Index to the proceedings of the Precise Time And Time Interval (PTTI) systems and applications (formerly applications and planning) meeting
The entry for each paper is preceded by a hyphenated numerical code indicating its subject, Proceedings volume number, and page number therein, i.e, 08-02-120 represents subject category "8", Proceedings volume number "2" and page number "120". The following index covers the PTTI Proceedings from the 2nd (1970) through the 41st (2009).
| 08-02-120 | Microwave, Optics, Lasers, and Other Exotic Systems; R. Stone |
| 08-03-023 | The Incremental Phase Shifter and PRN Time Transfer; R. B. Kershner |
| 08-03-045 | Timing Receiver for Timation Satellite; R. Easton |
| 08-04-345 | Omega Timing Receiver, Design and System Test; J. J. Wilson, J. E. Britt, and A. R. Chi |
| 08-05-127 | Digital Frequency Control of Satellite Frequency Standards; S. A. Nichols |
| 08-06-159 | The Magnetic Matrix Time Interval Meter; S. K. Merrill and B. V. Rodgers |
| 08-07-297 | Frequency Converter From 3.58 MHz to 5.0 MHz for Frequency Comparison by Means of TV Color Sub-carrier; T. Inouye and C. Takeuchi |
| 08-08-085 | Navigation Technology Satellite (NTS) Low Cost Timing Receiver Development; L. Raymond, J. Oaks, J. Osborne, G. Whitworth, J. Buisson, P. Landis, C. Wardrip, and J. Perry |
| 08-08-105 | A Time Code from NOAA's Geostationary Operational Environmental Satellites; D. W. Hanson, J. V. Cateora, and D. D. Davis |
| 08-08-706 | New Horologe for Air Force Metrology Laboratories; A. Alpert and J. F. Barnaba |
| 08-10-101 | Quartz Crystal and Superconductive Resonators and Oscillators; R. J. Besson |
| 08-10-293 | A Modular Multiple Use System for Precise Time and Frequency Measurement and Distribution; V. S. Reinhart, W. A. Adams, G. M. Lee, and R. L. Bush |
| 08-12-417 | Design Considerations for a Loran-C Tuning Receiver in a Hostile Signal to Noise Environment; J. W. Porter, J. R. Bowell, and G. E. Price |
| 08-12-663 | Optical Fibers for the Distribution of Frequency and Timing References; G. F. Lutes |
| 08-12-743 | The NATO III 5 MHz Distribution System; A. Vulcan and M. Bloch |
| 08-12-765 | The SA-2239/WLQ-4(V) Cutty Sark Distribution System; A. Vulcan and J. Ho |
| 08-13-243 | Development of Optical Fiber Frequency and Time Distribution Systems; G. Lutes |
| 08-13-263 | Low Noise Buffer Amplifiers and Buffered Phase Comparators for Precise Time and Frequency Measurement and Distribution; R. A. Eichinger, P. Dachel, W. H. Miller, and J. S. Ingold |
| 08-13-281 | Time Transfer of IRIG-B Time Code via Dedicated Telephone Link; G. Missout, J. Beland, D. Lebel, G. Bedard, and P. Bussiere |
| 08-13-325 | Digital Processing Clock; D. H. Phillips |
| 08-13-505 | Clocks for Airborne Systems; N. Houlding |
| 08-14-223 | Design of the Satellite Time and Frequency Transfer (STIFT) Microwave Ground Terminal; H. Penfield, E. Imbier, and R. F. C. Vessot |
| 08-14-451 | Timing Subsystem Development - Network Synchronization Experiments; K. R. Backe |
| 08-14-495 | Architecture and Performance of a New GPS Time Transfer and Positioning Receiver; T. I. Kido, P. C. Ould, and R. J. Van Wechel |
| 08-15-155 | A New Precision Time and Frequency Source for Stationary PTTI Applications; J. M. Ashjee, R. J. Helkey and R. C. Hyatt |
| 08-15-389 | Timing of Spacecraft Data: Time Accuracy Requirements and Timing Facilities of the European Space Agency (ESA); H. P. Dworak |
