Index to the proceedings of the Precise Time And Time Interval (PTTI) systems and applications (formerly applications and planning) meeting
TIME AND FREQUENCY TRANSFER, SYNCHRONIZATION, AND DISTRIBUTION
The entry for each paper is preceded by a hyphenated numerical code indicating its subject, Proceedings volume number, and page number therein, i.e, 01-02-032 represents subject category "1", Proceedings volume number "2" and page number "32". The following index covers the PTTI Proceedings from the 2nd (1970) through the 41st (2009).
01-02-032 | Precise Time and Time Interval (PTTI) Dissemination via the Loran-C System; C. E. Potts |
01-02-079 | Recent VHF/UHF Satellite Timing Experiments at the National Bureau of Standards; G. Kamas and D. W. Hanson |
01-02-109 | Comments on Navsat Time Distribution; G. M. R. Winkler |
01-02-111 | Moon-Bounce Time Synchronization; W. H. Higa and S. C. Ward |
01-02-119 | Time Dissemination Methods for Network and Local Television; G. Kamas |
01-03-103 | Mini Modem for PTTI Dissemination; J. A. Murray, Jr. |
01-03-167 | DSCS PTTI Transfer; Capt. R. E. Enright |
01-03-261 | Performance and Results of Portable Clocks in Aircraft; J. C. Hafele |
01-03-317 | Fiber Optic Links for PTTI Dissemination; J. F. Bryant |
01-03-331 | Real Time Synchronization via Passive Television Transmission; J. D. Lavanceau and D. Carroll |
01-04-014 | British American Satellite Time Transfer Experiment; R. Easton |
01-04-213 | Utilization of FSK Communications for Time; R. R. Stone, Jr., T. H. Gatus, and T. N. Lieberman |
01-04-249 | The Uses and Limitations of HF Standard Broadcasts For Time and Frequency Comparison; J. T. Stanley |
01-05-163 | Submicrosecond Time Transfer between the United States, United Kingdom, and Australia via Satellite; R. L. Easton, H. M. Smith, and P. Morgan |
01-05-317 | All Chain Loran-C Time Synchronization; Lt. Cdr. H. T. Sherman |
01-05-369 | Clock Synchronization Experiments Using Omega Transmissions; A. R. Chi and S. C. Wardrip |
01-06-029 | Review of Available Synchronization and Time Distribution Techniques; R. G. Hall, T. N. Lieberman, and R. R. Stone |
01-06-099 | The Present Development of Time Service in Brazil with the Application of the TV Line-10 Method For Coordination and Synchronization of Atomic Clocks; P. M. Silva and I. M. Silva |
01-06-187 | Recent Field Test Results Using Omega Transmissions For Clock Synchronization; A. R. Chi and S. C. Wardrip |
01-06-263 | Performance of Loran-C Chains Relative to UTC; A. R. Chi |
01-06-453 | A Passive Submicrosecond Time Dissemination System; R. J. Taylor |
01-06-513 | Statistical Analysis of Time Transfer Data from Timation II; J. M. Luck and P. Morfan |
01-07-285 | High Precision Time Transfers in the Field; W. J. Klepczynski |
01-07-323 | High Precision Time Transfer Methods; K. Putkovich |
01-07-341 | International Time Transfer Between USNO and RGO via NTS-1 Satellite; H. M. Smith, N. P. J. O'Hora, R. Easton, J. Buisson, and T. McCaskill |
01-07-357 | A Two-Way Time Transfer Experiment Using a Synchronous Satellite; A. R. Chi and E. Byron |
01-07-393 | Subnanosec - Laser-pulse Time Transfer to an Aircraft To Measure the Gen. Relativ. Altitude Effects on Atomic Clock Rates; C. Alley |
01-08-055 | Precise Worldwide Station Synchronization via the Navstar GPS Navigation Technology Satellite (NTS-1); J. Buisson, T. McCaskill, H. Smith, P. Morgan, and J. Woodger |
01-08-147 | Improved Time Reference Distribution for a Synchronous Digital Communications Network; H. A. Stover |
01-09-139 | Time from NBS by Satellite; D. W. Hanson, D. D. Davis, and J. V. Cateora |
01-09-153 | A Transit Satellite Timing Receiver; G. A. Hunt and R. E. Cashion |
01-09-167 | A Time Transfer Unit for GPS; J. T. Witherspoon and L. Schuchman |
01-09-201 | Precise Time Transfer to the NASA Spaceflight Tracking and Data Network (STDN) via the Tracking and Data Relay Satellite System (TDR SS); G. P. Gafke, J. W. Mcintyre, S. C. Laios, and S. C. Wardrip |
01-09-227 | A Precision Microwave Frequency and Time Distribution System; J. W. MacConnell and R. L. Sydnor |
01-09-239 | Precise Time Transfer Unit (PTTU); J. J. Wilson, J. E. Britt, and P. A. Mitchell |
01-09-249 | Real Time Distribution via Passive TV Transmissions; J. D. Lavanceau and L. F. Shepard |
01-09-277 | New Ways of Time and Standard Frequency Dissemination over TV Networks; B. Kovacevic |
01-09-289 | International Time and Frequency Comparison for Long Term via VLF and Loran-C; Y. Yasuda, K. Akatsuka, T. Matsuura, and H. Ohazawa |
01-09-319 | Nanosecond Time Transfer via Shuttle Laser Ranging Experiment; V. S. Reinhardt, D. A. Premo, M. W. Fitzmaurice, and S. C. Wardrip |
01-09-503 | Time Transfer Experiments for DCS Digital Network Timing and Synchronization; P. Alexander and J. W. Graham |
01-10-537 | Time Synchronization via the Transit Satellite at Mizusawa; T. Hara and K. H. Sato |
01-10-585 | Two-Way Time Transfers between NRC/NBS and NRC/USNO via the Hermes (CTS) Satellite; C. C. Costain, H. Daams, J. S. Boulanger, D. W. Hanson, and W. J. Klepczynski |
01-10-601 | Submicrosecond Comparisons of Time Standards via the Navigation Technology Satellites (NTS); J. Buisson, T. McCaskill, J. Oaks, D. Lynch, C. Wardrip, and G. Whitworth |
01-10-629 | Submicrosecond Comparison of Intercontinental Clock Synchronization by VLBI and the NTS Satellite; W. J. Hurd, J. Bussion, J. Oaks, T. McCaskill, S. C. Wardrip, H. Warren, and G. Whitworth |
01-10-643 | Clock Synchronisation Experiment in India Using Symphonie Satellite; Y. V. Somayajulu, B. S. Mathur, P. Banerjee, S. C. Garg, L. Singh, P. C. Sood, Tuhi Ram Tyagi, C. L. Jain, and K. Kumar |
01-10-693 | Tempus: a Proposal for an International Time Transfer and Precision Tracking Satellite; D. C. Holmes |
01-11-045 | Satellite Time Transfer via TDRSS and Applications; A. R. Chi |
01-11-145 | The LASSO Experiment; B. Serene and P. Albertinoli |
01-11-171 | Some Implications of Reciprocity for Two-Way Clock Synchronization; J. L. Jespersen |
01-11-213 | Time Dissemination--an Update; K. Putkovich |
01-11-235 | Time Transfer with the Navstar Global Position System; B. Roth, W. Klepczynski, and R. G. Hall |
01-11-255 | Precise Time and Time Interval (PTTI) Measurements from the Navigation Technology Satellites and the GPS Navstar-4 Satellite; J. A. Buisson, T. B. McCaskill, O. J. Oaks, M. M. Jeffries, and S. B. Stebbins |
01-11-283 | Time Recovery Measurements Using Operational GOES and Transit Satellites; R. E. Beehler, D. D. Davis, J. V. Cateora, A. J. Clements, J. A. Barnes, and E. Mendez-quinones |
01-11-315 | T&F Comparisons via Broadcasting Satellite and Navigation Technology Satellite; Y. Saburi, Y. Yasuda, S. Kobayashi, and T. Sato |
01-11-329 | One Way Time Transfer via Meteosat Capable of 30 Ns Accuracy; K. Nottarp, W. Schluter, and U. Hubner |
01-11-343 | Time Dissemination in the Hydro Quebec Network; G. Missout, W. Lefrancois, and L. Laroche |
01-11-351 | Time Coded Distribution via Broadcasting Stations; S. Leschiutta, V. Pettiti, and E. Detoma |
01-11-363 | Voice Announcements of Time: A New Approach; J. Jespersen, G. Kamas, and M. Weiss |
01-11-387 | A Study of Time Dissemination via Satellite in India; B. S. Mathur, P. Banerjee, P. C. Sood, Mithlesh Saxena, Nand Kumar, A. K Suri, C. L. Jain, and K. Kumar |
01-11-471 | Time Transfer via Satellite-link Radio Interferometry; S. H. Knowles, W. B. Waltman, J. L. Yen, W. H. Cannon, W. Petrachenko, N. W. Broten, C. Costain, D. H. Fort, J. A. Galt, J. A. Popelar, and G. W. Swenson |
01-11-485 | Comparison of Different Time Synchronization Techniques; R. Kaarls and G. Dejong |
01-11-499 | Two-Way Time Transfer via Geostationary Satellites NRC/NBS, NRC/USNO and NBS/USNO via Hermes and NRC/LPTF (France) via Symphonie; C. C. Costain, J.-S. Boulanger, H. Daams, D. W. Hanson, R. E. Beehler, A. J. Clements, D. D. Davis, W. J. Klepczynski, L. Veenstra, J. Kaiser, B. Guinot, J. Azoubib, P. Parcelier, G. Freon, and M. Brunet |
01-11-521 | The SIRIO-1 Timing Experiment; E. Detoma and S. Leschiutta |
01-11-599 | Source Structure Errors in the Synchronization of Clocks by Radio Interferometry; J. B. Thomas |
01-12-099 | A Space System for High-Accuracy Global Time and Frequency Comparison of Clocks; R. Decher, D. W. Allan, C. 0. Alley, R. F. C. Vessot, and G. M. R. Winkler |
01-12-307 | Progress of the LASSO Experiment; B. E. H. Serene |
01-12-329 | Two-Way Sequential Time Synchronization: Preliminary Results from the SIRIO-1 Experiment; E. Detoma and S. Leschiutta |
01-12-351 | Flight and Ground Tests of a GOES Satellite Time Receiver For Satellite Communications Applications; R. L. Swanson and S. A. Nichols |
01-12-863 | Precise Time and Frequency Intercomparison between NRL, India and PTB, Federal Republic of Germany via Satellite Symphonie-1; B. S. Mathur, P. Banerjee, P. C. Sood, M. Saxena, N. Kumar, and A. K. Suri |
01-13-087 | Precise Time Dissemination via Portable Atomic Clocks; K. Putkovich |
01-13-133 | Using the Navstar Global Positioning System As a Global Timing System; K. L. Kovach |
01-13-199 | Time Information Distribution at White Sands Missile Range (abstract); R. A. Stimets, Jr. |
01-13-231 | Comparison of VLBI, TV, and Traveling Clock Techniques for Time; J. H. Spencer, E. B. Waltman, K. J. Johnston, N. J. Santini, W. J. Klepczynski, D. N. Matsakis, P. E. Angerhofer, and G. H. Kaplan |
01-13-281 | Time Transfer of IRIG-B Time Code via Dedicated Telephone Link; G. Missout, J. Beland, D. Lebel, G. Bedard, and P. Bussiere |
01-13-299 | Variations in Propagation Delay Times for Line Ten (TV) Based Time Transfers; M. C. Chiu and B. W. Shaw |
01-13-347 | Time Comparison via OTS-2; G. de Jong, R. Kaarls, D. Kirchner, and H. Ressler |
01-13-373 | Design Approach for a Microprocessor-Based GPS Time Transfer Receiver; P. C. Ould and R. J. Van Wechel |
01-13-389 | Time Transfer Using Navstar GPS; A. J. Van Dierendonck, Q. D. Hua, J. R. McLean, and A. R. Denz |
01-13-419 | Global Positioning System Time Transfer Receiver (GPS/TTR) Prototype Design and Initial Test Evaluation; J. Oaks, A. Frank, S. Falvey, M. Lister, J. Buisson, C. Wardrip, and H. Warren |
01-13-469 | Time Code Dissemination Experiment via the SIRIO-1 VHF Transponder; E. Detoma, G. Gobbo, S. Leschiutta and V. Pettiti |
01-13-527 | Unprecedented Syntonization and Synchronization Accuracy via Simultaneous Viewing with GPS Receivers; Construction Characteristics of an NBS/GPS Receiver; D. D. Davis, M. Weiss, A. Clements, and D. W. Allan |
01-13-817 | An NNSS Satellite Timing Receiver; C. L. Jain, K. Kumar, H. I. Andharia, M. Singh, V. D'Souza, V. K. Goel, and A. K. Sisodia |
01-14-031 | Two-Way Satellite Time Transfer Using Low Power CW Tones; C. C. Costain, H. Daams, and J. S. Boulanger |
01-14-039 | Time Maintenance of User Clocks via the Tracking and Data Relay Satellite System; G. Whitworth, J. W. McIntyre, and R. E. Downs |
01-14-057 | GOES Satellite Time Code Dissemination; R. E. Beehler |
01-14-205 | High-Accuracy Global Time and Frequency Transfer with a Space-borne Hydrogen Maser Clock; R. Decher, D. W. Allan, C. O. Alley, C. Baugher, B. J. Duncan, R. F. C. Vessot, and G. M. R. Winkler |
01-14-243 | Time Transfer between the Goddard Optical Research Facility and the U.S. Naval Observatory Using 100 Picosecond Laser Pulses; C. O. Alley, J. D. Rayner, C. A. Steggerda, J. V. Mullendore, L. Small, and S. Wagner |
01-14-269 | Discussion on Goddard Satellite Time Transfer; G. M. R. Winkler, C. O. Alley, B. L. Decker, S. K. Starker, P. E. Talley, and D. W. Allan |
01-14-326 | Omega Navigation System Synchronization; W. K. May |
01-14-451 | Timing Subsystem Development - Network Synchronization Experiments; K. R. Backe |
