A C-CDMA transmitter design, in Proc. ION-NTM , Monterey, CA, pp. 1081-1088, Jan. 2006.

Altmayer C (1998) Experiences using pseudolites to augment GNSS in urban environment, Proceedings of ION-GPS-98, Nashville, US, September 15-18, 981-991

Altmayer C, Martin S and Theil S (1999) Pseudolite-based position and attitude control of satellites in high Earth orbits, Proceedings of ION 55th Annual Meeting, 28-30 June, Cambrideg, MA, 705-714

BIBERGER, R. J.; TEUBER, A.; PANY, T.; HEIN, G. W.; 2003, Development of an APL Error Model for Precision Approaches and Validation by Flight Experiments. In: Proceedings of ION GPS GNSS 2003, Portland , Oregon , Sept. 09-12.

BABU, R., & WANG, J., 2005. Ultra-tight GPS/INS/PL integration: Kalman filter performance analysis. Int. Symp. on GPS/GNSS , Hong Kong , 8-10 December, paper 6A-05.  

BABU, R., & WANG, J., 2006. Ultra-tight integration of pseudolites and INS. IEEE/ION PLANS , San Diego, California, 25-27 April, 705-714.

Barltrop KJ, Stafford JF and Elrod BD (1996) Local DGPS with pseudolite augmentation and implementation considerations for LAAS, 9th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation GPS ION-96, Kansas City, Missouri, 17-20 Sept., 449-459

Barnes, J., Wang, J., Rizos, C., & Tsujii, T. (2002) The performance of a pseudolite-based positioning system for deformation monitoring, 2nd Symp. on Geodesy for Geotechnical & Structural Applications, Berlin, Germany, 21-24 May, 326-327

Barnes J., J. Wang, C. Rizos, T. Nunan, & C. Reid (2002) The development of a GPS/pseudolite positioning system for vehicle tracking at BHP Billiton steelworks. 15th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation, Portland, Oregan, 24-27 September, 1779-1789.

Barnes J., C. Rizos, J. Wang, X. Meng, A.H. Dodson, & G.W. Roberts (2003) The monitoring of bridge movements using GPS and pseudolites. 11th Int. Symp. on Deformation Measurements, Santorini, Greece, 25-28 May. 563-572

Barnes J., C. Rizos, J. Wang, D. Small, G. Voight, & N. Gamble (2003) Locatanet: The positioning technology of the future? 6th Int. Symp. on Satellite Navigation Technology Including Mobile Positioning & Location Services, Melbourne, Australia, 22-25 July, CD-ROM proc., paper 49

Barnes J., C. Rizos, J. Wang, D. Small, G. Voight, & N. Gamble (2003) Locatanet: A new positioning technology for high precision indoor and outdoor positioning. 16th Int. Tech. Meeting of the Satellite Division of the U.S. Institute of Navigation, Portland, Oregan, 9-12 September. 1119-1128.

Barnes J., C. Rizos, J. Wang, D. Small, G. Voight, & N. Gamble (2003) High precision indoor and outdoor positioning using LocataNet. 2003 Int. Symp. on GPS/GNSS, Tokyo, Japan, 15-18 Nov. 9-18.

BARNES, J., RIZOS, C., KANLI, M., & PAHWA, A., 2006b. A solution to tough GNSS land applications using terrestrial-based transceivers (LocataLites). 19th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation , Fort Worth, Texas, 26-29 Sept., 1487-1493.

ARNES, J., RIZOS, C., WANG, J., SMALL, D., VOIGHT, G., & GAMBALE, N., 2003. Locatanet: A new positioning technology for high precision indoor and outdoor positioning. 16th Int. Tech. Meeting of the Satellite Division of the U.S. Institute of Navigation , Portland, Oregan, 9-12 September, 1119-1128.