| 08-15-413 | UHF IRIG G Distribution System; M. Tope |
| 08-15-423 | Timing System Design Considerations for a Mobile Astrolabe; C. F. Lukac, P. J. Wheeler, R. E. Keating, and R. T. Clarke |
| 08-15-723 | The Superconducting Cavity Stabilized Ruby Maser Oscillator; G. J. Dick and D. M. Strayer |
| 08-16-351 | A Low Noise Synthesizer for Autotuning and Performance Testing of Hydrogen Masers; J. M. Cloeren and J. S. Ingold |
| 08-16-403 | Master and Secondary Clock in Telecommunications Networks; A. Risley |
| 08-16-411 | New GOES Satellite Synchronized Time Code Generator; D. E. Fossler and R. K. Olsen |
| 08-16-427 | 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 |
| 08-16-467 | A Simplified GPS C/A Receiver Front End with Low Noise Performance; D. D. Davis and A. D. Clements |
| 08-17-201 | R-CATS--A New Method for Calibrating Global Positioning System (GPS) Remote Sites; J. A. Buisson, O. J. Oaks, and M. J. Lister |
| 08-17-287 | A Network Timing Concept for Switzerland; P. Kartaschoff, P. A. Probst, and P. Voros |
| 08-17-303 | Network Timing Equipment for Synchronous Digital Telecommunication; P. Girardet, P. Rochat, and E. Graf |
| 08-17-319 | Telemetry Time Integration; E. L. Davis |
| 08-17-345 | Direct Digital Synthesizers; V. S. Reinhardt |
| 08-18-385 | Reference Frequency Transmission over Optical Fibers; G. Lutes and A. Kirk |
| 08-18-529 | PTTI Systems on the Eastern Test Range; J. L. Wright |
| 08-19-081 | Timing Operations and Data Processing in the Goddard Laser Tracking Network; A. Clinton, E. Detoma, W. Hanrahan, and P. Kushmeider |
| 08-19-096 | Measurement of Delay Variation in Digital Communications Networks; K. Hilty and J. D. Mellana |
| 08-19-299 | Application of High Temperature Superconductivity to Ultrastable Frequency Sources; G. J. Dick, D. M. Strayer, and L. Maleki |
| 08-20-013 | State-of-the-Art Fiber Optics for Reference Frequency Distribution over Short Distances; G. F. Lutes and L. Primas |
| 08-20-023 | Stabilized Fiber Optic Frequency Distribution System; L. E. Primas, G. F. Lutes, and R. L. Sydnor |
| 08-20-175 | Disciplined Range Time Code Translators with 100 Nanosecond Accuracy; S. D. Bass, R. K. Olson, and J. S. McNabb |
| 08-20-183 | Frequency and Time Synchronization in Digital Communications Networks; M. Kihara and K. Hisadome |
| 08-21-131 | A New Two-Way Time Transfer Modem; G. P. Landis, J. D. White, A. Gifford, R. L. Beard, and J. A. Murray |
| 08-21-139 | Phase Distribution on Fiber Optic Cable; J. C. Webber and D. L. Thacker |
| 08-21-181 | The NIST Digital Time Service; J. Levine, D. W. Allan, and D. B. Sullivan |
| 08-21-205 | Alternative Timing Networks with GPS; G. P. Landis, S. Stebbins, R. L. Beard, and H. F. Fliegel |
| 08-21-371 | Dielectric Resonator Oscillators Theory and State-of-the-Art; A. P. S. Khanna |
| 08-21-421 | Performance of Optical Fibers for Reference Frequency and IF Signal Transmissions in VLBI Observation; K. Sato and T. Hara |
| 08-21-467 | PTTI Systems on The Eastern Test Range; C. S. Duffy and J. L. Wright |
| 08-21-479 | NASA/JPL Deep Space Network Frequency and Timing; P. F. Kuhnle |
| 08-21-527 | Simultaneous Transmission of a Frequency Reference and a Time Code Over a Single Optical Fiber; G. Lutes and M. Calhoun |
| 08-22-231 | Precise Frequency Calibration Using Television Video Carriers; E. E. Burkhardt |
| 08-22-253 | Application of High Stability Oscillators to Radio Science Experiments Using Deep Space Probes; E. R. Kursinski |
