Index to the proceedings of the Precise Time And Time Interval (PTTI) systems and applications (formerly applications and planning) meeting


CRYSTAL OSCILLATORS

The entry for each paper is preceded by a hyphenated numerical code indicating its subject, Proceedings volume number, and page number therein, i.e, 07-03-211 represents subject category "7", Proceedings volume number "3" and page number "211". The following index covers the PTTI Proceedings from the 2nd (1970) through the 41st (2009).

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07-03-211Disciplined Time and Frequency Oscillator; R. Stone
07-06-143Measurements of the Short-Term Stability of Quartz Resonators--a Window on Future Developments in Crystal Oscillators; F. L. Walls and A. E. Wainwright
07-08-135Quartz Clocks Synchronized by LF Time Signals; J. Bonanomi and P. Schumacher
07-08-665A New Rugged Low Noise High Precision Oscillator; D. A. Emmons
07-10-055Acceleration Sensitivity Compensation in High Performance Crystal Oscillators; D. A. Emmons
07-10-101Quartz Crystal and Superconductive Resonators and Oscillators; R. J. Besson
07-11-403Advances in the Stability of High Precision Crystal Resonators; A. Ballato and J. R. Vig
07-11-441Galileo Quartz Clock; M. Bloch, M. Meirs, M. Rosenfeld, and P. Garriga
07-11-457Initial Results on 5 MHz Quartz Oscillators Equipped with BVA Resonators; R. J. Besson and D. A. Emmons
07-12-211Frequency and Time Generation and Control; M. B. Bloch
07-12-829Some New Results on the Frequency Characteristics of Quartz Crystals Irradiated by Ionizing and Particle Radiations; H. Bahadur and R. Parshad
07-13-831No Warmup Crystal Oscillator; D. H. Phillips
07-14-577AK-Cut Crystal Resonators; A. Kahan and F. K. Euler
07-14-593Some New Results on Irradiation Characteristics of Synthetic Quartz Crystals and Their Application to Radiation Hardening; H. Bahudur and R. Parshad
07-15-583A Plan for the Development of Inertial Reconstruction of Initial State Clock (IRIS); E. G. Kimme
07-15-621High Performances from a New Design of Crystal Oscillator; G. Beauvy, G. Marotel, and P. Renoult
07-15-635Design of SC Cut 10 MHz H.Q. Crystals with G. Sensitivity Better Than 2x10**-10/g; A. Debaisieux, J. P. Aubry, and J. Groslambert
07-15-693Crystal Resonator/Oscillator Test Facility and Test Results; V. J. Rosati and R. L. Filler
07-16-167New Features of Different Frequency Generating Systems Due to the Use of Electrodeless, Rigidly Mounted BVA Quartz Crystal Resonator; A. Jendly, E. Graf, G. Busca, and D. A. Brownsea
07-17-069Crystal Oscillators for Tactical Military Applications; V. J. Rosati and J. R. Vig
07-17-071Crystal Oscillators for Satellite Applications; M. Bloch
07-17-393Low and High Dose Photon Irradiation of Quartz Crystal Resonators; J. J. Suter and R. H. Maurer
07-18-055Precision Time and Frequency Sources and Systems Research and Development at the Johns Hopkins University Applied Physics Laboratory; A. G. Bates, M. T. Boies, M. C. Chiu, R. Kunski, and J. J. Suter
07-18-589An Environmentally Hardened Precision Quartz Oscillator; S. Bass, B. T. Milliren, and R. M. Garvey
07-20-035The System Design of 100 MHz New Frequency Standard with an Excellent Behavior; M. Ruida and W. Xiaohua
07-20-295Technique for Measuring the Acceleration Sensitivity of Quartz Resonators; M. H. Watts, E. P. EerNisse, R. W. Ward, and R. B. Wiggins
07-21-161Steady State Oscillator Analysis in the Immittance Domain; B. Parzen
07-21-445Microcomputer-Compensated Crystal Oscillator for Low-Power Clocks; S. S. Schodowski, R. L. Filler, J. A. Messina, V. J. Rosati, and J. R. Vig
07-21-509Ultrastable Quartz Oscillator for Spacecraft; J. R. Norton
07-22-131A Highly Stable Crystal Oscillator Applied to Geodetic VLBI Experiment; H. Kiuchi and J. Arnagai
07-22-465Environmental Sensitivities of Quartz Crystal Oscillators; F. L. Walls
07-23-177Universal, Computer Facilitated, Steady State Oscillator, Closed Loop Analysis Theory and Some Applications to Precision Oscillators; B. Parzen