Bartone C (1996) Advanced pseudolite for dual-use precision approach applications, Proceedings of the International Technical Meeting of the Satellite Division of the Institute of Navigation ION GPS-96, September, 95-105

Bartone CG (1999) Multipath considerations for ground based ranging sources, 12th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation GPS ION-99, Nashville, Tennessee, 14-17 Sept., 1491-1498

Boiero G., Dovis F., Mondin M., Mulassano P. (2000) A Proposal for the Integration of a Network of HALE Platforms with GPS and GNSS2/Galileo, DAta Systems In Aerospace, DASIA 2000, Montreal, Canada, 22-26 May 2000

Boiero G., Dovis F., Mulassano P., Mondin M. (2001) Increasing the Spatial Limits of LADGPS Using Stratospheric Platforms, Journal of Navigation, Vol. 54, No. 2, May 2001

Bouska T., J. Raquet, (2003) Tropospheric Model Error Reduction in Pseudolite-Based Positioning Systems, 16th Int. Tech. Meeting of the Satellite Division of the U.S. Institute of Navigation, Portland, Oregan, 9-12 September. 390-398.

Choi IK, Wang J, Han S, & Rizos C (2000) Pseudolites: a new tool for surveyors? Proceeding of the 2nd Trans Tasman Survey Congress, Queenstown, New Zealand, 20-26 August, 141-149 [PDF file]

Chung Y.Y., M. Dedeaux, J. Miyamoto, S. Galicia, J. Lim, I.F. Progri , and R. Cockrum, The simulation and implementation of the acquisition of a 1-D C-CDMA indoor geolocation system, in Proc. ION-NTM , Monterey, CA, pp. 174-183, Jan. 2006.

Cobb S (1997) GPS pseudolites: Theory, design, and applications, Ph.D. Thesis, Stanford University

Cobb HS, Lawarence D, Pervan B., Cohen C., Powell JD & Parkinson B (1995) Precision landing tests with improved integrity beacon pseudolites, Proceedings of ION GPS-95, 827-833

Cobb S and O'Connor M (1998) Pseudolites: enhancing GPS with ground-based transmitters, GPS World, March

Corazzini, T., and How, J.P., Onboard Pseudolite Augmentation System for Relative Navigation, Proceedings of the Institute of Navigation GPS-99 Conference, Nashville, TN, Sept. 1999, pp. 1559-1568

COSSER, E., MENG, X., ROBERTS, G.W., DODSON, A.H., BARNES, J., & RIZOS, C., 2004. Precise engineering applications of pseudolite augmented GNSS. 1st FIG Int. Symp. on Engineering Surveys for Construction Works & Structural Eng . , Nottingham , U.K. , 28 June - 1 July, paper TS10.1, CD-ROM procs.

Dai L, Zhang J, Rizos C, Han S & Wang J (2000) GPS and pseudolite integration for deformation monitoring applications, 13th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation, Salt Lake City, Utah, 19-22 Sept., 1-8

Dai L, Wang J, Rizos C & Han S (2001) Applications of pseudolites in deformation monitoring systems, 10th FIG Int. Symp. on Deformation Measurements, Orange, California, 19-22 March, 11-22 [PDF file]

Dai L, Wang J, Tsujii T, and Rizos C (2001) Pseudolite-based inverted positioning and its applications, The 5th International Symposium on Satellite Navigation Technology & Applications, Canberra, Australia, July 24-27 [PDF file]

Dai L, Wang J, Tsujii T, and Rizos C (2001) Pseudolite applications in positioning and navigation: Modelling and geometric analysis, Proceedings of KIS2001, Banff, Canada, 6-9 June [PDF file]

LI, D., & WANG, J., 2006. Kalman filter design strategies for code tracking loop in ultra-tight GPS/INS/PL integration. U.S. Institute of Navigation National Tech. Meeting , Monterey, California, 18-20 January, 984-992.

LI, D., WANG, J., & BABU, R., 2006. Enhancing the performance of ultra-tight integration of GPS/PL/INS: A federated filter approach. Journal of Global Positioning Systems , 5(1-2), 96-104.