| 08-22-269 | Zero-Crossing Detector with Sub-microsecond Jitter and Crosstalk; G. J. Dick, D. F. Kuhnle, and R. L. Sydnor |
| 08-22-307 | Sensitivity to the External Temperature of Some GPS Time Receivers; W. Lewandowski and R. Tourde |
| 08-22-317 | GPS Block 2R Time Standard Assembly (TSA) Architecture; T. Baker |
| 08-22-345 | Two-Way Time Transfer Modem; I. J. Galysh and P. Landis |
| 08-22-355 | Delivery and Application of Precise Timing for a Traveling Wave Powerline Fault Locator System; M. A. Street |
| 08-22-367 | Time Concurrency/Phase-Time Synchronization in Digital Communications Networks; M. Kihara and A. Imaoka |
| 08-22-375 | The Cable and Wireless Approach to Network Synchronization; R. D. Calvert |
| 08-22-409 | Synchronizing Computer Clocks Using a Local Area Network; J. Levine |
| 08-23-209 | An Improved Offset Generator Developed for Allan Deviation Measurement of Ultra Stable Frequency Standards; R. L. Hamell, P. F. Kuhnle, and R. L. Sydnor |
| 08-23-247 | A New Two-Way Time Transfer Modem; G. P. Landis, I. J. Galysh, G. Gifford, and A. Osborne III |
| 08-24-005 | The Time Keeping System for GPS Block IIR; H. C. Rawicz, M. A. Epstein, and J. A. Rajan |
| 08-24-173 | A Precise GPS-Based Time and Frequency System; J. McNabb and E. Fossler |
| 08-24-343 | Performance of Low-Cost Commercial Fiber-Optic Transceivers for Reference Frequency Distribution; R. Dragonette and J. J. Suter |
| 08-24-357 | Ultrastable Reference Frequency Distribution Utilizing a Fiber Optic Link; M. Calhoun and P. Kuhnle |
| 08-24-365 | A Wide-Band Fiber Optic Frequency Distribution Sytem Employing Thermally Controlled Phase Compensation; D. Johnson, M. Calhoun, R. Sydnor, and G. Lutes |
| 08-24-375 | Analysis of the Eastern Range Multiplexed Fiber Optic IRIG B120 Distribution System; M. J. Duncan, J. S. Martell, and J. L. Wright |
| 08-25-425 | Precision Frequency Synthesizing Sources with Excellent Time/Frequency Performances; L. Zhou and H. Lin |
| 08-25-463 | Time Synchronized Video Systems; R. Burnett |
| 08-26-185 | Custom Turnkey Time and Frequency Systems--a Structured, Expandable Approach; D. F. Wright |
| 08-26-191 | High Resolution Time Interval Counter; V. S. Zhang, D. D. Davis, and M. A. Lombardi |
| 08-26-221 | The Deep Space Network Stability Analyzer; J. C. Breidenthal, C. A. Greenhall, R. L. Hamell, and P. F. Kuhnle |
| 08-26-393 | Allan Deviation Computations of a Linear Frequency Synthesizer System Using Frequency Domain Techniques; A. Wu |
| 08-26-415 | Fiber Optic Reference Frequency Distribution to Remote Beam Waveguide Antennas; M. Calhoun, P. Kuhnle, and J. Law |
| 08-26-427 | Laser Retroreflector Experiment on Navstar 35 and 36; E. C. Pavlis and R. L. Beard |
| 08-27-035 | GPS Monitor Station Upgrade Program at the Naval Research Laboratory; I. J. Galysh and D. M. Craig |
| 08-27-051 | The Role of Time and Frequency in Future Systems; S. R. Stein, A. Gifford, and T. Celano |
| 08-27-059 | Special Technology Area Review on Time and Frequency; J. R. Vig |
| 08-27-181 | High Precision Time Transfer to Test a Hydrogen Maser on Mir; E. M. Mattison and R. F. C. Vessot |
| 08-27-303 | Signal Delay Stability of a Ku-Band Two-Way Satellite Time Transfer Terminal; D. Kirchner, H. Rebler, and R. Robnik |
| 08-27-313 | Data and Time Transfer Using SONET Radio; G. M. Graceffo |
| 08-27-335 | 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 |