01-14-483 | Portable Clock Analyses (abstract); F. N. Withington |
01-14-487 | Some Time Transfer Experiences with Indian Experimental Satellite APPLE (abstract); B. S. Mathur, P. Banerjee, A. sen Gupta, M. Saxena, A. K. Hanjura, A. K. Suri, C. L. Jain, K. Kumar, M. R. Sivaraman, and Sheela |
01-14-491 | Systematic Effects in GPS Time Transfer (abstract); W. J. Klepczynski |
01-14-517 | Intercontinental Time and Frequency Transfer Using a Global Positioning System Timing Receiver; P. A. Clements |
01-14-529 | Test Results of the STI GPS Time Transfer Receiver; D. L. Hall, J. Handlan, and P. Wheeler |
01-14-605 | One Nanosecond Time Synchronization Using Series and GPS; L. A. Buennagel, D. J. Spitzmesser, and L. E. Young |
01-15-009 | Timing Accuracy of LF and TV Synchronization Techniques; Y. Miao and X. Pan |
01-15-071 | International Time Comparison by a GPS Timing Receiver; M. K. Fujimoto, K. Fujiwara, and S. Aoki |
01-15-087 | First Results of GPS Time Transfer to Australia; J. M. Luck, J. R. Woodger, J. E. Wells, P. N. Churchill, and P. A. Clements |
01-15-133 | Enhancements to the TTS-502 Time Transfer System; A. J. Van Dierendonck and Q. D. Hua |
01-15-211 | GPS Navigation Experiment Using High Precision GPS Timing Receivers; J. Buisson, O. J. Oaks, M. Lister, S. C. Wardrip, S. Leschiutta, P. G. Galliano, F. Cordara, V. Pettiti, E. Detoma, P. Dachel, H. Warren, T. Stalder, F. Fedele and R. Azzarone |
01-15-283 | International Time Transfer and Portable Clock Evaluation Using GPS Timing Receivers: Preliminary Results; S. C. Wardrip, J. Buisson, O. J. Oaks, M. Lister, E. Detoma, P. Dachel, T. Stalder, H. Warren, G. Winkler, G. Luther, S. Leschiutta, P. G. Galliano, F. Cordara, V. Pettiti, R. Azzarone, and F. Fedele |
01-15-331 | Spread Spectrum Time Transfer Experiment via Intelsat; P. Hartl, L. Veenstra, N. Gieschen, K.-M. Mussener, W. Schafer, C.-M. Wende, W. Klepczynski, H.-H. Nau, and R. Stoiber |
01-15-357 | Unattended TV Time Transfer Results; J. A. Waak and J. H. Spencer |
01-15-371 | The Role of a Low Earth Orbiter in Intercontinental Time Synchronization via GPS Satellites; S.-C. Wu and V. J. Ondrasik |
01-15-413 | UHF IRIG G Distribution System; M. Tope |
01-15-443 | Precise Time Transfer Using MKIII VLBI Technology; K. J. Johnston, J. A. Buisson, M. J. Lister, O. J. Oaks, J. H. Spencer, W. B. Waltman, G. Elgered, G. Lundqvist, A. E. E. Rogers, T. A. Clark, C. Ma, A. C. Johnson, K. Kingham, W. J. Klepczynski, G. Luther, A. J. Kubik, and D. D. McCarthy |
01-15-707 | Time Synchronization Experiments with APPLE; C. L. Jain, K. Kumar, M. R. Sivaraman, B. S. Mathur, P. Banerjee, A. Sengupta, M. Saxana, A. K. Hanjura, and A. K. Suri |
01-16-229 | Ionospheric Limitations to Time Transfer by Satellite; S. H. Knowles |
01-16-247 | A Review of Tropospheric Refraction Effects on Earth-to-Satellite Systems (abstract); E. E. Althsuler |
01-16-249 | Atmospheric Limitations to Clock Synchronization at Microwave Frequencies; G. M. Resch |
01-16-385 | Time Transfer Techniques: Historical Overview, Current Practices and Future Capabilities; W. J. Klepczynski |
01-16-411 | New GOES Satellite Synchronized Time Code Generator; D. E. Fossler and R. K. Olsen |
01-16-419 | The Time and Frequency Comparisons via Loran-C and National TV Network in Yugoslavia; Z. M. Markovic and S. Hajdukovic |
01-16-427 | Maintenance of Time and Frequency in the Jet Propulsion Laboratory's Deep Space Network Using The Global Positioning System; P. A. Clements, S. E. Borutzki, and A. Kirk |
01-16-447 | Using GPS and VLBI Technology to Maintain 14 Digit Syntonization; S. C. Ward |
01-16-467 | A Simplified GPS C/A Receiver Front End with Low Noise Performance; D. D. Davis and A. D. Clements |
01-16-475 | Performance Test Results of a Low Cost GPS Time and Frequency Monitor (abstract); R. C. Hyatt and J. M. Ashjaee |
01-17-075 | Time Transfer - Terrestrial; J. A. Barnes |
01-17-077 | Time Transfer by Satellite; O. J. Oaks |
01-17-201 | R-CATS--A New Method for Calibrating Global Positioning System (GPS) Remote Sites; J. A. Buisson, O. J. Oaks, and M. J. Lister |
01-17-223 | Measuring the Propagation Time of Coaxial Cables Used with GPS Receivers; G. de Jong |
01-17-233 | Discussion of Clock Residuals in Developmental GPS Satellites Measured with a Single Channel Receiver; S. D. Chang and T. D. Maclay |
01-17-245 | Long Term Comparisons With GPS Receivers; M. Imae, M. Uratsuka, C. Miki, T. Morikawa, K. Akatsuka, and K. Yoshimura |
01-17-261 | Weighting and Smoothing of Data in GPS Common View Time Transfer; M. A. Weiss |
01-17-277 | Time Dissemination at Shanghai Observatory; Q. Zhuang |
01-17-287 | A Network Timing Concept for Switzerland; P. Kartaschoff, P. A. Probst, and P. Voros |
01-17-303 | Network Timing Equipment for Synchronous Digital Telecommunication; P. Girardet, P. Rochat, and E. Graf |
01-17-319 | Telemetry Time Integration; E. L. Davis |
01-18-037 | GPS Clock Technology and Navy PTTI Programs at the U.S. Naval Research Laboratory; R. L. Beard, J. Murray, and J. D. White |
01-18-089 | A Review of the Frequency and Timing Activities at the Jet Propulsion Laboratory; L. Maleki and P. F. Kuhnle |
01-18-099 | BIH Report; B. Guinot |
01-18-113 | National Physics Laboratory, U.K. Time and Frequency Report, 1986; P. B. Coates, J. E. Gibbs, D. J. E. Knight, D. S. Sutcliffe, and B. R. Swabey |
01-18-131 | Time Keeping and Time and Frequency Dissemination at the Istituto Elettrotecnico Nazionale (IEN); F. Cordara and V. Pettiti |
01-18-155 | Activities on Time and Frequency at Shanghai Observatory; Z. Zaocheng, Z. Qixiang, H. Jinlin, and K. Wunwei |
01-18-165 | Research Activities on Time and Frequency at the Radio Research Laboratory; N. Imai, S. Kobayashi, K. Yoshimura, and K. Nakagiri |
01-18-177 | Status of Activities and Plans for Precise Time Comparisons in Australia; J. M. Luck, I. K. Harvey, R. W. Harris, and G. G. Harvey |
01-18-203 | Use of Liberia Omega Transmissions for Frequency Calibration in Egypt; S. Samuel |
01-18-213 | Navstar GPS Program Status and Phase III GPS User Equipment; P. W. Nieuwejaar |
01-18-265 | A Calibration of GPS Equipment at Time and Frequency Standards Laboratories in the USA and Europe; W. Lewandowski, M. Weiss, and D. Davis |
01-18-283 | Remote Clock Calibration via GPS; C. F. Lukac, G. H. Luther, L. G. Charron, and R. E. Keating |
01-18-295 | WSMC Approach for Using GPS to Synchronize Remote Site Timing; J. B. McConnell and R. L. Baker |
01-18-305 | Precise Time from GPS for Department of Defense Test and Training Ranges; J. D. Luse and S. S. Sanford |
01-18-395 | Results of Using the Global Positioning System to Maintain the Time and Frequency Synchronization in the Jet Propulsion Laboratory's Deep Space Network; P. A. Clements, A. Kirk, and R. Unglaub |
01-18-407 | GPS-Based Network Syntonization via Nonmagnetic Control of Cesium Standards; E. A. Rodrigo, J. Bowell, J. Barnes, and J. D. Echols |
01-18-437 | Stability Measurements of Ku-Band Spread Spectrum Equipment Used for Two-Way Time Transfer; D. A. Howe |
01-18-541 | A Telephone-Based Time Dissemination System; D. Jackson and R. J. Douglas |
01-18-555 | Precise Time Transfer Using the Starfix System (abstract); A. R. Dennis |
01-19-003 | Use of the GPS Time Transfer at the Bureau International des Poids et Mesures; B. Guinot and W. Lewandowski |
01-19-025 | Dual Frequency P-Code Time Transfer Experiment; J. R. Clynch, B. W. Tolman, M. A. Weiss, D. W. Allan, and D. Davis |
01-19-033 | Apparent Diurnal Effects in the Global Positioning System; M. Weiss |
01-19-049 | An Off-Air Observatory Time Service; A. R. Seabrook |
01-19-058 | Global Positioning System for Time and Frequency Measurements; G. F. Knoernschild |
01-19-149 | Influence of Acoustic-Gravity Waves on Propagation of Loran-C; Y. Zheng |
01-19-155 | Linking Saudi Arabia Loran-C Chain to Mediterranean Chain; S. Samuel |
01-19-337 | Redundant Time and Frequency Reference Units for Satellite Applications; A. Vulcan, C. Gloeckl, M. Meirs, and T. McClelland |
01-19-345 | Portable Hydrogen Maser Clock Time Transfer at the Subnanosecond Level; L. J. Rueger, M. C. Chiu, S. D. Deines, R. A. Nelson, J. T. Broomfield, and C. O. Alley (see Errata Volume) |
01-19-381 | Standard Time and Frequency Signal Dissemination Service via Indian Domestic Satellite Insat-1B; A. Sen Gupta, A. K. Hanjura, P. Banerjee, and B. S. Mathur |
01-20-013 | State-of-the-Art Fiber Optics for Reference Frequency Distribution over Short Distances; G. F. Lutes and L. Primas |
01-20-065 | Use of GPS to Synchronize the AT&T National Telecommunications Network; E. W. Butterline, J. E. Abate, and G. P. Zampetti |
01-20-077 | A Dual Frequency GPS Receiver Measuring Ionospheric Effects without Code Demodulation, and Its Application to Time Comparisons; M. Imae, W. Lewandowski, C. Thomas, and C. Miki |
01-20-087 | Orbit Period Frequency Variations in the GPS Satellite Clocks; E. R. Swift and B. R. Hermann |
01-20-101 | A Calibration of GPS Equipment in Japan; M. Weiss and D. Davis |
01-20-133 | The Evolution of Synchronization in the Worldwide Omega System; V. Vannicola and H. McManus |
01-20-145 | Measurements of Propagation Time of Loran-C Signals; T. Hara, K. Horiai, K. Sato, M. Fujishita, S. Sakai, K. Iwadate, and K. Asari |
01-20-151 | Meteorological Influences on Loran-C Propagation over Sea and Land in Mediterranean Sea Chain; Z. M. Markovic |
01-20-163 | Loran-C Timing Calibration of Caribou, Maine; R. E. Keating, C. F. Lukac, G. H. Luther, and L. G. Charron |
01-20-183 | Frequency and Time Synchronization in Digital Communications Networks; M. Kihara and K. Hisadome |
01-20-193 | Ionospheric Corrections for Timing Applications; J. Klobuchar |
01-21-001 | Synchronization of Clocks; D. Allan |
01-21-059 | Progress in Transferring Time Using GLONASS Satellites; P. Daly and I. D. Kitching |
01-21-077 | GPS-UTC Time Synchronization; C. H. McKenzie, W. A. Feess, A. L. Satin, R. H. Lucas, and H. Holz |
01-21-095 | Precise Ephemerides for GPS Time Transfer; W. Lewandowski and M. A. Weiss |
01-21-107 | Accurate Delay Calibration for Two-Way Time Transfer Earth Stations; G. de Jong |
01-21-117 | Satellite Two-Way Time Transfer Fundamentals and Recent Progress; D. A. Howe, D. W. Hanson, J. L. Jesperson, and M. A. Lombardi |
01-21-131 | A New Two-Way Time Transfer Modem; G. P. Landis, J. D. White, A. Gifford, R. L. Beard, and J. A. Murray |
01-21-139 | Phase Distribution on Fiber Optic Cable; J. C. Webber and D. L. Thacker |
01-21-145 | GPS Synchronized Disciplined Rubidium Frequency Standard; D. E. Fossler |
01-21-149 | A GPS Disciplined Rubidium Clock; W. Dewey |
01-21-181 | The NIST Digital Time Service; J. Levine, D. W. Allan, and D. B. Sullivan |
01-21-199 | Improvement of Time Comparison Results by Using GPS Dual Frequency Codeless Receivers Measuring Ionospheric Delay; M. Imae, C. Miki, and C. Thomas |
01-21-205 | Alternative Timing Networks with GPS; G. P. Landis, S. Stebbins, R. L. Beard, and H. F. Fliegel |
01-21-215 | A Comparison of Time Transfer Techniques; S. Stebbins, A. Gifford, and R. L. Beard |
01-21-323 | Status Report on a Synchronization Experiment between European Time Scales Using ECS Geostationary Satellite; V. Pettiti, F. Cordara, and P. G. Galliano |
01-21-479 | NASA/JPL Deep Space Network Frequency and Timing; P. F. Kuhnle |
01-21-491 | Synchronizing Loran-C Master Stations to Coordinated Universal Time; G. R. Westling, M. D. Sakahara, and C. J. Justice |
01-21-501 | Frequency and Timing System at the National Institute for Standards (NIS); S. Samuel |
01-21-519 | An Unbiased Weighting Method for Data in GPS Common-View; Z. Qixiang, J. Shuguang, and F. Neng |
01-21-527 | Simultaneous Transmission of a Frequency Reference and a Time Code Over a Single Optical Fiber; G. Lutes and M. Calhoun |