DODSON, A.H., COSSER, E., MENG, X., ROBERTS, G.W., BARNES, J., & RIZOS, C., 2003. Integrated approach of GPS and pseudolites for bridge deformation monitoring. GNSS2003, Graz, Austria, 22-25 April, CD-ROM proc., paper 205.

Dovis F., Ghiglione A., Giraldi E., Mulassano P. (2002) HeliNet project: HAP Support Segment for Global Navigation Systems, Data System in Aerospace - DASIA 2002, Dublin, Eire, 13-16 May, 2002

Dovis F., Ghiglione A., Mulassano P. (2002) Augmentation Signal Broadcasting from High Altitude Platforms, GNSS2002, Copenaghen (Denmark), May 2002

Dovis F., Kandus G., Magli E., Olmo G. (2000) HeliNet: integration of stratospheric platforms within the GNSS2 system, GNSS 2000 International Conference, Edinburgh, Scotland, UK, 1-4 May 2000

Dovis F., Mulassano P. (2001) Design of a Local Segment of Galileo Based on Stratospheric Platforms, NavSat 2001 Nice Acropolis, France, 13-15 November, 2001

Dovis F., Mulassano P., Boiero G. (2001) System Analysis of a Stratolite-Based Local Segment for Galileo, Global Navigation Satellite Systems 2001 Seville (Spain), 8-11 May, 2001

Elrod BD & Van Dierendonck AJ (1996) Pseudolites, in: Parkinson, B.W. and Spilker, J.J. (eds.), Global Positioning System: Theory and Applications (Vol. II), American Institute of Astronautics, Washington, D.C., 51-79

Ford T, Neumann J, Petersen W, Anderson C, Fenton P, Holden T and Barltrop K (1996) HAPPI- a High Accuracy Pseudolite/GPS Positioning Integration, 9th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation GPS ION-96, Kansas City, Missouri, 17-20 Sept., 1719-1728

Galijan RC & Lucha GV (1993) A suggested approach for augmenting GNSS category III approaches and landings: the GPS/Glonass and Glonass pseudolite system, Proceedings of 6th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation, Salt Lake City, Utah, 22-24 Sept., 157-160

Grejner-Brzezinska D., Yi Y.D., Wang J. (2002) Design and Navigation Performance Analysis of an Experimental GPS/INS/PL System, 2nd Symp. on Geodesy for Geotechnical & Structural Applications, Berlin, Germany, 21-24 May, 452-461

Grejner-Brzezinska, D., Bevis, M., Hong, C.K., Bae, T.S., Lamance, J., & Rizos, C., 2004. Kinematic LEO POD with space- and ground-based transceiver constellation tightly coupled with GPS: Simulation study. 10 Years IGS: Workshop & Conference, Bern, Switzerland, 1-5 March.

Harrington RL & Dolloff JT (1976) The inverted range: GPS user test facility, Proceedings of IEEE PLANS'76, San Diego, CA, Nov. 1-3, 204-211

Hartmann GK and Leitinger R (1984) Range errors due to ionospheric and tropospheric effects for signal frequencies above 100MHz, Bull. Geod., 58, 109-136

HE, X. , 2005 Pseudolite -Augmented GPS For Deformation Monitoring: Analysis and. Experimental Study, International Symposium on GPS/GNSS, Hong Kong , 08/12~10/12/2005.

HE X. ; CHEN, Y.Q.; SANG, W. ; YANG, G. , 2007, Pseudolite-augmented GPS for Deformation Monitoring: Analysis and Experimental Study Acta Geodaetica et Cartographica Sinica , No.1.