| 08-27-347 | 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 |
| 08-27-359 | 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 |
| 08-27-373 | Accurate Time/Frequency Transfer Method Using Bi-directional WDM Transmission; A. Imaoka and M. Kihara |
| 08-27-397 | GPS Moving Vehicle Experiment; O. J. Oaks, W. Reid, J. Wright, C. Duffey, C. Williams, H. Warren, T. Zeh, and J. Buisson |
| 08-27-409 | Bonneville Power Administration Timing System; K. E. Martin |
| 08-27-433 | The WSMR Timing System: Toward New Horizons; W. A. Gilbert and R. Stimets |
| 08-27-439 | Authentication, Time-Stamping and Digital Signatures; J. Levine |
| 08-27-457 | A Novel Photonic Clock and Carrier Recovery Device; X. S. Yao, G. Lutes, and L. Maleki |
| 08-28-097 | The Network Computer as Precision Timekeeper; D. L. Mills |
| 08-28-109 | On the Shipboard Application of Network Time Protocol (NTP, RFC 1305); M. E. Bautista |
| 08-28-125 | Military Applications of Time and Frequency; R. L. Beard, J. D. White, and J. A. Murray |
| 08-28-141 | The Alternate Master Clock and Precise Time Requirements; Why an Alternate Master Clock?; W. V. Bollwerk |
| 08-28-417 | 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 |
| 08-28-441 | Performance Evaluation of the GPS Block IIR Time Keeping System; A. Wu |
| 08-29-027 | Timing Systems (panel discussion); R. Beard, J. D. White (moderator), J. Bleich, E. Butterline, and M. Cimafonte |
| 08-29-345 | Utilization of the Global Positioning System (GPS) for Timing Systems Under Range Standardization & Automation Phase-IIA Program; M. C. Lee |
| 08-29-357 | The WSMR Timing System: Approaching the Horizon; W. A. Gilbert |
| 08-29-365 | Internet Timekeeping around the Globe; D. L. Mills, A. Thyagarjan, and B. C. Huffman |
| 08-29-373 | SIPRNET Network Time Service; R. E. Schmidt |
| 08-29-381 | The Application of NTP to Navy Platforms; K. F. O'Donoghue and D. T. Marlow |
| 08-29-391 | Benefits and Issues on the Integration of GPS with a Wireless Communications Link; R. DiEsposti, S. Saks, L. Jocic, and J. Kayloe |
| 08-29-423 | Results from Proof-of-Concept Time-Based Communications Testing; T. P Celano, S. R. Stein, G. A. Gifford, E. A. Swanson, B. R. Hemenway, Jr., and J. C. Carney |
| 08-30-117 | Unequal-Arms Michelson Interferometers; M. Tinto and J. Armstrong |
| 08-30-405 | 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 |
| 08-30-413 | Effect of Clock Noise on the Synchronization Performance of Constant Bit Rate (CBR) Traffic in an ATM Network; T. Jayawardena and C. Olszewski |
| 08-30-423 | The Synchronization of the Spanish R&D Network; J. J. Palacio, F. Galindo, T. Lopez, L. Batanero, and C. Tomas |
| 08-30-433 | Pseudo-Random Code Correlator Timing Errors Due to Multiple Reflections in Transmission Lines; F. Ascarrunz, T. Parker, and S. Jefferts |
| 08-30-483 | Validation of a Time of Transmission Monitor Suite for Measurement of the Offset Between LORAN-C Transmissions and UTC; L. Putnam |
| 08-31-007 | The Pervasive Societal Impact of Time and Frequency; H. Hellwig |
| 08-31-029 | Feedback From GPS Timing Users: Relayed Observations From 2 SOPS; T. Occhi and S. Hutsell |
| 08-31-043 | Multiple-Path Linked Common-View Time Transfer (LCVTT); W. Reid |
| 08-31-055 | Investigation of the GPS Block IIR Time Keeping System (TKS) Anomalies Caused by the Voltage-Controlled Crystal Oscillator (VCXO); A. Wu |