01-21-537 | Common-View GPS Time Transfer Accuracy and Stability Stability Results; J. R. Semler |
01-22-061 | Inter-satellite Time Transfer: Techniques and Applications; E. Detoma and S. C. Wardrip |
01-22-087 | Current GPS/GLONASS Time References and UTC; P. Daly |
01-22-117 | Time and Frequency Comparisons in Europe by Means of ECS 5 Geostationary Satellite; F. Cordara and V. Petitti, A. Cenci, M. Fermi, and C. Sciarretta |
01-22-145 | GPS Time Transfer with Implementation of Selective Availability; D. W. Allan, M. Granveaud, W. J. Klepczynski, and W. Lewandowski |
01-22-231 | Precise Frequency Calibration Using Television Video Carriers; E. E. Burkhardt |
01-22-235 | Geodetic Positioning of the Aerospace Electronics Research Lab (ERL) Osborne Time Transfer Receiver (TTR) Using the GPS Navstar Block I Satellites; A. Liu |
01-22-243 | Precise Measurement Method for Ionospheric Total Electron Content Using Signals from GPS Satellites; M. Imae, H. Kiuchi, A. Kaneko, and C. Miki |
01-22-293 | Frequency Shifts in a Rubidium Frequency Standard Due to Coupling to Another Standard; B. Jaduszliwer, R. A. Cook, and R. P. Frueholz |
01-22-307 | Sensitivity to the External Temperature of Some GPS Time Receivers; W. Lewandowski and R. Tourde |
01-22-317 | GPS Block 2R Time Standard Assembly (TSA) Architecture; T. Baker |
01-22-339 | Time and Frequency Measuring Metrological Equipment in the USSR; A. A. Uljanov |
01-22-345 | Two-Way Time Transfer Modem; I. J. Galysh and P. Landis |
01-22-367 | Time Concurrency/Phase-Time Synchronization in Digital Communications Networks; M. Kihara and A. Imaoka |
01-22-375 | The Cable and Wireless Approach to Network Synchronization; R. D. Calvert |
01-22-383 | International Two-Way Satellite Time Transfers Using Intelsat Space Segment and Small Earth Stations; L. B. Veenstra |
01-22-401 | The BBC Network Radio Time and Frequency Standard and Its Role in the Provision of the Greenwich Time Signal; J. McIlroy |
01-22-409 | Synchronizing Computer Clocks Using a Local Area Network; J. Levine |
01-22-525 | The National- and International-wide Prospects of Future Improvements in Position Location and Time Synchronization Systems and Aids; Y. G. Gouzhva, B. N. Balyasnikov, V. V. Korniyenko, I. G. Pushkina, S. Shebshayevich, V. I. Denisov, and A. P. Reutov |
01-22-547 | The Use of Precise Ephemerides, Ionospheric Data and Corrected Antenna Coordinates in a Long-Distance GPS Time Transfer; W. Lewandowski, C. Petit, C. Thomas, and M. Weiss |
01-22-559 | GPS/Loran-C Interoperability for Time and Frequency Applications-a Survey of the Times of Arrival of Loran-C Transmissions via GPS Common Mode/Common View Satellite Observations; B. Penrod, R. Funderburk, and Peter Dana |
01-22-575 | LASSO, Two-Way and GPS Time Comparisons: a (Very) Preliminary Status Report; C. Veillet, D. Feraudy, J. M. Torre, J. F. Mangin, P. Grudler, F. Baumont, J. Gaignebet, J. L. Hatat, W. Hanson, A. Clements, J. Jesperson, M. Lombardi, D. Kirchner, G. Kirchner, H. Ressler, S. S. Fassi, W. J. Klepczynski, P. J. Wheeler, W. Powell, A. Davis, M. Granveaud, and P. Uhrich |
01-22-583 | Recent Developments of Loran-C in Europe; S. Leschiutta and E. Rubiola |
01-23-001 | The Need For GPS Standardization; W. Lewandowski, G. Petit, and C. Thomas |
01-23-071 | Comparison of Two-Way Satellite Time Transfer and GPS Common-View Time Transfer Between OCA and TUG; D. Kirchner, U. Thyr, H. Ressler, R. Robnik, P. Grudler, F. Baumont, C. Veillet, W. Lewandowski, W. Hanson, A. Clemenets, J. Jesperson, D. Howe, M. Lombardi, W. Klepczynski, P. Wheeler, W. Powell, A. Davis, P. Urich, R. Tourde, and M. Granveaud |
01-23-331 | Accuracy of GPS Time Transfer Verified by the Closure around the World; W. Lewandowski, G. Petit, and C. Thomas |
01-23-341 | Comparison of GLONASS and GPS Time Transfers between Two Western European Time Laboratories and VNIIFTRI; P. Daly, N. B. Koshelyaevsky, W. Lewandowski, G. Petit, and C. Thomas |
01-23-351 | A Proposed Time Transfer Experiment between the USA and the South Pacific; J. Luck, J. Dunkley, T. Armstrong, A. Gifford, P. Landis, S. Rasmussen, P. Wheeler, T. Bartholomew, and S. Stein |
01-23-365 | Geostationary Satellite Position Determination For Common-View Two-Way Time Transfer Measurements; Z. Oixiang and R. J. Douglas |
01-23-401 | Test of an Orbiting Hydrogen Maser Clock System Using Laser Time Transfer; R. F. C. Vessot, E. Mattison, and R. Decher |
01-23-417 | Present Status and Future Prospects for Ionospheric Propagation Corrections for Precise Time Transfer Using GPS; J. A. Klobuchar |
01-24-031 | U.S. Coast Guard GPS Information Center (GPSIC) and Its Function within the Civil GPS Service (CGS); GPSIC Staff |
01-24-047 | Comparison of GPS and GLONASS Common-View Time Transfers; W. Lewandowski, G. Petit, C. Thomas, G. T. Cherenkov, N. B. Koshelyaevsky, and S. B. Pushkin |
01-24-063 | Present and Future Needs: Is GPS the Only PTTI Source?; R. L. Filler (moderator) |
01-24-087 | Experimental Comparison of Time Synchronization Techniques by Means of Light Signals and Clock Transport on the Rotating Earth; R. A. Nelson, C. O. Alley, J. D. Rayner, Y. H. Shih, C. A. Steggerda, B. C. Wang, and B. W. Agnew |
01-24-113 | LASSO Observations at McDonald (Texas, USA) and OCA/CERGA (Grasse, France): a Preliminary Analysis; C. Veillet, P. Fridelance, D. Feraudy, Y. Boudon, P. J. Shelus, R. L. Ricklefs, and J. R. Wiant |
01-24-231 | Two-Way Time Transfer Results at NRL and USNO; I. J. Galysh and G. P. Landis |
01-24-243 | Performance of a Date Dissemination Code on Telephone Lines Using Commercial Modems; F. Cordara, V. Pettiti, R. Quasso, and E. Rubiola |
01-24-343 | Performance of Low-Cost Commercial Fiber-Optic Transceivers for Reference Frequency Distribution; R. Dragonette and J. J. Suter |
01-24-357 | Ultrastable Reference Frequency Distribution Utilizing a Fiber Optic Link; M. Calhoun and P. Kuhnle |
01-24-365 | A Wide-Band Fiber Optic Frequency Distribution Sytem Employing Thermally Controlled Phase Compensation; D. Johnson, M. Calhoun, R. Sydnor, and G. Lutes |
01-24-375 | Analysis of the Eastern Range Multiplexed Fiber Optic IRIG B120 Distribution System; M. J. Duncan, J. S. Martell, and J. L. Wright |
01-25-101 | Two-Way Satellite Time Transfer: Overview and Recent Developments; G. de Jong |
01-25-119 | Optical Techniques for Time and Frequency Transfer; F. Baumont and J. Gaignebet |
01-25-133 | GPS Common-View Time Transfer; W. Lewandowski |
01-25-169 | Time and Position Accuracy Using Codeless GPS; C. E. Dunn, D. C. Jefferson, S. M. Lichten, J. B. Thomas, Y. Vigue, and L. E. Young |
01-25-183 | The Use of the AOA TTR-4P GPS Receiver in Operation at the BIPM for Real-Time Restitution of GPS Time; C. Thomas |
01-25-231 | Tropospheric Corrections to GPS Measurements Using Locally Measured Meteorological Parameters Compared with General Tropospheric Corrections; D. Kirchner, C. Lentz, and H. Ressler |
01-25-267 | Time Transfer Using Geostationary Satellites: Implementation of a Kalman Filter; F. Meyer |
01-25-277 | The Two-Way Time Synchronization System via a Satellite Voice Channel; Z. Heng-qiu, Z. Ren-huan, and Hu Yong-hui |
01-25-285 | Remote Clocks Linked by a Fully Calibrated Two-Way Timing Link; J. A. DeYoung and R. J. Andrukitis |
01-25-293 | A Comparison of GPS Broadcast and DMA Precise Ephemerides; M. A. Weiss, G. Petit, and S. Shattil |
01-25-317 | A Comparison of Several GPS Data Reduction Methods; H. Chadsey |
01-25-357 | Comparison of LASSO and GPS Time Transfers; W. Lewandowski, G. Petit, F. Baumont, P Fridelance, J. Gaignebet, P. Grudler, C. Veillet, J. Wiant, and W. J. Klepczynski |
01-25-367 | LASSO Experiment: Intercalibrations of the LASSO Ranging Stations; J. Gaignebet, J.-L. Hatat, J. F. Mangin, J. M. Torre, W. Klepczynski, L. McCubbin, J. Wiant and R. Ricklefs |
01-25-495 | Ionospheric Corrections to Precise Time Transfer Using GPS; R. W. Snow, A. W. Osborne, III, J. A. Klobuchar, and P. H. Doherty |
01-25-505 | The NIST Internet Time Service; J. Levine |
01-25-533 | Using GLONASS Signal for Clock Synchronization; Y. Gouzhva, A. Gevorkyan, P. Bogdanov, and U. Ovchinnikov |
01-26-039 | The 1994 International Transatlantic Two-Way Satellite Time and Frequency Transfer Experiment: Preliminary Results; J. A. DeYoung, W. J. Klepczynski, A. D. McKinley, W. Powell, P. Mai, P. Hetzel, A. Bauch, J. A. Davis, P. R. Pearce, F. Baumont, P. Claudon, P. Grudler, G. de Jong, D. Kirchner, H. Ressler, A. Soering, C. Hackman, and L. Veenstra |
01-26-051 | High Accuracy Time Transfer Synchronization; P. Wheeler, P. Koppang, D. Chalmers, A. Davis, A. Kubik, and W. Powell |
01-26-075 | Implementation of a Standard Format for GPS Common-View Data; M. A. Weiss and C. Thomas |
01-26-089 | Some Preliminary Results of the Fast Calibration Trip During the Intelsat Field Trials; W. J. Klepczynski, J. A. Davis, D. Kirchner, H. Ressler, G. de Jong, F. Baumont, P. Hetzel, A. Soering, C. Hackman, M. Granveaud, and W. Lewandowski |
01-26-127 | Anticipated Uncertainty Budgets of PRARETIME and T2l2 Techniques As Applied to EXTRAS; C. Thomas, P. Wolf, P. Uhrich, W. Schafer, H. Nau, and C. Veillet |
01-26-167 | LASSO Experiment Intercalibration Trip for the Two LASSO Ranging Stations; G. Gaignebet, J. L. Hatat, P. Grudler, W. J. Klepczynski, L. McCubbin, J. Wiant, and R. Ricklefs |
01-26-175 | Network Time Synchronization Servers at the U.S. Naval Observatory; R. E. Schmidt |
01-26-235 | A Globally Efficient Means of Distributing UTC Time and Frequency through GPS; J. A. Kusters, R. P. Giffard, L. S. Cutler, D. W. Allan, and M. Miranian |
01-26-305 | Automated Delay Measurement System for an Earth Station for Two-Way Satellite Transfer; G. de Jong and M. C. Polderman |
01-26-319 | Study of Tropospheric Correction for Intercontinental GPS Common-View Time Transfer; W. Lewandowski, W. J. Klepczynski, P. Grudler, F. Baumont, and M. Imae |
01-26-443 | T2l2 Time Transfer by Laser Link; C. Veillet and P. Fridelance |
01-27-035 | GPS Monitor Station Upgrade Program at the Naval Research Laboratory; I. J. Galysh and D. M. Craig |
01-27-063 | Ideas for Future GPS Timing Improvements; Capt. S. T. Hutsell |
01-27-075 | UTC Dissemination to the Real Time User: Role of the USNO; M. Miranian |
01-27-087 | Role of the BIPM in UTC Dissemination to the Real Time User; T. J. Quinn and C. Thomas |
01-27-097 | The Role of the International Telecommunications Union in Time and Frequency; G. de Jong |
01-27-103 | UTC Dissemination to the Real-Time User; J. Levine |
01-27-113 | GPS Disciplined Oscillators for the Traceability to the Italian Time Standard; F. Cordara and V. Pettiti |
01-27-125 | Observations on the Reliability of Rubidium Frequency Standards on Block Il/IIA GPS Satellites; 1Lt. G. L. Dieter and Capt. G. E. Hatten |
01-27-135 | How Bad Receiver Coordinates Can Affect GPS Timing; H. Chadsey |
01-27-145 | Common View Time Transfer Using Worldwide GPS and DMA Monitor Stations; W. G. Reid, T. B. McCaskill, O. J. Oaks, J. A. Buisson, and H. E. Warren |
01-27-159 | GPS/GLONASS Time Transfer with 20-Channel Dual GNSS Receiver; P. Daly and S. Riley |
01-27-181 | High Precision Time Transfer to Test a Hydrogen Maser on Mir; E. M. Mattison and R. F. C. Vessot |
01-27-269 | Kalman Filtering USNO's GPS Observations for Improved Time Transfer Predictions; Capt. S. T. Hutsell |
01-27-291 | Relating the Hadamard Variance to MCS Kalman Filter Clock Estimation; Capt. S. T. Hutsell |
01-27-303 | Signal Delay Stability of a Ku-Band Two-Way Satellite Time Transfer Terminal; D. Kirchner, H. Rebler, and R. Robnik |
01-27-313 | Data and Time Transfer Using SONET Radio; G. M. Graceffo |