Hein GW, Eissfeller B, Werner W, Ott B, Elrod BD, Barltrop K and Stafford J (1997) Practical investigations on DGPS for aircraft precision approaches augmented by pseudolite carrier phase tracking, 10th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation GPS ION-97, Kansas City, Missouri, 16-19 Sept., 1851-1960

Hein GW, Eissfeller B, Werner W, Ott B & Oehler V (1998) New results and experiences from DGPS/DAPL experiments using a two-antenna receiver and different PL-oscillator-types, Proceedings of GNSS-98, October, 20-23, Toulouse, France, paper IX-O-08, 6p

GREJNER-BREZINSKA, D. and YI, Y., 2004, Experimental GPS/INS/Pseudolite system for kinematic positioning, Survey Review, Vol. 37, No. 290 October 2003.

Hill J M, Progri IF and Michalson WR (2001) Techniques for reducing the near-far problem in indoor geolocation systems, Proceedings of the National Technical Meeting of the Satellite Division of the ION, 2001, January 22-24, Long Beach, California [PDF file]

Holden T and Morley T (1997) Pseudolite augmented DGPS for land applications, 10th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation GPS ION-97, Kansas City, Missouri, 16-19 Sept., 1397-1403

Holden, Tom, et al., Development and Testing of a Mobile Pseudolite Concept for Precise Positioning, Proceedings of the Institute of Navigation GPS-95 Conference, Palm Springs, CA, Sept. 1995, pp. 817-826

JUN H and C. KEE, 2006, High Accuracy Pseudolite -based Navigation System: Compensating for Right-hand circularly Polarized Effect. The Journal of Navigation, 59, 307–320.

Kalafus RM, Van Dierendoc AJ & Pealer N (1986) Special Committee 104 Recommendations for Differential GPS Service, Global Positioning System (red book), The Institute of Navigation, Vol. I, 101-126

Kanli, M.O. (2004) Limitations of Pseudolite Systems Using Off-the-Shelf GPS Receivers, Proceedings of the 2004 International Symposium on GPS/GNSS, 6-8 Dec. 2004, Sydney, paper [PDF file]

Kao,W.W., C-L Tsai (2003) Carrier Phase Indoor Positioning Using Pseudolites and INS, 16th Int. Tech. Meeting of the Satellite Division of the U.S. Institute of Navigation, Portland, Oregan, 9-12 September. 2593-2598.

Kee, C., Yun, D., Jun, H., Parkinson, B., Lenganstein, T., and Pullen, S., (1999) Precise Calibration of Pseudolite Positions in Indoor Navigation System, Proceedings of ION GPS-99, Nashville, Tennessee, USA, September, 1999, pp.

Kee, C., Jun, H., Yun, D., Kim, B., Kim, Y., Parkinson, B., Lenganstein, T., Pullen, S., and Lee, J. (2000) Development of Indoor Navigation System using Asynchronous Pseudolites, Proceedings of ION GPS-2000, Salt Lake, Utah, USA, September [PDF file]

Klein, D., Parkinson, B.W., The Use of Pseudo-Satellites for Improving GPS Performance, Global Positioning System, Vol. III, Institute of Navigation, Washington, DC, 1986

K O'Keefe, J. Sharma, M.E. Cannon, and G. Lachapelle, (1999) Pseudolite-Based Inverted GPS Concept for Local Area Positioning, Proceedings of GPS99 (Session D4, Nashville, 14-17 September), The Institute of Navigation, Alexandria, VA

Lawrence, David et. al. Augmenting Kinematic GPS with a Pulsed Pseudolite to Improve Navigation Performance, Proceedings of the 1996 National Technical Meeting, Santa Monica, CA, USA., Institute of Navigation 1996, pp. 537-545

H.K. Lee, J. Wang, C. Rizos and T. Tsujii (2005): Augmenting GPS by ground-based pseudolite signals for airborne surveying applications, Survey Review, Vol. 38, No. 296. pp.88-99.

LEE, H.K., WANG, J., & RIZOS, C., 2005. An integer ambiguity resolution procedure for GPS/Pseudolite/INS integration. Journal of Geodesy , 79, 242-255.

LEE, H.K., WANG, J., RIZOS, C., & GREJNER-BRZEZINSKA, D., 2004. Analysing the impact of integrating pseudolite observations into a GPS/INS system. Journal of Surveying Engineering , 130(2), 95-103.