| 08-31-075 | Performance of Global Positioning System Block II/IIA/IIR On-Orbit NAVSTAR Clocks; T. McCaskill, O. Oaks, M. Largay, W. Reid, H. Warren, and J. Buisson |
| 08-31-091 | Considerations for the Concept of Galileo's Timekeeping System; J. Hahn |
| 08-31-101 | Redundant Atomic Frequency Standard Timekeeping System with Seamless AFS Switchover; V. Reinhardt and C. Sheckells |
| 08-31-111 | The Autonomous Detection of Clock Problems in Satellite Timekeeping Systems; Y. Chan, J. Camparo, and R. Frueholz |
| 08-31-121 | Space-Segment Timekeeping for Next Generation MILSATCOM; Y. Chan, J. Camparo, and R. Frueholz |
| 08-31-141 | An Overview of GPS Augmentation Systems; M. Petovello, G. Lachapelle, and P. Fenton |
| 08-31-155 | Wide Area Augmentation System (WAAS); D. Ormand |
| 08-31-161 | WAAS Network Time Performance Using WRS Data; C. Griffith, S. Peck, and P. Diamond |
| 08-31-173 | Geo Uplink Subsystem (GUS) Clock Steering Algorithms Performance, Validation, and Test Results; M. Grewal, W. Brown, R. Lucy, and P. Hsu |
| 08-31-181 | Enhancing GPS Timing Engines Using WAAS Signals; M. Gonthier and E. Masella |
| 08-31-191 | Time Transfer Using WAAS: An Initial Attempt; P. Fenton, W. Klepczynski, E. Powers, and R. Douglas |
| 08-31-231 | Update on Time and Frequency Activities at NIST; T. Parker and D. Sullivan |
| 08-31-241 | Overview of Research Activities on Time and Frequency at the Communications Research Laboratory; M. Hosokawa, M. Imae, T. Morikawa, N. Kurihara, and K. Okamoto |
| 08-31-257 | Recent and Pending Improvements at the U.S. Naval Observatory; D. Matsakis |
| 08-31-317 | Development of a Multiple Time Source Comparison System for Disseminative Services in Taiwan; C. Lin, S. Lin, and C. Liao |
| 08-31-323 | Analysis of Delays in Transmitting Time Code Using an Automated Computer Time Distribution System; Y. Shan, H. Chua, A. Kyaw, and J. Levine |
| 08-31-329 | The Design and Implementation of the Integrated Timing System To Be Used in the National Ignition Facility; G. Coutts, J. Wiedwald, N. Sewall, and L. Lagin |
| 08-31-523 | 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 |
| 08-31-537 | 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 |
| 08-31-545 | How To Distribute GPS-Time Over COTS-Based LANs; U. Schmid, M. Horauer, and N. Keroe |
| 08-31-561 | A High Performance Multi-Channel Time-Interval Counter With an Integrated GPS Receiver; A. Novick, M. Lombardi, V. Zhang, and A. Carpentier |
| 08-31-569 | Evaluation of Mitrex Modem Transmit and Receive Delay Instability; M. Mascarello, P. Tavella, V. Pettiti, and F. Cordara |
| 08-31-589 | Vertical Cavity Lasers for Atomic Time Standards; H. Zappe |
| 08-31-637 | On an Improved Method of Resolving the Frequency Difference Between Two Very Accurate and Stable Frequency Signals; R. Percival and C. Green |
| 08-32-031 | WAAS, EGNOS, and MSAS for TELECOM SYNC; H. Fruehauf |
| 08-32-211 | 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 |
| 08-32-221 | 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 |
| 08-32-301 | Observing a Gravitational Wave Background with LISA; M. Tinto, J. Armstrong, and F. Estabrook |
| 08-32-331 | 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 |
| 08-32-341 | Multi-Purpose Time Analyzer and Monitor for Deep Space Network Time Synchronization; J. Gonzalez, M. Calhoun, S. Cole, and R. Tjoelker |
| 08-32-367 | Common Time Reference Technology for Systems Inter-Operability; R. Beard and J. White |
