Abstract
Carrier phase ambiguity resolution on the fly is investigated using two receiver technologies, namely dual-frequency P code and high performance, single frequency, C/A code receivers. Both receiver types were used simultaneously in a series of land kinematic trials. A least-squares search technique is used to find the correct double difference carrier phase ambiguities. Both C/A and single frequency P code technologies are found to be equivalent and capable of resolving the integer ambiguities on the fly using some 30 to 200 seconds of data under benign multipath conditions. Successful ambiguity resolution on the fly results in cm-level accuracy kinematic positioning. The ambiguity resolution time required and success rate are however found to be strongly dependent on the level of carrier phase multipath and, as a consequence, on the error variance assigned to the carrier phase measurements. The use of widelaning with the dual frequency P code results in ambiguity resolution in seconds. The performance of widelaning is also superior in a comparatively high carrier phase multipath environment.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
ASHTECH (1992) Precision GPS Surveying After Y-Code. Technical Document Released in November 1992, Ashtech, Inc., Sunnyvale, CA.
CANNON, M.E. (1990) High Accuracy GPS Semikinematic Positioning: Modelling and Results. Navigation, Vol. 37, No. 1., The Institute of Navigation, Alexandria, VA, pp. 53–64.
CANNON, M.E., and G. LACHAPELLE (1992a) Analysis of a High Performance C/A Code GPS Receiver in Kinematic Mode. Navigation, Vol. 39, No. 3, The Institute of Navigation, Alexandria, VA, pp. 285–299.
CANNON, M.E., and G. LACHAPELLE (1992b) The Development of Rapid and Precise GPS Static Survey Methods — Phase I. Contract Report 92-001, Canada Centre for Surveying, Energy Mines and Resources Canada.
CANNON, M.E., G. LACHAPELLE, and G. LU (1992) Ambiguity Resolution Without Static Initialization Using a High Performance C/A Code Receiver. Proceedings of 48th Annual Meeting, The Institute of Navigation, Alexandria, VA, pp. 161–166.
ERICKSON, C. (1992) Investigations of C/A Code and Carrier Measurements and Techniques for Rapid Static GPS Surveys. MSc Thesis, Publication No. 20044, Department of Geomatics Engineering, The University of Calgary.
ERICKSON, C., G. LACHAPELLE, and SHE BIN BIN (1991) Precise Rapid Static Surveys Using a Combination of Code and Carrier Measurements. Proceedings of ION GPS'91, The Institute of Navigation, Alexandria, VA., pp. 691–698.
FENTON, P., W. FALKENBERG, T. FORD, K. NG, and A.J. Van DIERENDONCK (1991) NovAtel's GPS Receiver, the High Performance OEM Sensor of the Future. Proceedings of GPS'91, The Institute of Navigation, Alexandria, VA.,, pp. 49–58.
FREI, E., and G. BEUTLER (1990) Rapid Static Positioning Based on the Fast Ambiguity Resolution Approach FARA: Theory and First Results. Manuscripta Geodaetica, 15, pp. 325–356.
HATCH, R. (1991) Instantaneous Ambiguity Resolution. Proceedings of IAG International Symposium No. 107 on Kinematic Systems in Geodesy, Surveying and Remote Sensing, Springer Verlag, New York, pp. 299–308.
LACHAPELLE, G., M.E. CANNON, and G. LU (1991) High Precision GPS Navigation With Emphasis on Carrier Phase Ambiguity Resolution. Marine Geodesy, Taylor & Francis, Vol 15, pp. 253–269.
LACHAPELLE, G., M.E. CANNON, C. ERICKSON, and W. FALKENBERG (1992) High Precision C/A Code Technology for Rapid Static DGPS Surveys. SPN — Journal for Satellite-Based Positioning, Navigation and Communication, 1992, 3, Herbert Wichmann Verlag, Karlsruhe, pp. 84–88.
LACHAPELLE, G., C. LIU, G. LU, B. TOWNSEND, M.E. CANNON, and R. HARE (1993) Precise Marine DGPS Positioning Using P Code and High Performance C/A Code Technologies. Proceedings of National Technical Meeting, The Institute of Navigation, Alexandria, VA, pp. 241–250.
LANDAU, H., and H.-J. EULER (1992) On-The-Fly Ambiguity Resolution for Precise Differential Positioning. Proceedings of GPS'92, The Institute of Navigation, Alexandria, VA.,, pp. 607–613.
MADER, G. (1990) Ambiguity Function Techniques for GPS Phase Initialization and Kinematic Solutions. Proc. of 2nd Intern. Symp. on Precise Positioning with the Global Positioning System. The Canadian Institute of Surveying and Mapping, Ottawa, pp. 1234–1247.
REMONDI, B.W. (1991) Kinematic GPS Results Without Static Initialization. Proceedings of 47th Annual Meeting, U.S. Institute of Navigation, Alexandria, VA, pp. 87–111.
Van DIERENDONCK, A.J., P. FENTON, and T. FORD (1992) Theory and Performance of Narrow Correlator Spacing in a GPS Receiver. Proceedings of National Technical Meeting, U.S. Institute of Navigation, Alexandria, VA, pp. 115–124.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lachapelle, G., Cannon, M.E. & Lu, G. A comparison of P code and high performance C/A code GPS receivers for on the fly ambiguity resolution. Bulletin Géodésique 67, 185–192 (1993). https://doi.org/10.1007/BF00806257
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00806257