Lee, H.K., J. Wang, & C. Rizos, (2002) Kinematic positioning with an integrated GPS/pseudolite/INS, 2nd Symp. on Geodesy for Geotechnical & Structural Applications, Berlin, Germany, 21-24 May, 314-325

Lee H.K., J. Wang, C. Rizos, J. Barnes, T. Tsujii, & B.K.H. Soon (2002) Analysis of pseudolite augmentation for GPS airborne applications. 15th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation, Portland, Oregan, 24-27 September, 2610-2618.

Lee H.K., J. Wang, C. Rizos, & W.Y. Park (2003) Carrier phase processing issues for high accuracy integrated GPS/Pseudolite/INS systems. 11th Int. Assoc. of Institutes of Navigation World Congress, Berlin, Germany, 21-24 October, CD-ROM proc. paper 252

LeMaster E and Rock S (1998) Mars exploration using self-calibrating pseudolite, Proceedings of ION GPS-98, Nashville TN, September, 1967--1974

LeMaster E and Rock S (1999) Self-calibration of pseudolite arrays using self-differencing transceivers, Proceedings of ION GPS-99, Nashvile, Tennessee, 14-17 Sept., 1549-1558

LeMaster E and Rock S (2000) Field test results for a self-calibrating pseudolite array, Proceedings of ION GPS-2000 Salt Lake City UT, September, 1046--1055

LeMaster E and Rock S (2001) A local-area GPS pseudolite-based mars navigation system, Proceedings of the IEEE 10th International Conference on Advanced Robotics, Budapest Hungary, August [PDF file]

LeMaster, E., Matsuoka, M., and Rock, S. (2003) Mars Navigation System Utilizes GPS, IEEE Aerospace and Electronic Systems Magazine, Vol. 18, No. 4, April 2003, pp. 3-8.

LeMaster, E. (2003), GPS on the Web: Applications of GPS Pseudolites, GPS Solutions, Vol. 6, No. 4, Mar 2003, pp. 268-270.

LeMaster E. (2002) Self-Calibrating Pseudolite Arrays: Theory and Experiment, PhD thesis, Stanford University, Department of Aeronautics and Astronautics, Stanford, CA 94305, May 2002. Also published as SUDAAR 757. [PDF file]

LeMaster E., Masayoshi Matsuoka, and Rock S. (2002) Field Demonstration of a Mars Navigation System Utilizing GPS Pseudolite Transceivers, In Proceedings of the 2002 IEEE Position, Location, and Navigation Symposium, pages 150--155, Palm Springs CA, April 2002 [PDF file]

LeMaster E. and Stephen M. Rock (2003) A Local-Area GPS Pseudolite-Based Navigation System for Mars Rovers, Journal of Autonomous Robots, Vol. 14, No. 2-3, Mar-May 2003, pp. 209-224.

LeMaster E. and Stephen M. Rock (2002) An Improved Solution Algorithm for Self-Calibrating Pseudolite Arrays, In Proceedings of the 2002 Institute of Navigation National Technical Meeting, San Diego CA, January 2002, pp. 562-572 [PDF file]

Martin S (1999) Antenna diagram shaping for pseudolite transmitter antennas - a solution to the near-far problem, 12th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation GPS ION-99, Nashville, Tennessee, 14-17 Sept., 1473-1482

Matsuoka, M., Rock, S., and Bualat, M. (2004) Autonomous Deployment of a Self-Calibrating Pseudolite Array for Mars Rover Navigation, Proceedings of the 2004 IEEE Position, Location, and Navigation Symposium (PLANS), Monterey, CA, April 2004.

Matsuoka, M., LeMaster, E., and Rock, S. (2002) 3-D Capabilities for GPS Transceiver Arrays, Proceedings of the Institute of Navigation GPS-2002 Conference, Portland, OR, Sept 2002, pp. 824-834.