01-27-335 | Some Operational Aspects of the International Two-Way Satellite Time and Frequency Transfer (TWSTFT) Experiment Using INTELSAT Satellites at 307 Degrees E; J. A. DeYoung, A. D. McKinley, J. A. Davis, P. Hetzel, and A. Bauch |
01-27-347 | Preliminary Comparison of Two-Way Satellite Time and Frequency Transfer and GPS Common-View Transfer During the INTELSAT Field Trial; J. A. Davis, W. Lewandowski, J. A. DeYoung, D. Kirchner, P. Hetzel, G. de Jong, A. Soering, F. Baumont, W. J. Klepczynski, A. D. McKinley, T. E. Parker, K. A. Bartle, H. Ressler, R. Robnik, and L. Veenstra |
01-27-359 | Results of the Calibration of the Delays of Earth Stations for TWSTFT Using the VSL Satellite Simulator Method; G. de Jong , D. Kirchner, H. Ressler, P. Hetzel, J. Davis, P. Pears, W. Powell, A. D. McKinley, W. J. Klepczynski, J. A. DeYoung, C. Hackman, S. R. Jefferts, and T. E. Parker |
01-27-373 | Accurate Time/Frequency Transfer Method Using Bi-directional WDM Transmission; A. Imaoka and M. Kihara |
01-27-397 | GPS Moving Vehicle Experiment; O. J. Oaks, W. Reid, J. Wright, C. Duffey, C. Williams, H. Warren, T. Zeh, and J. Buisson |
01-27-409 | Bonneville Power Administration Timing System; K. E. Martin |
01-27-419 | Direct-Y: Fast Acquisition of the GPS PPS Signal; 1Lt. O. M. Namoos and R. S. DiEsposti |
01-27-433 | The WSMR Timing System: toward New Horizons; W. A. Gilbert and R. Stimets |
01-27-439 | Authentication, Time-Stamping and Digital Signatures; J. Levine |
01-28-025 | Impact of International Decisions on TAI Generation; C. Thomas |
01-28-037 | IEN Time and Frequency Metrological Activity and Support to User Needs; F. Cordara, V. Pettiti, and P. Tavella |
01-28-051 | Time and Frequency Keeping and Its Distribution System at CRL; M. Imae, M. Hosokawa, Y. Hanado, K. Imamura, A. Otsuka, and T. Morikawa |
01-28-065 | Frequency Standards, Timekeeping, and Traceable Services at the National Research Council of Canada; R. J. Douglas, J.-S. Boulanger, S. Cundy, M.-C. Gagne, W. Cazemier, B. Hoger, R. Pelletier, J. Bernard, A. A. Madej, L. Marmet, K. Siemsen, and B. G. Whitford |
01-28-075 | Time and Frequency Activities at NIST; J. Levine and D. B. Sullivan |
01-28-083 | European PTTI Report; F. Cordara, A. De Marchi, M. Serafino, and S. Leschiutta |
01-28-097 | The Network Computer as Precision Timekeeper; D. L. Mills |
01-28-109 | On the Shipboard Application of Network Time Protocol (NTP, RFC 1305); M. E. Bautista |
01-28-125 | Military Applications of Time and Frequency; R. L. Beard, J. D. White, and J. A. Murray |
01-28-141 | The Alternate Master Clock and Precise Time Requirements; Why an Alternate Master Clock?; W. V. Bollwerk |
01-28-151 | Experience at the CENAM with Time and Frequency Standards Signals Received by the Global Positioning System (GPS); V. Molina-Lopez, H. Jardon-Aguilar, J. T. Vega-Duran, and J. M. Lopez-Romero |
01-28-163 | Stabilization of a Fiber-Optic Link Using a Temperature- Controlled Fiber Segment; R. L. Sydnor, M. Calhoun, J. Lopez, and W. Diener |
01-28-169 | Demonstration of Synchronization Between Two Geosynchronous Satellites Without Ground Intervention; J. C. Camparo, R. P. Frueholz, and A. P. Dubin |
01-28-179 | PTTI: Utilizations and Experimentations at Hydro-Quebec; G. Missout |
01-28-189 | GPS and Relativity: An Engineering Overview; H. F. Fliegel and R. S. DiEsposti |
01-28-201 | Operational Use of the Hadamard Variance in GPS; S. T. Hutsell, W. G. Reid, 1Lt. J. D. Crum, 1Lt. H. S. Mobbs, and J. A. Buisson |
01-28-305 | Report from the ITU-R Working Party 7A on Time Signals and Frequency Standard Emissions; G. de Jong |
01-28-339 | Precision Time and Frequency Transfer Utilizing SONET OC-3; M. Calhoun, P. Kuhnle, R. Sydnor, S. Stein, and G. A. Gifford |
01-28-349 | A Comparison of the Highest Precision Commonly Available Time Transfer Methods: TWSTT and GPS CV; J. DeYoung, F. Vannicola, and A. D. McKinley |
01-28-357 | First Results from GLONASS Common-View Time Comparisons Realized According to the BIPM International Schedule; W. Lewandowski, J. Azoubib, A. G. Gevorkyan, P. P. Bogdanov, J. Danaher, G. de Jong, and J. Hahn |
01-28-367 | A Contribution to the Standardization of GPS and GLONASS Time Transfers; W. Lewandowski, J. Azoubib, A. G. Gevorkyan, P. P. Bogdanov, W. J. Klepczynski, M. Miranian, J. Danaher, N. B. Koshelyaevsky, and D. W. Allan |
01-28-387 | Testing Motorola Oncore GPS Receiver and Temperature- Stabilized Antennas for Time Metrology; W. Lewandowski, P. Moussay, P. Guerin, F. Meyer, and M. Vincent |
01-28-397 | Continuous Observation of NAVSTAR Clock Offset from the DoD Master Clock Using Linked Common-View Time Transfer; W. G. Reid |
01-28-409 | 1996 GPS Time Transfer Performance; 1Lt. J. D. Crum |
01-28-417 | Performance Analysis of the GPS Monitor Station Timing Subsystem Enhancement Program at the Naval Research Laboratory; I. J. Galysh, D. M. Craig, and W. G. Reid |
01-28-441 | Performance Evaluation of the GPS Block IIR Time Keeping System; A. Wu |
01-28-455 | GLONASS Onboard Time/Frequency Standards: Ten Years of Operation; A. B. Bassevich, P. P. Bogdanov, A. G. Gevorkyan, and A. E. Tyulyakov |
01-29-069 | GPS Receivers and Relativity; M. Weiss and N. Ashby |
01-29-117 | The 2 SOPS Ephemeris Enhancement Endeavor (EEE); Capt. J. D. Crum, S. T. Hutsell, and R. T. Smetek, Jr. |
01-29-131 | Refining Monitor Station Weighting in the GPS Composite Clock; Lt. H. S. Mobbs and S. T. Hutsell |
01-29-143 | A New Approach to Ionospheric Delay Corrections in Single Frequency GPS Receivers; G. Mirenna, V. Pettiti, F. Cordara, and L. Ciraolo |
01-29-155 | Performance of the Kalman Filter of the Global Positioning System Operational Control Segment during January - March 1997; M. Weiss and A. Zarr |
01-29-165 | Long-Term Evaluation of GPS Timing Receiver Failures; D. Hoechtl and U. Schmid |
01-29-193 | Absolute Time Error Calibration of GPS Receivers Using Advanced GPS Simulators; E. D. Powers, M. Miranian, J. D. White, and J. Brad |
01-29-201 | Atomic Frequency Standards for the GPS IIF Satellites; W. Emmer and E. Watts |
01-29-221 | Time Transfer Using GPS Carrier Phase Methods; K. M. Larson and J. Levine |
01-29-229 | GLONASS/GPS Time Transfer and the Problem of the Determination of Receiver Delays; G. de Jong and W. Lewandowski |
01-29-241 | Delay Stability of the TWSTFT Earth Station at VSL; G. de Jong |
01-29-253 | C- and Ku-Band Two-Way Satellite Time Transfer Comparison Experiment; R. Beard, I. Galysh, J. Oaks, M. Largay, P. Landis, W. Reid, M. Ehnert, R. Eisenhauer, W. Hanson, L. Nelson, A. Clements, J. Durden, L. Brownhill, J. Wright, C. Duffy, J. Kasik, and J. Buisson |
01-29-265 | An Operational TWSTT Monitoring System; P. Mai and J. DeYoung |
01-29-269 | Common-View Time Transfer Using Multi-Channel GPS Receivers; L. Schmidt and M. Miranian |
01-29-277 | Multi-channel vs. Common-View GPS Frequency Transfer Comparison in the Asia-Pacific Region; P. T. H. Fisk, M. A. Lawn, S. Quigg, J. S. Thorn, T. Armstrong, J. McK. Luck, J. R. Woodger, and M. M. Ruiz |
01-29-287 | On Improvements of and Suggestions about GPS "Common-View" with Multi-channel Time Receivers - First Results; J. Hahn, H. Nau, and P. Moussay |
01-29-299 | A New Approach to Common-View Time Transfer Using "All-in-View" Multi-channel GPS and GLONASS Observations; J. Azoubib, W. Lewandowski, G. de Jong, and J. Danaher |
01-29-309 | Multi-channel GPS Common-View Time Transfer Experiments: First Results and Uncertainty Study; G. Petit, C. Thomas, P. Moussay, J. A. Davis, M. Miranian, and J. Palacio |
01-29-319 | Time Transfer with GPS Multi-channel Motorola Oncore Receiver Using CCDS Standards; J. Nawrocki, W. Lewandowski, and J. Azoubib |
01-29-329 | A Study Examining the Possibility of Obtaining Traceability to UK National Standards of Time and Frequency Using GPS-Disciplined Oscillators; J. A. Davis and J. M. Furlong |
01-29-345 | Utilization of the Global Positioning System (GPS) for Timing Systems Under Range Standardization & Automation Phase-IIA Program; M. C. Lee |
01-29-357 | The WSMR Timing System: Approaching the Horizon; W. A. Gilbert |
01-29-365 | Internet Timekeeping around the Globe; D. L. Mills, A. Thyagarjan, and B. C. Huffman |
01-29-373 | SIPRNET Network Time Service; R. E. Schmidt |
01-29-381 | The Application of NTP to Navy Platforms; K. F. O'Donoghue and D. T. Marlow |
01-29-391 | Benefits and Issues on the Integration of GPS with a Wireless Communications Link; R. DiEsposti, S. Saks, L. Jocic, and J. Kayloe |
01-29-405 | Long-Term Time Transfer Stability of a Fiber Optic Link; O. Buzek |
01-29-415 | Two-Way Time Transfer Through 2.4 Gbit/s Optical SDH System; M. Kihara, A. Imaoka, M. Imae, and K. Imamura |
01-30-007 | Thirty Years of PTTI: A Retrospective; W. Klepczynski |
01-30-011 | GPS Week Roll-over and Y2K Compliance for NBS-type Receivers, and Absolute Calibration of the NIST Primary Receiver; M. Weiss and V. Zhang |
01-30-125 | 1998 GPS Time Transfer Performance; S. Huser and S. Hutsell |
01-30-161 | Short-Term Characterizations of GPS-Disciplined Oscillators and Field Trial for Frequency of Italian Calibration Centers; V. Pettiti and F. Cordara |
01-30-173 | Analysis of On-Orbit Behavior of GPS Block II-R Time Keeping System; T. Dass, J. Petzinger, J. Rajan, and H. Rawicz |
01-30-187 | Real-Time GPS Monitoring of Atomic Frequency Standards in the the Canadian Active Control System (CACS); F. Lahaye, M. Caissy, J. Popelar, and R. Douglas |
01-30-201 | A Test of the Use of GLONASS Precise Code for High-Precision Time Transfer; J. Azoubib and W. Lewandowski |
01-30-211 | Results of RIRT's Comparisons via GLONASS Signals; P. Bogdanov, A. Gevorkyan, and V. Zholnerov |
01-30-219 | IEM Kvarz and Quartzlock's GPS-Disciplined Rubidium Frequency and Time Standard; C. Green |
01-30-227 | Precise Clock Solutions Using Carrier Phase from GPS Receivers in the International GPS Service; J. Zumberge, D. Jefferson, D. Stowers, R. Tjoelker, and L. Young |
01-30-235 | Calibration Considerations for the IGS/BIPM Pilot Time Transfer Project Using Carrier Phase; R. Beard, J. Brad, J. White, and O. Oaks |
01-30-247 | A Long-Term Comparison Between GPS Carrier-Phase and Two-Way Satellite Time Transfer; K. Larson, L. Nelson, J. Levine, T. Parker, and E. Powers |
01-30-257 | A Very Short Baseline Time Transfer Experiment Using Two Geodetic-Quality GPS Receivers and Carrier Phase Techniques; J. Clarke, J. Davis, and A. Lowe |
01-30-271 | First Results on a Transatlantic Time and Frequency Transfer by GPS Carrier Phase; G. Dudle, F. Overney, L. Prost, T. Schildknecht, T. Springer, P. Hetzel, and E. Powers |
01-30-281 | High Precision Time and Frequency Transfer Using GPS Phase Measurements; T. Schildknecht and T. Springer |
01-30-293 | Hardware Delay Measurements and Sensitivities in Carrier Phase Time Transfer; E. Powers, P. Wheeler, D. Judge, and D. Matsakis |
01-30-307 | Frequency Transfer Using GPS: A Comparative Study of Code and Carrier Phase Analysis Results; C. Bruyninx, P. Defraigne, J. Sleewaegen, and P. Paquet |
01-30-315 | Two-Way Satellite Time Transfer (TWSTT): USNO Operations and Calibration Services; J. DeYoung |
01-30-329 | Improving the Delay Stability of a Two-Way Satellite Time and Frequency Transfer Earth Station; S. Shemar and J. Davis |
01-30-341 | Two-Way Satellite Time Transfer Applications with the Eastern Range; I. Galysh, D. Koch, R. Beard, W. Reid, and J. Buisson |
01-30-355 | Two-Way Satellite Time Transfer Activities in Asian-Pacific Region; M. Imae, M. Hosokawa, K. Imamura, H. Yukawa, Y. Shibuya, P. Fisk, S. Quigg, M. Lawn, J. Thorn, M. Wouters, C. Coles, L. Zhang, and K. Nakadan |
01-30-365 | Calibration of Three European TWSTFT Stations Using a Portable Station and Comparison of TWSTFT and GPS Common-View Measurement Results; D. Kirchner, H. Ressler, P. Hetzel, A. Soering, and W. Lewandowski |