| 08-32-423 | The Nanokernel; D. Mills and P. Kamp |
| 08-32-431 | Using the Network Time Protocol (NTP) to Transmit International Atomic Time (TAI); J. Levine and D. Mills |
| 08-32-441 | New Issues in Telecommunications; E. Butterline |
| 08-32-445 | Primary Reference Clocks Using Indoor Antennas; D. Mitchell |
| 08-32-455 | Time and Frequency Activities at the CSIR National Metrology Laboratory; E. Marais |
| 08-33-191 | Robust GPS-based Synchronization of CDMA Mobile Networks; D. Schneuwly |
| 08-33-255 | A Set of Scalable Master Clock Systems Based on Commercial Off-the-shelf (COTS) Products; G. Shaton |
| 08-33-265 | Development of Timing Architecture for a Secure Global Communications Network; G. Shaton |
| 08-33-543 | A New Digital Phase Measurement System; G. Landis, I. Galysh, and T. Petsopoulos |
| 08-34-089 | Enhancements to the GPS Block IIR Timekeeping System; J. Petzinger, R. Reith, and T. Dass |
| 08-34-263 | PsynUTC -- Evaluation of a High-Precision Time Synchronization Prototype System for Ethernet LANs; M. Horauer, K. Schossmaier, U. Schmid, R. Hoeller, and N. Keroe |
| 08-34-279 | Distribution of Time Services Over Networks in a Multi- Network Environment; G. Shaton |
| 08-34-295 | Ephemeris Determination Using a Connected Element Interferometer; D. Morrison, S. Pogorelc, T. Celano, and A. Gifford |
| 08-34-425 | 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 |
| 08-34-431 | 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 |
| 08-34-437 | Time and Frequency Activities at the U.S. Naval Observatory; D. Matsakis |
| 08-35-081 | Common-View LORAN-C as a Backup to GPS for Precise Time Recovery; T. Celano, K. Carroll, C. Biggs, and M. Lombardi |
| 08-35-333 | Advanced Clocks for PTTI; J. White |
| 08-35-339 | A High-Precision Counter Using the DSP Technique; S. Chen, P. Chang, H. Peng, and C. Liao |
| 08-35-347 | Picosecond-accuracy Digital-to-Time Converter for Phase- Interpolation DDS; F. Baronti, D. Lunardini, R. Roncella, xand R. Saletti |
| 08-35-359 | A PC-based Time Interval Counter with 200 Ps Resolution; J. Kalisz and R. Szplet |
| 08-35-371 | Master Clock and Time Distribution System for the NASA Deep Space Network; J. Lauf, M. Calhoun, P. Kuhnle, R. Sydnor, and R. Tjoelker |
| 08-35-383 | LISA: The Laser Interferometer Space Antenna; M. Tinto |
| 08-35-409 | Distributed Coherent RF Operations; J. Kosinski |
| 08-35-419 | Fleet Use of Precise Time; T. Myers |
| 08-35-457 | Using Laser Diode Instabilities for Chip-Scale Stable Frequency References; T. Simpson, F. Doft, and W. Golding |
| 08-35-479 | Opto-electronic Oscillator Stabilized by a Hyperfine Atomic Transition; D. Strekalov, D. Aveline, A. Matsko, R. Thompson, N. Yu, and L. Maleki |
| 08-36-053 | Quantum Positioning System; T. Bahder |
| 08-36-077 | Adding Water Vapor Radiometer Data to GPS Carrier-Phase Time Transfer; C. Hackman and J.Levine |
| 08-36-173 | Ultra-Low-Noise Cavity-Stabilized Microwave Reference Oscillator Using an Air-Dielectric Resonator; C. Nelson, D. Howe, and A. Sen Gupta |
| 08-36-355 | Components for Batch-Fabricated Chip-Scale Atomic Clocks; M. Kwakernaak, S. Lipp, S. McBride, P. Zanzucchi, W. Chan, V. Khalfin, H. An, R. Whaley, B. Willner, A. Ulmer, J. Li, T. Davis, A. Braun, J. Abeles, A. Post, Y. Jau, N. Kuzma, and W. Happer |
| 08-37-038 | A Review of Time Jitter and Digital Systems; V. Reinhardt |