Meng X.L. Roberts G.W., Dodson A.H., Crosser E., Noakes C. (2002) Simulation of the Effects of Introducing Pseudolite Data into Bridge Deflection Monitoring Data, 2nd Symp. on Geodesy for Geotechnical & Structural Applications, Berlin, Germany, 21-24 May, 372-381

MENG, X., ROBERTS, G.W., DODSON, A.H., COSSER, E., BARNES, J., & RIZOS, C., 2004. Impact of GPS satellite and pseudolite geometry on structural deformation monitoring: Analytical and empirical studies. Journal of Geodesy , 77, 809-822.

W.R. Michalson and I.F. Progri , “Reconfigurable geolocation system,” US Patent 7,079,025 , July 18, 2006

Michalson WR and Progri IF (2000) Assessing the Accuracy of Underground Positioning Using Pseudolites, Proceedings of the ION GPS-2000, September 19-22, Salt Lake City, UT [PDF file]

Morley T and Lachapelle G (1997) GPS augmentation with pseudolites for navigation in constricted waterways, Navigation, Jaurnal of the Institute of Navigation, 44(3), 359-372

Morley, T. (1997) Augmentation of GPS with Pseudolites in a Marine Environment, MSc Thesis, published as Report No. 20108, Department of Geomatics Engineering, The University of Calgary

Morley, T., and G. Lachapelle (1998) Pseudolite Augmentation for OTF Ambiguity Resolution in Shipborne Mode, Journal of Surveying Engineering, American Society of Civil Engineers, 124, 1, 26-39

Morley, T., and G. Lachapelle (1998) GPS Augmentation with Pseudolites for Navigation in Constricted Waterways Navigation, The Institute of Navigation, Alexandria, VA, 44, 3, 359-372

Ndili, A. GPS Pseudolite Signal Design, Proceedings of the Institute of Navigation GPS-94 Conference, Salt Lake City, UT, Sept. 1994, pp. 1375-1382 [PDF file]

O'Connor, M.L., Carrier Phase Differential GPS for Automatic Control of Land Vehicles, Ph.D.. Thesis, Stanford University, December 1997

O'Keefe K, Sharma J, Cannon ME and Lachapelle G (1999) Pseudolite-based inverted GPS concept for local area positioning, 12th Int. Tech. Meeting of the Satellite Division of the U.S. Inst. of Navigation GPS ION-99, Nashvile, Tennessee, 14-17 Sept., 1523-1530

Olsen, Eric, et al., Carrier-phase Bias Initialization for Formation Flying Vehicles Using Onboard Pseudolites, Proceedings of the Institute of Navigation GPS-99 Conference, Nashville, TN, Sept. 1999, pp. 459-468

Opshaug, G. (2002) Leapfrog Navigation System, Proceedings of the Institute of Navigation GPS-2002 Conference, Portland, Oregon, September 2002.

Pachter M and McKay J (1998) Geometry optimization of a GPS-based navigation reference system, J. of the Institute of Navigation, 44, No.4, pp.457-470

Park, Chan-Woo, et al., Sensing Technologies for Formation Flying Spacecraft in LEO Using CDGPS and Inter-Spacecraft Communications System, Proceedings of the Institute of Navigation GPS-2000 Conference, Salt Lake City, UT, Sept. 2000, pp. 1595-1607

Pervan B, Cohen CE and Parkinson B (1994) Integrity monitoring for precision approach using kinematic GPS and a ground-based pseudolite, Journal of the Insititute of Navigation, 41(2), 159-174

Pervan B and Parkinson B (1997) Cycle ambiguity estimation for aircraft precision landing using the Global Positioning System, Journal of Guidance, Control, and Dynamics, Vol. 20, No. 4, pp.681-689

Petrovski, I., K. Okano, S. Kawaguchi, H. Torimoto, K. Suzuki, M. Toda, J. Akita, (2003) Indoor Code and Carrier Phase Positioning with Pseudolites and Multiple GPS Repeaters, 16th Int. Tech. Meeting of the Satellite Division of the U.S. Institute of Navigation, Portland, Oregan, 9-12 September. 1135-1143.

