Index to the proceedings of the Precise Time And Time Interval (PTTI) systems and applications (formerly applications and planning) meeting
OTHER PTTI DEVICES, HARDWARE AND SYSTEMS
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 |