01-30-377 | New Ways to Visualize Time and Frequency Data; J. DeYoung |
01-30-393 | Two-Way Satellite Time Transfer Using Intelsat 706 on a Regular Basis: Status and Data Evaluation; J. Azoubib, D. Kirchner, W. Lewandowski, P. Hetzel, W. Klepczynski, D. Matsakis, T. Parker, H. Ressler, A. Soering, G. de Jong, F. Baumont, and J. Davis |
01-30-405 | A Frequency Transfer and Cleanup System for Ultra-High Stability at Both Long and Short Times for the Cassini Ka-Band Experiment; M. Calhoun, G. Dick, and R. Wang |
01-30-413 | Effect of Clock Noise on the Synchronization Performance of Constant Bit Rate (CBR) Traffic in an ATM Network; T. Jayawardena and C. Olszewski |
01-30-423 | The Synchronization of the Spanish R&D Network; J. Palacio, F. Galindo, T. Lopez, L. Batanero, and C. Tomas |
01-30-433 | Pseudo-Random Code Correlator Timing Errors Due to Multiple Reflections in Transmission Lines; F. Ascarrunz, T. Parker, and S. Jefferts |
01-30-439 | The Time Distribution System for the Wide Area Augmentation System (WAAS); W. Klepczynski |
01-30-445 | On the Problems of System Time Generation for a Future GNSS2; J. Hahn and P. Tavella |
01-30-459 | The Role of Time and Frequency in the MTSAT Satellite-Based Augmentation System (MSAS); T. Ishita and A. Nii |
01-30-469 | The Role of Time and Frequency in the European Geostationary Navigation Overlay System (EGNOS); A. Job, J. Legenne, M. Brunet, J. Pieplu, and A. Batchelor |
01-30-483 | Validation of a Time of Transmission Monitor Suite for Measurement of the Offset Between LORAN-C Transmissions and UTC; L. Putnam |
01-31-007 | The Pervasive Societal Impact of Time and Frequency; H. Hellwig |
01-31-017 | 1999 GPS Time Transfer Performance; M. Rivers and S. Osborne |
01-31-029 | Feedback From GPS Timing Users: Relayed Observations From 2 SOPS; T. Occhi and S. Hutsell |
01-31-043 | Multiple-Path Linked Common-View Time Transfer (LCVTT); W. Reid |
01-31-055 | Investigation of the GPS Block IIR Time Keeping System (TKS) Anomalies Caused by the Voltage-Controlled Crystal Oscillator (VCXO); A. Wu |
01-31-065 | Long-Term Stability of a Rubidium Atomic Clock in Geosynchronous Orbit; J. Coffer and J. Camparo |
01-31-091 | Considerations for the Concept of Galileo's Timekeeping System; J. Hahn |
01-31-101 | Redundant Atomic Frequency Standard Timekeeping System with Seamless AFS Switchover; V. Reinhardt and C. Sheckells |
01-31-111 | The Autonomous Detection of Clock Problems in Satellite Timekeeping Systems; Y. Chan, J. Camparo, and R. Frueholz |
01-31-121 | Space-Segment Timekeeping for Next Generation MILSATCOM; Y. Chan, J. Camparo, and R. Frueholz |
01-31-133 | Panel Discussion: Post-GPS End-of-Week Rollover and Upcoming Y2K; D. H. Mitchell (chairman), D. D. McCarthy, and S. T. Hutsell |
01-31-141 | An Overview of GPS Augmentation Systems; M. Petovello, G. Lachapelle, and P. Fenton |
01-31-155 | Wide Area Augmentation System (WAAS); D. Ormand |
01-31-161 | WAAS Network Time Performance Using WRS Data; C. Griffith, S. Peck, and P. Diamond |
01-31-173 | Geo Uplink Subsystem (GUS) Clock Steering Algorithms Performance, Validation, and Test Results; M. Grewal, W. Brown, R. Lucy, and P. Hsu |
01-31-181 | Enhancing GPS Timing Engines Using WAAS Signals; M. Gonthier and E. Masella |
01-31-191 | Time Transfer Using WAAS: An Initial Attempt; P. Fenton, W. Klepczynski, E. Powers, and R. Douglas |
01-31-203 | Time and Frequency Activities at ROA; J. Palacio, F. Galindo, and R. Boloix |
01-31-211 | Time and Frequency Activities at the CSIRO National Measurement Laboratory, Sydney, Australia; P. Fisk, R. Warrington, M. Lawn, and M. Wouters |
01-31-219 | Time and Frequency Activities at IEN; F. Cordara, G. Brida, A. Godone, F. Levi, L. Lorini, M. Mascarello, S. Micalizio, V. Pettiti, P. Tavella, and G. Vizio |
01-31-231 | Update on Time and Frequency Activities at NIST; T. Parker and D. Sullivan |
01-31-241 | Overview of Research Activities on Time and Frequency at the Communications Research Laboratory; M. Hosokawa, M. Imae, T. Morikawa, N. Kurihara, and K. Okamoto |
01-31-247 | Time and Frequency Activities at the National Physical Laboratory; J. Davis |
01-31-257 | Recent and Pending Improvements at the U.S. Naval Observatory; D. Matsakis |
01-31-277 | New Steering Strategies for the USNO Master Clock; P. Koppang and D. Matsakis |
01-31-317 | Development of a Multiple Time Source Comparison System for Disseminative Services in Taiwan; C. Lin, S. Lin, and C. Liao |
01-31-323 | Analysis of Delays in Transmitting Time Code Using an Automated Computer Time Distribution System; Y. Shan, H. Chua, A. Kyaw, and J. Levine |
01-31-339 | Panel Discussion: The Future of Military GPS Receivers; M. Miranian (chairman), S. T. Hutsell, and D. H. Mitchell |
01-31-347 | A Better Way of Life for PPS Users...GPS SAASM and P(Y)-Direct, the New Wave of Military Receiver Technology for the PPS Navigation and Time and Frequency User; H. Fruehauf |
01-31-357 | Initial Test Results for a New PPS GPS Timing Receiver; M. Miranian, E. Powers, J. Brad, and J. White |
01-31-365 | Testing the Effects of M-Code on GPS Timing Receivers; J. Brad, I. Galysh, D. Koch, J. White, and G. Landis |
01-31-373 | Time Transfer Using P-Code Measurements from GPS/GLONASS Receivers; F. Roosbeck, P. Defraigne, and C. Bruyninx |
01-31-383 | SATMIX Time-Scale Comparisons Using a Single-Channel Fast- Sequencing GPS Receiver With Carrier-Phase Smoothing; P. Hetzel, D. Kirchner, T. Polewka, and H. Ressler |
01-31-393 | Comparison of Common-View and One-Way GPS Time Transfer Over a 4000-km East-West Baseline; R. Giffard and R. Pitcock |
01-31-405 | Estimation of GPS Ionospheric Delay Using L1 Code and Carrier Phase Observables; R. Giffard |
01-31-419 | Use of IGS Ionosphere Products in TAI; P. Wolf and G. Petit |
01-31-431 | GPS-Based Optimal Kalman Estimation of Time Error, Frequency Offset, and Aging; Y. Schmaliy, A. Marienko, and A. Savchuk |
01-31-441 | Calibration of GPS Carrrier-Phase Time-Transfer Equipment; E. Powers |
01-31-449 | Comparison of Atomic Frequency Standards at NIST and PTB Using Carrier-Phase GPS; L. Nelson, J. Levine, T. Parker, K. Larson, P. Hetzel, and J. Becker |
01-31-461 | Recent Results With Transatlantic GeTT Campaign; R. Dach, T. Schildknecht, T. Springer, G. Dudle, and L. Prost |
01-31-471 | Frequency Transfer Using GPS Codes and Phases: Short- and Long-Term Stability; C. Bruyninx and P. Defraigne |
01-31-481 | Attenuating Day-Boundary Discontinuities in GPS Carrier-Phase Time Transfer: K. Senior, E. Powers, and D. Matsakis |
01-31-491 | Analysis Noise, Short-Baseline Time Transfer, and a Long-Baseline GPS Carrier-Phase Frequency Scale; D. Matsakis, K. Senior, and L. Breakiron |
01-31-505 | New Trends in Two-Way Time and Frequency Transfer via Satellite; W. Schaefer, A. Pawlitzki, and T. Kuhn |
01-31-515 | Precise Time-Transfer Experiment Using Two-Way Carrier-Phase Method Planned for ETS-VIII Satellite; M. Hosokawa, M. Imae, H. Kiuchi, Yu. Takahashi, Ya. Takahashi, H. Noda, and N. Hamamoto |
01-31-523 | WWVB Improvements: New Power From an Old Timer; M. Deutch, W. Hanson, G. Nelson, C. Snider, D. Sutton, W. Yates, P. Hansen, and W. Hopkins |
01-31-537 | Design of a Satellite Data Manipulation Tool in a Time and Frequency Transfer System Using Satellites; S. Yoon, J. Lee, M. Lee, and J. Kim |
01-31-545 | How To Distribute GPS-Time Over COTS-Based LANs; U. Schmid, M. Horauer, and N. Keroe |
01-31-561 | A High Performance Multi-Channel Time-Interval Counter With an Integrated GPS Receiver; A. Novick, M. Lombardi, V. Zhang, and A. Carpentier |
01-31-569 | Evaluation of Mitrex Modem Transmit and Receive Delay Instability; M. Mascarello, P. Tavella, V. Pettiti, and F. Cordara |
01-32-007 | In the Beginning of GPS; R. Easton |
01-32-017 | Modernization of the Global Positioning System; M. Shaw, K. Sandhoo, and D. Turner |
01-32-031 | WAAS, EGNOS, and MSAS for TELECOM SYNC; H. Fruehauf |
01-32-045 | Modelization and Extrapolation of Time Deviation of USO and Atomic Clocks in GNSS-2 Context; J. Delporte, F. Vernotte, M. Brunet, and T. Tournier |
01-32-057 | Examining GPS Carrier-Phase Analyses to Evaluate the Accuracy of Frequency Transfer Using Data from NIST and PTB; L. Nelson and J. Levine |
01-32-067 | A Transatlantic GETT Time Transfer Experiment--Latest Results; R. Dach, T. Schildknecht, T. Springer, G. Dudle, and L. Prost |
01-32-079 | Evaluation and Preliminary Results of the New USNO PPS Tuning Receiver; M. Miranian, E. Powers, L. Schmidt, K. Senior, F. Vannicola, J. Brad, and J. White |
01-32-091 | Results From Time Transfer Experiments Based on GLONASS P-CODE Measurements From RINEX Files; F. Roosbeck, P. Defraigne, and C. Bruyninx |
01-32-097 | Recovering UTC (USNO,MC) with Increased Accuracy Using a Fixed, L1-CA Code, GPS Receiver; R. Giffard |
01-32-111 | Progress on a New GPS Common-View Receiver; M. Weiss |
01-32-117 | The Infusion of MCS Kalman Filter Data into GPS Block II/IIA Frequency Standard Analysis Techniques; G. Dieter, G. Hatten, and J. Taylor |
01-32-129 | The Development of Multi-channel GPS Receivers at the CSIR National Metrology Laboratory; E. Marais |
01-32-137 | One-Way GPS Time Transfer 2000; A. Gifford, S. Pace, and J. McNeff |
01-32-147 | Common-View and Melting-Pot GPS Time Transfer with the UT+; F. Meyer |
01-32-157 | GPS-Based Time Error Estimates Provided by Smoothing, Wiener, and Kalman Filters: A Comparative Study; Y. Schmailiy, A. Marienko, M. Torres-Cisneros, and O. Ibarra-Manzano |
01-32-171 | Clock Synchronization Using GPS/GLONASS Carrier Phase; K. Tu, H. Peng, C. Liao, and F. Chang |
01-32-181 | Time Links for the Construction of TAI; J. Azoubib and W. Lewandowski |
01-32-211 | Results of a Continuous Transatlantic Two-Way Time Transfer Test Using Commercial Satellite Modems; T. Celano, S. Francis, A. Gifford, B. Ramsey, and T. Erickson |
01-32-221 | TWSTFT Network Status in the Pacific Rim Region and Development of a New Time Transfer Modem for TWSTFT; M. Imae, M. Hosokawa, Y. Hanado, Z. Li, P. Fisk, Y. Nakadan, and C. Liao |
01-32-229 | Report on the 8th Meeting of the CCTF Working Group on Two-Way Satellite Time and Frequency Transfer; W. Lewandowski |
01-32-331 | Stabilized Reference Frequency Distribution for Radio Science with the Cassini Spacecraft and the Deep Space Network; M. Calhoun, R. Wang, A. Kirk, W. Diener, G. Dick, and R. Tjoelker |
01-32-341 | Multi-Purpose Time Analyzer and Monitor for Deep Space Network Time Synchronization; J. Gonzalez, M. Calhoun, S. Cole, and R. Tjoelker |
01-32-367 | Common Time Reference Technology for Systems Inter-Operability; R. Beard and J. White |
01-32-401 | Global Positioning System (GPS) Modernization; C. McGinn, S. Rajotte, and D. Latterman |
01-32-415 | Frequency Stability Requirements for Narrow Band Receivers; W. Klepczynski and P. Ward |
01-32-423 | The Nanokernel; D. Mills and P. Kamp |
01-32-431 | Using the Network Time Protocol (NTP) to Transmit International Atomic Time (TAI); J. Levine and D. Mills |
01-32-441 | New Issues in Telecommunications; E. Butterline |
01-32-445 | Primary Reference Clocks Using Indoor Antennas; D. Mitchell |
01-32-449 | The Time Link Between CSAO and CRL; L. Huanxin and W. Zhengming |
01-32-455 | Time and Frequency Activities at the CSIR National Metrology Laboratory; E. Marais |
01-33-055 | An Evaluation of Various Space Clocks for GPS IIF; V. Nuth, W. Feess, and C. Wu |
01-33-063 | Comparison of Continuously Filtered GPS Carrier-phase Time and Frequency Transfer with Independent Daily GPS Carrier-phase Solutions and with Two-Way Satellite Time Transfer; D. Matsakis, K. Senior, and P. Cook |