I.F. Progri , M.C. Bromberg, and W.R. Michalson, “Maximum likelihood GPS parameter estimation,” NAVIGATION J. Inst. Nav. , vol. 52, nr. 4, pp. 229-238, winter 2005-2006.

I.F. Progri , W.R. Michalson, J. Wang, M.C. Bromberg, and R.J. Duckworth, “ Requirements of a C-CDMA pseudolite indoor geolocation system ,” in Proc. ION-AM 2007 , Cambridge , MA , Apr. 2007.

I.F. Progri , J. Maynard, W.R. Michalson, and J. Wang, “ The Performance and simulation of a C-CDMA pseudolite indoor geolocation system ,” in Proc. ION-GNSS 2006 , Fort Worth , TX , pp. 2465-2477, Sep. 2006.

I.F. Progri , W. Ortiz, W.R. Michalson, and J. Wang, “ The Performance and simulation of an OFDMA pseudolite indoor geolocation system ,” in Proc. ION-GNSS 2006 , Fort Worth , TX , pp. 3149-3162, Sep. 2006.

Progri IF, Michalson WR (2000) A System for Tracking and Locating Emergency Personnel Inside Buildings, Proceedings of the ION GPS-2000, September 19-22, Salt Lake City [PDF file]

Progri IF, Hill J M, Michalson WR (2001) An Investigation of the Pseudolite’s Signal Structure for Indoor Applications, the ION Annual Meeting in Albuequerque, June 11-13, 2001 [PDF file]

Progri IF, Hill J M, and Michalson WR (2001) A Doppler based navigation algorithm, Proceedings of the National Technical Meeting of the Satellite Division of the ION, January 22-24, Long Beach, California [PDF file]

Progri IF and Michalson WR (2000) Adaptive Spatial and Temporal Selective Attenuator in the Presence of Mutual Coupling and Channel Errors, Proceedings of the ION GPS-2000, September 19-22, Salt Lake City, UT [PDF file]

Progri IF and Michalson WR (2000) Performance evaluation of Category III precision landing using airport pseudolites, Proceedings of 2000 IEEE on Position, Location, and Navigation Symposium (PLANS-2000), San Diego, March 13-16

Progri IF and Michalson WR (2001) An innovative navigation algorithm using a system of fixed pseudolites, Proceedings of the National Technical Meeting of the Satellite Division of the ION, 2001, January 22-24, Long Beach, California [PDF file]

Progri IF and Michalson WR (2001) The Impact of Proposed Pseudolite’s Signal Structure on the Receiver’s Phase and Code Error, the ION Annual Meeting in Albuequerque, June 11-13, 2001 [PDF file]

Progri IF, Michalson WR and Jonathan Hill (2001) Assessing the accuracy of navigation algorithms using a combined system of GPS satellites and pseudolites, Proceedings of the National Technical Meeting of the Satellite Division of the ION, January 22-24, Long Beach, California [PDF file]

Progri IF and Michalson WR (2002) A combined GPS satellite/pseudolite system for category III precision landing, in Proc. IEEE PLANS, April 15-17 [PDF file]

Progri IF (2003) An assessment of indoor geolocation systems, Ph.D. Dissertation, Worcester Polytechnic Institute, USA, (please see this Dissertation and a complete list of Dr. Progri's publications at: http://www.giftet.com/Giftet_Publications.htm )

Raquet, J., G. Lachapelle, W. Qiu, C. Pelletier, T. Nash, P. Fenton, and T. Holden (1995) Development and Testing of a Mobile Pseudolite Concept for Precise Positioning, Proceedings of GPS-95 (Palm Springs, 12-15 September), The Institute of Navigation, Alexandria, VA , pp. 817-826. {ION GPS95 Best Paper Award}

Raquet, J., G. Lachapelle, W. Qiu, G., C. Pelletier, T. Nash, Snodgrass, P. Fenton, and T. Holden (1996) Development and Testing of a Mobile Pseudolite Concept for Precise Positioning Navigation, The Institute of Navigation, Alexandria, VA, 43, 2, 149-165

RIZOS C. 2005, Pseudolite Augmentation of GPS, Workshop on Geolocation Technology to Support UXO Geophysical Investigations, Annapolis , Maryland , 1-2 June.