| 08-37-122 | MEMS-Based Quartz Oscillators and Filters for On-Chip Integration; R. Kubena, F. Stratton, D. Chang, R. Joyce, T. Hsu, M. Lim, and R. M'Closkey |
| 08-37-213 | METAS Time and Frequency Metrology Report; L. Bernier, G. Dudle, and C. Schlunegger |
| 08-37-217 | Time and Frequency Activities at the U.S. Naval Observatory; D. Matsakis |
| 08-37-225 | 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 |
| 08-37-481 | Low-Noise X-Band Oscillator and Amplifier Technologies: Comparison and Status; D. Howe |
| 08-37-503 | W-Band Dual Channel AM/PM Noise Measurement System - An Update; A. Hati, C. Nelson, J. Garcia Nava, D. Howe, F. Walls, H. Ascarrunz, J. Lanfranchi, and B. Riddle |
| 08-37-602 | Characterizing Absorption Spectrum of Natural Rubidium by Using a Directly Modulated VCSEL; I. Ben-Aroya and G. Eisenstein |
| 08-37-628 | New Frequency Counting Principle Improves Resolution; S. Johansson |
| 08-37-636 | Remote Frequency Measurement of TV 5 Rubidium; D. Boehm and R. Gross |
| 08-37-642 | A Distributed Trigger System for Picosecond LASER Facilities; P. Leclerc, M. Prat, J. Bouvet, V. Allouche, P. Raybaut, D. Aubert, and A. Duval |
| 08-37-646 | Phase-Accumulator Based Multi-Channel High-Precision Digital PWM Architecture; H. Meuth, I. Janiszewski, and K. Schade |
| 08-37-830 | 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 |
| 08-37-836 | Performance Analysis and Simulation of JTIDS Network Time Synchronization; N. Wu, H. Wang, and J. Kuang |
| 08-37-908 | 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 |
| 08-37-919 | 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 |
| 08-38-105 | A Multi-Channel Stability Analyzer for Frequency Standards in the Deep Space Network; C. Greenhall, A. Kirk, and R. Tjoelker, California Institute of Technology |
| 08-38-115 | Comparing Two Types of VHF Low-Noise Frequency Sources for Microwave and Higher Frequency Synthesis; T. Oita, F. Asamura, and K. Sakamoto |
| 08-38-175 | Characteristics of Time Synchronization Response of NTP Clients on MS Windows OS and Linux OS; K. Sato and K. Asari, National Astronomical Observatory of Japan |
| 08-38-193 | IEEE 1588: An Update on the Standard and Its Application; J. Eidson, Agilent Technologies |
| 08-38-213 | Internal and External Clock Synchronization in a Power Line Network; G. Gaderer, P. Loschmidt, A. Treytl, Austrian Academy of Sciences; and N. Keroe, Oregano Systems, Austria |
| 08-38-223 | Applications and Opportunities for the IEEE 1588 Standard in Military Applications; J. MacKay, Progeny Systems |
| 08-38-293 | Stabilized Photonic Links for Frequency and Time Transfer in Antenna Arrays; S. Huang and R. Tjoelker, California Institute of Technology |
| 08-39-045 | Atomic and Quartz Clock Hardware for Communication and Navigation Satellites; L. Mallette |
| 08-39-079 | The In-flight Frequency Behavior of Two Ultra-stable Oscillators Onboard the New Horizons Spacecraft; J. Jensen and G. Weaver |
| 08-39-131 | A Systems-Level Analysis of the JHU/APL Time and Frequency Laboratory; M. Miranian, G. Weaver, R. Dragonette, and M. Reinhart |
| 08-39-291 | A Simplified Laser and Optics System for Laser-Cooled Rb Fountain Frequency Standards; P. Kunz, T. Heavner, and S. Jefferts |
| 08-39-339 | Experiments in Precision Common Time for Mobile Platforms; J. Lundberg and J. Cunningham |
| 08-39-351 | Evaluation of GPS Block IIR Time Keeping System for Integrity Monitoring; A. Wu |