01-33-089 | Solar Flares and Precise Satellite Timekeeping; J. Camparo and S. Moss |
01-33-099 | Results from the National Physical Laboratory GPS Common- View Time and Frequency Transfer Service; J. Davis, S. Shemar, and J. Clarke |
01-33-111 | Time Distribution Capabilities of the Wide Area Aumentation System (WAAS); W. Klepczynski, P. Fenton, and E. Powers |
01-33-121 | Least-squares Analysis of Two-Way Satellite Time and Frequency Transfer Measurements; J. Davis, P. Harris, S. Shemar, and M. Cox |
01-33-133 | Two-Way Satellite Time Transfer to a Moving Platform; E. Powers, J. Romberg, R. Griffin, A. McKinley, D. Diener, H. Klotz, and D. Wolters |
01-33-149 | Common-View Time Transfer Using the Two-Channel Fast- sequencing GPS Receiver K+K GPS6-2K; P. Hetzel, T. Polewka, and W. Klische |
01-33-157 | Common-View Time Transfer with Commercial GPS Receivers and NIST/NBS-type Receivers; M. Weiss and J. Jensen |
01-33-163 | Phase Radio meteor Equipment for Time and Frequency Standards Comparison; S. Kundjukov, V. Bavykiha, Y. Koval, and S. Trambovetskiy |
01-33-175 | Results of Radio Meteor Comparison of Scales of the Russian UTC (SU) and Ukrainian UTC (UA) Time Standards; V. Bavikina, Y. Koval, and A. Tkachuk |
01-33-183 | Research on Parameters of Time Scales Formed by Receivers of Signals of the Satellite Radionavigational System GPS; S. Trambovetskiy, J. Koval, V. Bavykina, and A. Tkachuk |
01-33-185 | Passive Meteoric Synchronization of Time Scales; I. Antipov, V. Bavykina, Y. Koval, and G. Nesterenko |
01-33-191 | Robust GPS-Based Synchronization of CDMA Mobile Networks; D. Schneuwly |
01-33-199 | Accuracy and Precision of GPS Carrier-phase Clock Estimates; K. Senior and J. Ray |
01-33-221 | GPS Carrier-phase Frequency Transfer on the NIMA Monitor Station Network; B. Tolman and D. Munton |
01-33-223 | Monitoring the Remote Primary Clock by Using GPS Carrier Phase; S. Chen, H. Peng, and C. Liao |
01-33-241 | Pseudorange Systematic Errors: Adverse Effects on Carrier- phase Time Transfer; J. Plumb, K. Larson, and A. Bilich |
01-33-255 | A Set of Scalable Master Clock Systems Based on Commercial Off-the-shelf (COTS) Products; G. Shaton |
01-33-265 | Development of Timing Architecture for a Secure Global Communications Network; G. Shaton |
01-33-279 | A New Class of Precision UTC and Frequency Reference Using IS-95 CDMA Base Station Transmissions; B. Penrod |
01-33-293 | Report on the Time and Frequency Activities of the Time Service Department of the U.S. Naval Observatory; D. Matsakis |
01-33-305 | Time Activities in Argentina; C. Mondinalli, J. Osorio, J. Amenna, C. Esperon, J. Soria and C. Kurtz |
01-33-321 | Update on Time and Frequncy Activities at PTB; P. Hetzel and A. Bauch |
01-33-329 | Project Galileo, An Overview; S. Leschiutta and P. Tavella |
01-33-341 | Use of Geodetic Receivers for TAI; P. Defraigne, G. Petit, and C. Bruyninx |
01-33-349 | Simultaneous Absolute Calibration of Three Geodetic- quality Timing Receivers; J. Plumb, J. White, E. Powers, K. Larson, and R. Beard |
01-33-359 | Fast "Direct-P(Y)" GPS Signal Acquisition Using a Special Portable Clock; H. Fruehauf |
01-33-371 | A System to Compare and Evaluate the Quality of Precise Frequency and Timing Systems; W. Lange |
01-33-385 | Clock Requirements and Trade-off for Satellite-Based Navigation Systems; E. Detoma, A. Godone, F. Levi, and P. Tavella |
01-33-417 | GPS-Based Adaptive Estimating of Time Errors for Clock Synchronization with a FIR Filter; Y. Shmaliy, A. Marienko, O. Ibarra-Manzano, R. Rojas-Laguna, and J. Fernandez-Cortes |
01-33-455 | Studies of an Optimally Unbiased MA Filter Intended for GPS-Based Timekeeping; Y. Shmaliy, O. Ibarra-Manzano, R. Rojas-Laguna, and R. Vazguez-Bautista |
01-33-481 | Management of Phase and Frequency for GPS IIR Satellites; M. Epstein and T. Dass |
01-33-493 | Observable Relativistic Frequency Steps Induced by GPS Orbit Changes; M. Epstein, E. Stoll, and J. Fine |
01-34-007 | Satellite Time Transfer Past and Present; J. Oaks and J. Buisson |
01-34-019 | TAI Time Links with Geodetic Receivers: A Progress Report; G. Petit, Z. Jiang, and P. Moussay |
01-34-029 | Analysis of One Year of Zero-baseline GPS Common-View Time Transfer and Direct Measurement Using Two Co-located Clocks; G. de Jong and E. Kroon |
01-34-039 | Comparison of the One-Way and Common-View GPS Measurement Techniques Using a Known Frequency Offset; M. Lombardi and A. Novick |
01-34-053 | Combining Time Transfer Measurements Using a Kalman Filter; J. Davis, P. Stacey, P. Harris, and M. Cox |
01-34-069 | One-Way GPS Time Transfer: 2002 Performance; S. Hutsell S. Hutsell, M. Forsyth, and C. McFarland |
01-34-089 | Enhancements to the GPS Block IIR Timekeeping System; J. Petzinger, R. Reith, and T. Dass |
01-34-109 | Critical Evaluation of the Motorola M12+ GPS Timing Receiver vs. the Master Clock at the U.S. Naval Observatory, Washington, DC; R. Hambly and T. Clark |
01-34-127 | The Experimental Precise Timing Station (E-PTS) for the Galileo System Test Bed (Phase V1): Architectural Design and Experimental Goals; E. Detoma, S. Facioni, M. Gotta, G. Graglia, F. Cordara, L. Lorini, V. Pettiti, P. Tavella, and J. Hahn |
01-34-139 | CPT Maser Clock Evaluation for Galileo; F. Levi, A. Godone, S. Micalizio, C. Calosso, E. Detoma, P. Morsaniga, and R. Zanello |
01-34-151 | The Global Navigation Satellite System GLONASS: Development and Usage in the 21st Century; G. Polischuk, V. Kozlov, V. Ilitchov, A. Kozlov, V. Bartenev, V. Kossenko, N. Anphimov, S. Revnivykh, S. Pisarev, A. Tyulyakov, B. Shebshaevitch, A. Basevitch, and Y. Vorokhovsky |
01-34-161 | The Development of a Passive Hydrogen Maser Clock for the Galileo Navigation System; L. Mattioni, M. Belloni, P. Berthoud, I. Pavlenko, H. Schweda, Q. Wang, P. Rochat, F. Droz, P. Mosset, and H. Ruedin |
01-34-171 | The Creation of Differential Correction Systems and the Systems of Global Navigation Satellite System Monitoring; G. Polishchuk, V. Kozlov, Y. Urlichich, V. Dvorkin, and V. Gvozdev |
01-34-175 | GPS Clocks in Space: Current Performance and Plans for the Future; T. Dass, G. Freed, J. Petzinger, J. Rajan, T.Lynch, and J. Vaccaro |
01-34-201 | Timekeeping and Time Dissemination in a Distributed Space-Based Clock Ensemble; S. Francis, B. Ramsey, S. Stein, J. Leitner, M. Moreau, R. Burns, R. Nelson, T. Bartholomew, and A. Gifford |
01-34-215 | Panel Discussion: The Future of Clock Technology for Space; J. White, R. Beard, M. Bloch, J. Bolger, M. Garvey, P. Rochat, and S. Leschiutta |
01-34-243 | IEEE-1588™ Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems; J. Eidson, M. Fischer, and J. White |
01-34-255 | Time of Day Management for Satellite Communications; R. Evans and J. White |
01-34-263 | PsynUTC -- Evaluation of a High-Precision Time Synchronization Prototype System for Ethernet LANs; M. Horauer, K. Schossmaier, U. Schmid, R. Hoeller, and N. Keroe |
01-34-279 | Distribution of Time Services Over Networks in a Multi- Network Environment; G. Shaton |
01-34-309 | Stability and Error Analysis for Absolutely Calibrated Geodetic GPS Receivers; J. Plumb, K. Larson, J. White, E. Powers, and R. Beard |
01-34-325 | Limitation of GPS Receiver Calibrations; G. Landis and J. White |
01-34-353 | Two-Way Time Transfer to Airborne Platforms Using Commercial Satellite Modems; T. Celano, J. Warriner, S. Francis, A. Gifford, P. Howe, and R. Beckman |
01-34-367 | Analysis of One Year of GPS and Two-Way Time Transfer Results between PTB, NPL, and VSL; G. de Jong and E. Kroon |
01-34-381 | Investigation of Instabilities in Two-Way Time Transfer; T. Parker, V. Zhang, A. McKinley, L. Nelson, J. Rhode, and D. Matsakis |
01-34-391 | Evaluation and Improvements of the Calibration of a TWSTFT Station Using SATSIM; G. de Jong and R. van Bemmelen |
01-34-405 | Systematic Effects in GPS and WAAS Time Transfers; W. Klepczynski |
01-34-413 | Uncertainties of Time Links Used for TAI; J. Azoubib and W. Lewandowski |
01-34-425 | Time and Frequency Activities at the National Physical Laboratory; J. Davis, P. Whibberley, R. Hlavac, P. Stacey, D. Henderson, K. Szymaniec, W. Chalupczak, and J. Laverty |
01-34-431 | Current Activities of the National Standard Time and Frequency Laboratory of the Telecommunication Laboratories, CHT Telecom Co., Ltd., Taiwan; C. Liao, P. Chang, and S. Chen |
01-34-437 | Time and Frequency Activities at the U.S. Naval Observatory; D. Matsakis |
01-34-457 | Recent Time and Frequency Activities at PTB; D. Piester, P. Hetzel, and A. Bauch |
01-34-467 | Recent Activities in the Field of Time and Frequency in Poland; J. Nawrocki |
01-35-005 | Presentation of the Distinguished PTTI Service Award to S. Clark Wardrip; J. White |
01-35-011 | The APL Time and Frequency Lab; R. Dragonette, M. Miranian, and M. Reinhart |
01-35-017 | Time and Frequency Activities at the CSIR National Metrology Laboratory; E. Marais and B. Theron |
01-35-039 | The National Time and Frequency Service of the Russian Federation; V. Krutikov, V. Kostromin, and N. Koshelyaevsky |
01-35-051 | Initial Testing of a New GPS Receiver, the PolaRx2, for Time and Frequency Transfer Using Dual-frequency Codes and Carrier Phases; P. Defraigne, C. Bruyninx, and F. Roosbeek |
01-35-059 | An Update on PTB's Activities in Time and Frequency; D. Piester, A. Bauch, J. Becker, and T. Polewka |
01-35-071 | The First Two-Way Time Transfer Link between Asia and Europe; H. Lin, W. Tseng, S. Lin, H. Peng, C. Liao, G. de Jong, E. Kroon, and M. J. Brakel |
01-35-081 | Common-View LORAN-C as a Backup to GPS for Precise Time Recovery; T. Celano, K. Carroll, C. Biggs, and M. Lombardi |
01-35-093 | Time Transfer between USNO and PTB: Operation and Calibration Results; D. Piester, A. Bauch, J. Becker, T. Polewka, A. McKinley, and D. Matsakis |
01-35-103 | MCS Zero Age of Data Measurement Techniques; G. Dieter, G. Hatten, and J. Taylor |
01-35-135 | Uncertainty Estimation on GPS Time Transfer; M. Addouche, F. Meyer, and F. Vernotte |
01-35-153 | Extending the Tracking Schedule of a Single-channel GPS Time Receiver; J. Palacio, F. Galindo, and J. Lima |
01-35-157 | Real-time Time and Frequency Transfer Using GPS Carrier Phase Observations; C. Rieck, P. Jarlemark, K. Jaldehag, and J. Johansson |
01-35-185 | Time Dissemination and Common View Time Transfer with Galileo: How Accurate Will It Be?; J. Furthner, A. Moudrak, A. Konovaltsev, J. Hammesfahr, and H. Denks |
01-35-199 | Comparing Code Data from Carrier Phase GPS Receivers to Other Time Transfer Methods at the U.S. Naval Observatory; H. Chadsey |
01-35-237 | MTIE and TDEV Analysis of Unevenly Spaced Time Series Data and Its Application to Telecommunications Synchronization Measurements; M. Li, H. Peng, and C. Liao |
01-35-327 | ITU-R Special Rapporteur Group on the Future of the UTC Time Scale; R. Beard |
01-35-371 | Master Clock and Time Distribution System for the NASA Deep Space Network; J. Lauf, M. Calhoun, P. Kuhnle, R. Sydnor, and R. Tjoelker |
01-35-409 | Distributed Coherent RF Operations; J. Kosinski |
01-35-419 | Fleet Use of Precise Time; T. Myers |
01-35-497 | Working Group A: The Future of UTC; J. Levine, S. Stein, and T. Celano |
01-35-505 | Working Group C: Calibration Issues; J. Oaks and E. Detoma |
01-36-005 | Coping with Overload on the Network Time Protocol Public Servers D. Mills, J. Levine, R. Schmidt, and D. Plonka |
01-36-017 | Time and Frequency Synchronization (T&F Sync) Common and Standardized Architecture for DOD Shore Communication Stations; I. Stevens, S. Dinh, K. Church, R. Castello, R. Beard, and J. White |
01-36-031 | Stability of Geodetic GPS Time Links and Their Comparison to Two-Way Time Transfer; G. Petit and Z. Jiang |
01-36-041 | Averaging Satellite Timing Data for National and International Time Coordination; J. Levine |