Robles R., J. Betz, J. Schupp, J. Leal, M.J. Brown and Dr. I.F. Progri , An autonomous robotic pseudolite navigation system, in Proc. ION-NTM , Monterey, CA, pp. 803-812, Jan. 2006.

Stansell TA, Jr (1986) RTCM SC-104 Recommended pseudolite signal specification, Global Positioning System, Navigation Volume III, The Insitute of Navigation, 117-134

SOON, B.H.K., POH, E.K., BARNES, J., LEE, H.K., ZHANG, J., LEE, H.K., & RIZOS, C., 2003. Preliminary results of the carrier-smoothed code-phase differential GPS/pseudolite system. 6th Int. Symp. on Satellite Navigation Technology Including Mobile Positioning & Location Services, Melbourne, Australia, 22-25 July, CD-ROM proc., paper 48.

SOON, B.K.H., BARNES, J., LEE, H.K., ZHANG, J., RIZOS, C., WANG, J., & LEE, H.K., 2004. Real-time flight test results of an integrated GPS/INS/pseudolite autolanding system. GNSS2004 , Rotterdam , The Netherlands, 16-19 May, CD-ROM proc., paper 16.

SOON, B.H.K., POH, E.K., BARNES, J., ZHANG, J., LEE, H.K., LEE, H.K., & RIZOS, C., 2003. Flight test results of precision approach and landing augmented by airport pseudolites. 16th Int. Tech. Meeting of the Satellite Division of the U.S. Institute of Navigation, Portland, Oregan, 9-12 September, 2318-2325.

Stone JM, Powell JD (1998) Precise positioning with GPS near obstructions by augmentation with pseudolites, Proceedings of IEEE PLANS, Palm Springs, CA, 562-569

Stone MJ and Powell JD (1999) Precise positioning using GPS satellites and pseudolites emphasizing open pit mining applications, 4th Int. Symp. on Satellite Navigation Technology & Applications, Brisbane, Australia, 20-23 July

Stone J, LeMaster E, Powell D and Rock S (1999) GPS pseudolite transceivers and their applications, Proceedings of ION-NTM-99, San Diego, US, January 25-77

T. Tsujii, M. Harigae, K. Okano and H.K. Lee (2007): Testing of GPS Augmentation by Aircraft-based Pseudolite, Journal of the Japan Society for Aeronautical and Space Sciences, Vol.55, No.641, pp.266-272. (In Japanese)

T. Tsujii, M. Harigae and M. Harada(2004): Navigation and Positioning System using High Altitude Platforms Systems (HAPS), Journal of the Japan Society for Aeronautical and Space Sciences, Vol.52 , No.603, pp.175-185. (In Japanese)

T. Tsujii, H. Tomita, Y. Okuno, S. Kogure, M. Kishimoto, K. Okano, M. Dinesh, I. Petrovski, M. Asako: Development of a BOC/CA Pseudo QZS and Multipath Analysis Using an Airborne platform, The Institute of Navigation National Technical Meeting, San Diego, US, 22-24 January, 2007, pp.446-451.

T. Tsujii, H. Tomita, Y. Okuno, S. Kogure, M. Kishimoto, K. Okano, M. Dinesh, I. Petrovski, M. Asako: Measuring Multipath Error of a Pseudo Quasi-Zenith Satellite, International Symposium on GPS/GNSS 2006, Jeju , Korea , 20 October, 2006 )

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Last updated on 25/6/2007, please email any corrections or additions to this list to: Dr. Jinling Wang