| 08-39-363 | An Oscillator Model for High-Precision Synchronization Protocol Discrete Event Simulation; G. Gaderer, P. Loschmidt, A. Nagy, R. Beigelbeck, J. Mad, amd N. Keroe |
| 08-39-477 | 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 |
| 08-39-531 | A 45 Ps Time-Interval Counter Board with a PCI Interface; R. Szplet, J. Kalisz, Z. Jachna, and K. Rozyc |
| 08-39-581 | Modeling Phase-Locked Loops Using Verilog; J. Meyer |
| 08-40-003 | Coherent Frequency Reference Generation in the NASA Deep Space Network; B. Tucker, J. Lauf, J. Gonzalez, R. Hamell, W. Diener, and R. L. Tjoelker |
| 08-40-135 | Recent Progress in Silicon MEMS Oscillators; W. Hsu |
| 08-40-147 | Towards an Integrated Optic Phase-Locked Oscillator; M. Watts, J. Kim, F. Kaertner, A. Lentine, and W. Zortman |
| 08-40-165 | Studying Network Timing with Precision Packet Delay Measurements; L. Cosart |
| 08-40-187 | Next Steps in Network Time Synchronization for Navy Shipboard Applications; K. O'Donoghue, M. Glass, and T. Plunkett |
| 08-40-197 | Synchronization in Packet Networks: Timing Metrics and Monitoring; C. Barry and S. Bangalore |
| 08-40-549 | Residual Vibration-Induced PM Noise of a Rigid Optical Fiber Spool; J. Taylor, C. Nelson, A. Hati, N. Ashby, and D. Howe |
| 08-40-559 | Novel Tiltmeter for Monitoring Angle Shift in Incident Waves; S. Taghavi-Larigani and J. VanZyl |
| 08-41-033 | The Common Time Module, a Robust Time Maintenance System; A. Dowd and R. Garvey |
| 08-41-045 | 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 |
| 08-41-057 | Fiber-based Frequency Distribution Based on Long-haul Communication Lasers; S. Ebenhag, P. Hedekvist, and K. Jaldehag |
| 08-41-081 | High-Performance RF Optical Links; S. Crane, C. Ekstrom, P. Koppang, and W. Walls |
| 08-41-303 | Phase-lock Loops in Vibration Environments; A. Hati, C. Nelson, and D. Howe |
| 08-41-319 | Clock Comparison Using Digital Television Signals; D. Boehm, J. White, S. Mitchell, and E. Powers |
| 08-41-327 | 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 |
| 08-41-339 | Characterization of Noise Properties in Photodetectors: A Step toward Ultra-low Phase Noise Microwaves; J. Taylor, F. Quinlan, and S. Diddams |
| 08-41-383 | Time and Frequency Transfer Using Asynchronous Fiber-optical Networks: Progress Report; K. Jaldehag, S. Ebenhag, P. Hedekvist, C. Rieck, and P. Lothberg |
| 08-41-397 | Novel, All-digital Phase Measurement System for Time Scales; S. Romisch, T. Parker, and S. Jefferts |
| 08-41-433 | RESSOX Control of QZSS During Communication Interruption; T. Iwata, T. Matsuzawa, and A. Abei |
| 08-41-449 | GPS Block IIF Rubidium Frequency Standard Life Test; F. Vannicola, R. Beard, J. White, K. Senior, T. Kubik, and D. Wilson |
| 08-41-481 | TCMO: A Versatile MEMS Oscillator Timing Platform; K. Schoepf, R. Rebel, D. Chen, G. Zolfagharkhani, A. Gaidarzhy, J. Kuypers, M. Crowley, and P. Mohanty |
| 08-41-537 | Local Oscillator Contribution to Carrier-phase Measurements in a GNSS Receiver; E. Detoma, L. Bonafede, and P. Capetti |
| 08-41-551 | Tracking Biases Caused by Imperfections in DLL Receivers; G. Hejc and W. Schaefer |
| 08-42-059 | INRiM Time and Frequency Laboratory: A New Data Management System (DMS); V. Pettiti, R. Costa, G. Cerretto, F. Cordara, D. Orgiazzi, and G. Reff |
| 08-42-569 | Spur Correlation in an Array of Direct Digital Synthesizers; T. Comberiate, K. Lauritzen, L. Ruppalt, C. Lugo, and S. Talisa |