01-36-053 | Quantum Positioning System; T. Bahder |
01-36-077 | Adding Water Vapor Radiometer Data to GPS Carrier-Phase Time Transfer; C Hackman and J. Levine |
01-36-099 | Latest Calibration of GLONASS P-Code Time Receivers; A. Foks, J. Nawrocki, and W. Lewandowski |
01-36-105 | Experimental Galileo System Time (E-GST): One Year of Real-Time Experiment; F. Cordara, R. Costa, L. Lorini, D. Orgiazzi, V. Pettiti, I. Sesia, P. Tavella, P. Elia, M. Mascarello, M. Falcone, and J. Hahn |
01-36-123 | Reflections on Ten Years of Network Time Service; R. Schmidt |
01-36-139 | The Accuracy of Two-Way Satellite Time Transfer Calibrations; L. Breakiron, A. Smith, B. Fonville, E. Powers, and D. Matsakis |
01-36-149 | Development of Carrier-Phase-Based Two-Way Satellite Time and Frequency Transfer (TWSTFT); B. Fonville, D. Matsakis, A. Pawlitzki, and W. Schaefer |
01-36-179 | Time and Frequency Activities at the Physikalisch-Technische Bundesanstalt; D. Piester, A. Bauch, J. Becker, and T. Polewka |
01-36-191 | Lithuanian National Time and Frequency Standard; R. Miskinis |
01-36-195 | Overview of Research Activities on Time and Frequency at the National Institute of Information and Communications Technology; M. Hosokawa, Y. Takahashi, S. Hama, H. Toriyama, and T. Morikawa |
01-36-215 | Time and Frequency Activities at the U.S. Naval Observatory; D. Matsakis |
01-36-229 | Improved Operations at the APL Time and Frequency Laboratory; R. Dragonette, M. Miranian, and M. Reinhart |
01-36-237 | Setting Up an NTP Server at the Royal Observatory of Belgium; F. Roosbeek, P. Defraigne, and A. Somerhausen |
01-36-247 | First Evaluation and Experimental Results on the Determination of Uncertainties in [UTC - UTC (k)]; W. Lewandowski, D. Matsakis, G. Panfilo, and P. Tavella |
01-36-263 | Leveraging the Air Force Enterprise Approach to Time Synchronization: A Proposal; G. Bell and J. Scarano |
01-36-279 | Timing Aspects of GPS-Galileo Interoperability: Challenges and Solutions; A. Moudrak, A. Konovaltsev, J. Furthner, J. Hammesfahr, A. Bauch, P. Defraigne, and S. Bedrich |
01-36-293 | Design of the Precise Time Facility for Galileo; S. Bedrick, A. Bauch, A. Moudrak, and W. Schaefer |
01-36-307 | Accounting for Timing Biases between GPS, Modernized GPS, and Galileo Signals; C. Hegarty, E. Powers, and B. Fonville |
01-36-319 | Panel Discussion on GNSS Interoperability; E. Detoma, R. Beard, H. Fruehauf, J. Hammesfahr, C. Hegarty, N. Koshelyaevsky, W. Klepczynski, W. Lewandowski, D. McCarthy, and T. Powell |
01-36-431 | Comparative Analysis of GPS Clock Performance Using Both Code-Phase and Carrier-Derived Pseudorange Observations; J. Oaks, M. Largay, W. Reid, and J. Buisson |
01-37-019 | GPS Block IIR Clocks in Space: Current Performance and Plans for the Future; J. Phelan, T. Dass, G. Freed, J. Rajan, J. D'Agostino, and M. Epstein |
01-37-033 | Implementation of the GPS to Galileo Time Offset (GGTO); J. Hahn and E. Powers |
01-37-213 | METAS Time and Frequency Metrology Report; L. Bernier, G. Dudle, and C. Schlunegger |
01-37-217 | Time and Frequency Activities at the U.S. Naval Observatory; D. Matsakis |
01-37-225 | Update of Research Activities on Time and Frequency at the National Institute of Information and Communications Technology (NICT); S. Hama, M. Hosokawa; Y. Takahashi, H. Toriyama, and T. Morikawa |
01-37-231 | Time and Frequency Activities at the National Measurement Institute, Australia; R. Warrington, P. Fisk, M. Wouters, M. Lawn, J. Thorn, S. Quigg, A. Gajaweera, and S. Park |
01-37-235 | GPS Activities at the National Measurement Institute, Australia; R. Warrington, P. Fisk, M. Lawn, M. Wouters, A. Gajaweera, S. Quigg, and J. Thorn |
01-37-247 | Recent Time and Frequency Transfer Activities at the Observatoire de Paris; J. Achkar, P. Uhrich, P. Merck, and D. Valat |
01-37-254 | The Establishment of a Brazilian Atomic Time Scale; R. de Carvalho |
01-37-312 | BIPM Comparison of Time Transfer Techniques; F. Arias, Z. Jiang, W. Lewandowski, and G. Petit |
01-37-316 | Two-Way Satellite Time Transfer Between USNO and PTB; D. Piester, A. Bauch, J. Becker, T. Polewka, A. McKinley, L. Breakiron, A. Smith, B. Fonville, and D. Matsakis |
01-37-324 | A Comparison of GPS Common-View Time Transfer to All-in-View; M. Weiss, G. Petit, and Z. Jiang |
01-37-329 | Precise Continuous Time and Frequency Transfer Using GPS Carrier Phase; R. Dach, U. Hugentobler, T. Schildknecht, L. Bernier, and G. Dudle |
01-37-337 | Experimental Assessment of the Time Transfer Capability of Precise Point Positioning (PPP); D. Orgiazzi, P. Tavella, and F. Lahaye |
01-37-346 | Redundancy and Correlations in TAI Time Links; G. Petit and Z. Jiang |
01-37-404 | Clock Management Data Analysis for Satellite Communications; R. Gross and R. Melkers |
01-37-636 | Remote Frequency Measurement of TV 5 Rubidium; D. Boehm and R. Gross |
01-37-652 | Frequency Characterization of A/D Converter in Software GPS Receivers; L. Liou, D. Lin, J. Tsui, J. Schamus, and J. Morton |
01-37-660 | Determining GEO-Stationary Satellite Position Using TWSTFT Links; S. Hongwei, L. Zhigang, L. Huanxin, and L. Yuli |
01-37-665 | Impact of Satellite Motion on the Asia-Pacific TWSTFT Links; S. Hongwei, L. Zhigang, and L. Huanxin |
01-37-668 | A Numerical Comparison of Unbiased FIR and Kalman Filters in Applications to GPS-Based Timekeeping; Y. Shmaliy, O. Ibarra-Manzano, and L. Arceo-Miquel |
01-37-672 | A Comparative Study of GPS P3 and GPS L3; G. Li, B. Li, and S. Dong |
01-37-677 | Characterizing the Performance of GPS Disciplined Oscillators with Respect to UTC(NIST); M. Lombardi, A. Novick, and V. Zhang |
01-37-685 | Study on GPS Common-View Observation Data with Multiscale Kalman Filter Based on Correlation Structure of the Discrete Wavelet Coefficients; X. Ou, W. Zhou, and J. Yu |
01-37-691 | The Inter-American Metrology System (SIM) Common-View GPS Comparison Network; M. Lombardi, A. Novick, J. Lopez, J. Boulanger, and R. Pelletier |
01-37-699 | Recent Improvements in GPS Carrier Phase Frequency Transfer; J. Delporte and F. Mercier |
01-37-707 | Improvement GPS Time Link in Asia with All in View; T. Gotoh |
01-37-712 | The Calibration Device for TWSTFT Station at TL; H. Lin, W. Tseng, S. Lin, and C. Liao |
01-37-716 | Time Comparisons by GPS C/A, GPS P3, GPS L3 and TWSTFT at KRISS; S. Yang, C. Lee, Y. Lee, J. Han, and Y. Heo |
01-37-721 | First Evaluation of a Rapid Time Transfer within the IGS Global Real-Time Network; D. Orgiazzi, P. Tavella, G. Cerretto, P. Collins, and F. Lehaye |
01-37-728 | Recent Progress in GLONASS Time Transfer; W. Lewandowski, A. Foks, Z. Jiang, J. Nawrocki, and P. Nogas |
01-37-735 | German Timing Expertise to Support Galileo; J. Hammesfahr, A. Moudrak, and S. Bedrich |
01-37-742 | Testing the Capabilities of GPS Receivers for Time Transfer; P. Defraigne and C. Bruyninx |
01-37-745 | Sources of Instabilities in Two-Way Satellite Time Transfer; T. Parker and V. Zhang |
01-37-816 | Enhanced or eLoran for Time and Frequency Applications; G. Roth, P. Schick, J. Jacoby, C. Schweitzer, D. Gervasi, and E. Wiley |
01-37-824 | Modernized LORAN-C Timing Test Bad - Status and Results; T. Celano, C. Biggs, B. Peterson, and K. Shmihluk |
01-37-830 | Clocks and Timing in the NASA Deep Space Network; J. Lauf, M. Calhoun, W. Diener, J. Gonzales, A. Kirk, P. Kuhnle, B. Tucker, C. Kirby, and R. Tjoelker |
01-37-836 | Performance Analysis and Simulation of JTIDS Network Time Synchronization; N. Wu, H. Wang, and J. Kuang |
01-37-840 | NGA GPS Monitor Station High-Performance Cesium Frequency Standard Stability: From NGA Kalman Filter Clock Estimates; D Manning |
01-37-908 | Time and Frequency Transfer in an Asynchronous TCP/IP Over SDH-Network Utilizing Passive Listening; R. Emardson, P. Hedekvist, M. Nilsson, S. Ebenhag, K. Jaldehag, P. Jarlemark, J. Johansson, L. Pendrill, C. Rieck, P. Loethberg, and H. Nilsson |
01-37-914 | Time and Frequency Transfer and Dissemination Methods Using Optical Fiber Network; M. Amemiya, M. Imae, Y. Fujii, T. Suzuyama, and S. Ohshima |
01-37-919 | A High Performance Frequency Standard and Distribution System for Cassini Ka-Band Experiment; R. Wang, M. Calhoun, A. Kirk, W. Diener, G. Dick, and R. Tjoelker |
01-37-925 | High Performance Frequency Dissemination for Metrology Applications with Optical Fibers; G. Santarelli, F. Narbonneau, M. Lours, D. Chambon, S. Bize, A. Clairon, C. Daussy, O. Lopez, A. Amy-Klein, C. Chardonnet, and M. Tobar |
01-38-049 | GPS/GALILEO Interoperability: GGTO, Timing Biases, and GIOVE-A Experience; R. Piriz, M. Cueto, V. Fernandez, GMV S.A., Spain; P. Tavella, I. Sesia, G. Cerretto, Istituto Nazionale di Ricerca Metrologica (INRiM), Italy; and J. Hahn, ESA/ESTEC, The Netherlands |
01-38-153 | Ground Experiments of Remote Synchronization for Onboard Crystal Oscillator of Quasi-Zenith Satellites -- Use of Multiple Positioning Signals for Feedback Conntrol; T. Iwata, M. Imae, T. Suzuyama, Y. Kawasaki, National Institute of Advanced Industrial Science and Technology (AIST), Japan; N. Takasaki, K. Kokubu, A. Iwasaki, University of Tokyo, Japan; S. Fukushima, Y. Hashibe, Space Engineering Development Co., Japan; F. Tappero, and A. Dempster, University of New South Wales, Australia |
01-38-293 | Stabilized Photonic Links for Frequency and Time Transfer in Antenna Arrays; S. Huang and R. Tjoelker, California Institute of Technology |
01-38-305 | Relativistic Transformations for Time Synchronization and Dissemination in the Solar System; R. Nelson, Satellite Engineering Research Corporation, and T. Ely, California Institute of Technology |
01-38-319 | Time Dissemination Alternatives for Future NASA Applications; A. Gifford, NASA Headquarters; R. Nelson, Satellite Engineering Research Corporation; R. Orr, SATEL LLC; A. Oriai, B. Brodsky, Overlook Systems Technologies; J. Miller, and Barbara Adde, NASA Headquarters |
01-38-329 | T2L2 on Jason-2: First Evaluation of the Flying Model; P. Guillemot, I. Petitbon, CNES French Space Agency; E. Samain, P. Vrancken, J. Weick, D. Albanese, F. Para, and J. Torre, Observatoire de la Cote d'Azur, France |
01-38-337 | Comparison of Precise Time Transfer with Usage of Multi-Channel GPS CV Receivers and Optical Fibers Over Distances of About 3 Kilometers; A. Czubla, J. Konopka, M. Gornik, Central Office of Measures (GUM), Poland; W. Adamowicz, J. Strus, T. Pawszak, J. Romsicki, Polish Telecom (TP S.A.); M. Lipinski, P. Krehlik, L. Sliwczynski, and A. Wolczko, AGH University of Science and Technology (AGH), Poland |
01-38-347 | Unbiased FIR Estimates vs. the Sawtooth-Corrected GPS-Based Measurement: Experimental Evaluation; Y. Shmaliy, L. Arceo-Miquel, J. Munoz-Diaz, and O. Ibarra-Manzano, Guanajuato University, Mexico |
01-38-395 | Galileo System Time Physical Generation; X. Stehlin, Q. Wang, F. Jeanneret, P. Rochat, Temex Time, Switzerland; and E. Detoma, SEPA S.p.A., Italy |
01-38-407 | Galileo IOV System Initialization and LCVTT Technique Exploitation; M. Gotta, F. Gottifredi, S. Piazza, D. Cretoni, Alcatel Alenia Space Italia S.p.A.; and E. Detoma, SEPA S.p.A |
01-38-427 | Time Coordination throughout the Americas via the SIM Common-View GPS Network; M. Lombardi, A. Novick, National Institute of Standards and Technology; J. Mauricio Lopez R., Centro Nacional de Metrologa (CENAM), Mexico; J. Boulanger, R. Pelletier, National Research Council (NRC), Canada; and C. Donado M., Centro Nacional de Metrologa de Panam (CENAMEP), Panama |
01-38-439 | GPS Signal Integrity Dependencies on Atomic Clocks; M. Weiss, National Institute of Standards and Technology; P. Shome, Federal Aviation Administration; and R. Beard, U.S. Naval Research Laboratory |
01-38-449 | Effects of the Rooftop Environment on GPS Time Transfer; M. Lombardi and A. Novick, National Institute of Standards and Technology |
01-38-467 | Estimating the Receiver Delay for Ionosphere-Free Code (P3) GPS Time Transfer; V. Zhang, National Institute of Standards and Technology |
01-38-473 | Real-Time Two-Way Time Transfer to Aircraft; J. Warriner, Symmetricom; Capt. R. Beckman, U.S. Air Force; T. Celano, Symmetricom; M. Miller, and P. Howe, U.S. Air Force Research Laboratory |
01-38-485 | Long-Term Comparison of GPS Carrier-Phase Frequency Transfer and Two-Way Satellite Time/Frequency Transfer; C. Hackman, University of Colorado; J. Levine, National Institute of Standards and Technology and University of Colorado; and T. Parker, National Institute of Standards and Technology |
01-38-499 | Long-Baseline TWSTFT Between Asia and Europe; M. Fujieda, T. Gotoh, M. Aida, J. Amagai, H. Maeno, National Institute of Information and Communications Technology, Japan; D. Piester, A. Bauch, Physikalisch-Technische Bundesanstalt, Germany; Institute of Standards and Science |
01-39-005 | Technical Status of the Galileo System Development; J. Hahn |
01-39-019 | About COMPASS Time and its Coordination with Other GNSSs; S. Dong, X. Li, and H. Wu |
01-39-025 | Critical Points and Technical Approach in the E-OSPF Time Synchronization and Prediction Activities; M. Lainez Samper, P. Navarro Madrid, and M. Romay Merino |
01-39-095 | GIOVE-A Apparent Clock Assessment and Results; J. Hahn, F. Gonzalez, P. Waller, D. Navarro-Reyes, R. Piriz, A. Mozo, V. Fernandez, M. Cueto, P. Tavella, and I. Sesia |
01-39-195 | Combination of GPS PPP and Two-Way Time Transfers for TAI Computation; Z. Jiang and G. Petit |
01-39-203 | Standard Time and Frequency Dissemination via Egyptian Digital Satellite; J. Lowe, J. Heidecker, M. Swidan, A. Hisham, and S. Samuel |
01-39-211 | Studies on Instabilities in Long-Baseline Two-Way Satellite Time and Frequency Transfer (TWSTFT) Including a Troposphere Delay Model; D. Piester, A. Bauch, M. Fujieda, T. Gotoh, M. Aida, H. Maeno, M. Hosokawa, and S. Yang |
01-39-323 | Absolute Calibration of Time Receivers with DLRs GPS/Galileo HW Simulator; S. Thoelert, U. Grunert, H. Denks, and J. Furthner |
01-39-331 | Evaluation of Carrier-Phase GNSS Timing Receivers for UTC/TAI Applications; B. Fonville, E. Powers, A. Kropp, and F. Vannicola |
01-39-339 | Experiments in Precision Common Time for Mobile Platforms; J. Lundberg and J. Cunningham |
01-39-351 | Evaluation of GPS Block IIR Time Keeping System for Integrity Monitoring; A. Wu |
01-39-403 | GNSS Clock Performance Analysis Using One-Way Carrier Phase and Network Methods; F. Gonzalez and P. Waller |
01-39-427 | Long-Term Stability of Remote Clock Comparisons with IGS Clock Products; V. Zhang, T. Parker, and M. Weiss |
01-39-439 | Time Transfer with the Galileo Precise Timing Facility; R. Zanello, A. Busso, and E. Detoma |
01-39-449 | Time Transfer Experiment by TCE on the ETS-VIII Satellite; F. Nakagawa, Y. Takahashi, J. Amagai, R. Tabuchi, S. Hama, and M. Hosokawa |
01-39-477 | Time Transfer Using an Asynchronous Computer Network Results from a 500-Km Baseline Experiment; E. Ebenhag, K. Jaldehag, P. Jarlemark, P. Hedekvist, R. Emardson, and Peter Loethberg |
01-39-489 | Galileo Timing Applications; M. Blanchi, R. Zanello, C. Cantelmo, and S. Scarda |
01-39-511 | Improving Geostationary Satellite GPS Positioning Error Using Dynamic Two-Way Time Transfer Measurements; B. Dainty, J. Raquet, and R. Beckman |
01-39-541 | Analysis of Delay Fluctuations in Two-Way Time Transfer Earth Stations; W. Tseng, H. Lin, P. Chang, S. Lin, and K. Feng |
01-40-003 | Coherent Frequency Reference Generation in the NASA Deep Space Network; B. Tucker, J. Lauf, J. Gonzalez, R. Hamell, W. Diener, and R. L. Tjoelker |
01-40-095 | Time Transfer by Laser Link -- T2L2: An Opportunity to Calibrate RF Links; P. Guillemot, E. Samain, P. Vrancken, P. Exertier, and S. Leon |
01-40-107 | Phase Transfer for Radio Astronomy Interferometers, over Installed Fiber Networks, Using a Round-Trip Correction System; R. McCool, M. Bentley, S. Garrington, R. Spencer, R. Davis, and B. Anderson |
01-40-117 | Evaluation of Output Phase Stability in a Fiber-Optic Two-Way Frequency Distribution on System; S. Ebenhag, P. Hedekvist, C. Rieck, H. Skoogh, P. Jarlemark, and K. Jaldehag |
01-40-125 | Development of Frequency Transfer via Optical Fiber Link at NICT; M. Kumagai, M. Fujieda, T. Gotoh, and M. Hosokawa |
01-40-165 | Studying Network Timing with Precision Packet Delay Measurements; L. Cosart |
01-40-187 | Next Steps in Network Time Synchronization for Navy Shipboard Applications; K. O'Donoghue, M. Glass, and T. Plunkett |
01-40-315 | GPS Changes before and after Implementation of the Architecture Evolution Plan; M. Weiss and A. Masarie |
01-40-349 | GPS Receiver Performance Test at ROA; H. Esteban, J. Palacio, F. Galindo, and J. Garate |
01-40-375 | Remote Synchronization Experiments for Future Quasi-Zenith Satellite System Using Current Geostationary Satellites; T. Iwata, T. Suzuyama, M. Imae, Y. Hashibe, and M. Fukui |
01-40-387 | Influence of Ionosphere Perturbation in GPS Time and Frequency Transfer; S. Pireaux, P. Defraigne, N. Bergeot, Q. Baire, and C. Bruyninx |
01-40-403 | GPS Carrier-Phase Time and Frequency Transfer with Different Versions of Precise Point Positioning Software; T. Feldmann, D. Piester, A. Bauch, and T. Gotoh |
01-40-415 | Advances in Time and Frequency Transfer from Dual-Frequency GPS Pseudorange and Carrier-Phase Observations; F. Lahaye, P. Collins, G. Cerretto, and P. Tavella |
01-40-433 | Remote Frequency Calibration Using GPS Carrier-Phase Observation Measurement at TL; P. Chang, S. Lin, and C. Liao |
01-40-441 | Statistical Constraints on Station Clock Parameters in the NRCan PPP Estimation Process; G. Cerretto, P. Tavella, and F. Lahaye, |
01-40-459 | Two-Way Time Transfer with Dual Pseudo-random Noise Codes; T. Gotoh and J. Amagai |
01-40-467 | Calibration of TWSTFT Links through the Triangle Closure Condition; Z. Jiang, W. Lewandowski, and D. Piester |
01-40-507 | PTTI Capabilities of the Modernized LORAN System; K. Montgomery, and M. Lombardi |
01-40-527 | Locking a Rubidium Oscillator to a Remote Time Scale Using Real-Time Common-View GPS Measurement; M. Lombardi and A. Dahlen |
01-40-543 | Calibration of the BEV GPS Receiver by Using TWSTFT; A. Niessner, W. Mache, B. Blanzano, O. Koudelka, J. Becker, D. Piester, Z. Jiang, and F. Arias |
01-40-565 | Time Transfer from Combined Analysis of GPS and TWSTFT Data; P. Defraigne, M. Carmen Martinez, and Z. Jiang |
01-40-577 | Calibrating GPS with TWSTFT for Accurate Time Transfer; Z. Jiang and A. Niessner |
01-40-587 | Two-Way Satellite Time and Frequency (TWSTFT) Calibration Constancy from Closure Sums; D. Matsakis, L. Breakiron, A. Bauch, D. Piester, and Z. Jiang |
01-40-000 | Hardware Experiments of RESSOX with Ground Station Equipment; M. Fukui, A. Iwasaki, T. Iwata, and T. Matsuzawa (not in Proceedings) |
01-41-005 | Use of GLONASS at the BIPM; W. Lewandowski and Z. Jiang |
01-41-015 | EGNOS Network Time and Its Relationships to UTC and GPS Time; J. Delporte, N. Suard, D. Sidorov, and P. Uhrich |
01-41-045 | Study of Frequency Transfer via Optical Fiber in the Microwave Domain; M. Amemiya, M. Imae, Y. Fujii, T. Suzuyama, K. Watabe, T. Ikegami, and H. Tsuchida |
01-41-057 | Fiber-based Frequency Distribution Based on Long-haul Communication Lasers; S. Ebenhag, P. Hedekvist, and K. Jaldehag |
01-41-067 | Time Transfer by Laser link - T2L2: Results of the First Year of Operation; P. Guillemot, P. Exertier, E. Samain, F. Pierron, J. Torre, and S. Leon |
01-41-081 | High-Performance RF Optical Links; S. Crane, C. Ekstrom, P. Koppang, and W. Walls |
01-41-101 | Limits on GPS Carrier-phase Time Transfer; M. Weiss |
01-41-111 | Implementation and Comparison of Time and Frequency Transfer Methods by GPS Carrier Phase; K. Liang and A. Zhang |
01-41-319 | Clock Comparison Using Digital Television Signals; D. Boehm, J. White, S. Mitchell, and E. Powers |
01-41-327 | Design and Implementation of a Time Source Selecting and Monitoring System for the Telephone Speaking Clock; C. Lin, P. Chang, J. Wang, and S. Lin |
01-41-359 | Optimal Time Transfer; J. Wright and J. Woodburn |
01-41-371 | Two-way Satellite Time and Frequency Transfer Using 1 Mchip/s Codes; V. Zhang, T. Parker, J. Achkar, A. Bauch, L. Lorini, D. Matsakis, D. Piester, and D. Rovera |
01-41-383 | Time and Frequency Transfer Using Asynchronous Fiber-optical Networks: Progress Report; K. Jaldehag, S. Ebenhag, P. Hedekvist, C. Rieck, and P. Lothberg |
01-41-409 | TWSTFT Data Treatment for UTC Time Transfer; Z. Jiang, W. Lewandowski, and H. Konate |
01-41-559 | Evaluation of the Time and Frequency Transfer Capabilities of a Network of GNSS Receivers Located in Timing Laboratories; R. Piriz, G. Cerretto, A. Perucca, and P. Tavella |
01-41-421 | Detection of Outliers in TWSTFT Data Used in TAI; A. Harmegnies, G. Panfilo, and E. Arias |
01-42-141 | Actual Operation Simulation of RESSOX Ground Experiments; T. Iwata, K. Machita, T. Matsuzawa, and K. Saito |
01-42-161 | Galileo Common View: Format, Processing, and Tests with GIOVE; P. Defraigne and M. Martinez-Belda |
01-42-171 | Long-Term Performance Analysis of GIOVE Clocks; P. Waller, F. Gonzalez, S. Binda, D. Rodriguez, G. Tobias, A. Cernigliaro, I. Sesia, and P. Tavella |
01-42-181 | GPS Block IIF Atomic Frequency Standard Analysis; F. Vannicola, R. Beard, J. White, K. Senior, M. Largay, and J. Buisson |
01-42-197 | Accuracy and Precision of USNO GPS Carrier-Phase Time Transfer; C. Hackman and D. Matsakis |
01-42-215 | Simple Methods for the Estimation of the Short-Term Stability of GNSS On-Board Clocks; J. Delporte, C. Boulanger, and F. Mercier |
01-42-225 | Near Real-Time Monitoring of Frequency Standards and Timescales Using Precise Point Positioning (PPP); G. Cerretto, P. Tavella, Y. Mireault, and D. Rovera |
01-42-235 | AOS Studies on GNSS Time Transfer; J. Nawrocki, P. Lejba, P. Nogas, and D. Lemanski |
01-42-251 | Integrated Doppler Correction to TWSTFT Using Round-Trip Measurement; Y. Huang, W. Tseng, and S. Lin |
01-42-263 | Time and Frequency Transfer Combining GLONASS and GPS Data; P. Defraigne, Q. Baire, and A. Harmegnies |
01-42-275 | Evaluation of a GPS Receiver for Code and Carrier-Phase Time and Frequency Transfer; V. Zhang and M. Lombardi |
01-42-285 | How to Handle a Satellite Change in an Operational TWSTFT Network?; K. Liang, T. Feldmann, A. Bauch, and D. Piester |
01-42-295 | The Stability of GPS Carrier-Phase Receivers; L. Breakiron |
01-42-389 | Stabilization of the Propagation Delay in Fiber Optics in a Frequency Distribution Link; A. Czubla, L. Sliwczynski, P. Krehlik, L. Buczek, M Lipinski, and J. Nawrocki |
01-42-397 | Time Transfer by Laser Link -- T2L2: First Results of the 2010 Campaign; P. Guillemot, P. Exertier, E. Samain, F. Pierron, P. Laurent, M. Abgrall, J. Achkar, D. Rovera, K. Djerroud, and S. Leon |
01-42-413 | Single-Way Fiber-Based Time Transfer with Active Detection of the Transfer Variations; S. Ebenhag, P. Hedekvist, and K. Jaldehag |
01-42-427 | Time Transfer in Optical Network; V. Smotlacha, A.Kuna. and W. Mache |
01-42-437 | Compensated Fiber-Optic Frequency Distribution Equipment; J. MacDonald and G. Conway |
01-42-509 | Advanced GPS-Based Time Link Calibration with PTB'S New GPS Calibration Setup; T. Feldmann, A. Bauch, D. Piester, M. Rost, E. Goldberg, S. Mitchell, and B. Fonville |
01-42-541 | Progress Report of CNES Activities Regarding the Absolute Calibration Method; A. Proia and G. Cibiel |
01-42-557 | Continued Evaluation of Carrier-Phase GNSS Timing Receivers for UTC/TAI Applications; J. Prillaman, E. Powers, B. Fonville, S. Mitchell, and E. Goldberg |