07-30-161Short-Term Characterizations of GPS-Disciplined Oscillators and Field Trial for Frequency of Italian Calibration Centers; V. Pettiti and F. Cordara
07-31-055Investigation of the GPS Block IIR Time Keeping System (TKS) Anomalies Caused by the Voltage-Controlled Crystal Oscillator (VCXO); A. Wu
07-31-615A Cost-Effective Time and Frequency Reference; V. Candelier, G. Marotel, D. Thorax, and C. Trialoup
07-31-657Airborne Comparison of an Ultra-Stable Quartz Oscillator With a H-Maser As Another Possible Validation of General Relativity; A. Grishaev
07-34-089Enhancements to the GPS Block IIR Timekeeping System; J . Petzinger, R. Reith, and T. Dass
07-34-139CPT Maser Clock Evaluation for Galileo; F. Levi, A. Godone, S. Micalizio, C. Calosso, E. Detoma, P. Morsaniga, and R. Zanello
07-34-151The 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
07-34-161The 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
07-34-175GPS Clocks in Space: Current Performance and Plans for the Future; T. Dass, G. Freed, J. Petzinger, J. Rajan, T.Lynch, and J. Vaccaro
07-34-193Response of a Geosynchronous Spacecraft's Crystal Oscillator to Solar Flares: Results of a "Space Experiment"; J. Camparo, A. Presser, S. Lalumondiere, and S. Moss
07-34-215Panel Discussion: The Future of clock Technology for Space; J. White, R. Beard, M. Bloch, J. Bolger, M. Garvey, P. Rochat, and S. Leschiutta
07-34-243IEEE-1588™ Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems; J. Eidson, M. Fischer, and J. White
07-34-255Time of Day Management for Satellite Communications; R. Evans and J. White
07-34-263PsynUTC -- Evaluation of a High-Precision Time Synchronization Prototype System for Ethernet LANs; M. Horauer, K. Schossmaier, U. Schmid, R. Hoeller, and N. Keroe
07-34-279Distribution of Time Services Over Networks in a Multi- Network Environment; G. Shaton
07-34-341The Crystal Oscillator Characterization Facility at the Aerospace Corporation; S. Karuza, M. Rolenz, A. Moulthrop, A. Young, and V. Hunt
07-35-249The Trade-off between Some State Space and FIR Algorithms in GPS-based Optimal Control of a Local Crystal Clock; Y. Shmaliy, R. Olivera-Reyna, O. Ibarra-Manzano, and R. Olivera-Reyna
07-35-333The State of the Art in Amateur Timekeeping; T. Van Baak
07-36-173Ultra-Low-Noise Cavity-Stabilized Microwave Reference Oscillator Using an Air-Dielectric Resonator; C. Nelson, D. Howe, and A. Sen Gupta
07-36-369Developments in Ultra-Stable Quartz Oscillators for Deep Space Reliability; G. Weaver, M. Reinhart, and M. Miranian
07-37-001MEMS Technology for Timing and Frequency Control; C. Nguyen
07-37-122MEMS-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
07-37-171Aging of Dual Mode Resonator for Microcomputer Compensated Crystal Oscillator; Y. Kim
07-37-404Clock Management Data Analysis for Satellite Communications; R. Gross and R. Melkers
07-37-499Vibration-Induced PM Noise in Oscillators and Measurements of Correlation with Vibration Sensors; D. Howe, J. LanFranchi, L. Cutsinger, A. Hati, and C. Nelson
07-37-509Low Noise UHF TCXO; D. Bogomolov and R. Boroitsky
07-37-517Digital Recursive Oscillator with Reduced Frequency versus Temperature Dependency Utilizing a Dual-Mode Crystal Oscillator; V. Stofanik, A. Sam, I. Balaz, and M. Minarik
07-37-575Comparison Among Precision Temperature Compensated Crystal Oscillators: W. Zhou, H. Zhou, Z. Xuan, and W. Zhang
07-37-594A Rubidium Frequency Standard Based on Unreal Time Control Approach; H. Zhou, W. Zhou, B. Qu, and Z. Xuan
07-37-668A Numerical Comparison of Unbiased FIR and Kalman Filters in Applications to GPS-Based Timekeeping; Y. Shmaliy, O. Ibarra-Manzano, and L. Arceo-Miquel
07-37-677Characterizing the Performance of GPS Disciplined Oscillators with Respect to UTC(NIST); M. Lombardi, A. Novick, and V. Zhang
07-38-153Ground Experiments of Remote Synchronization for Onboard Crystal Oscillator of Quasi-Zenith Satellites: Use of Multiple Positioning Signals for Feedback Control; 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
07-38-251g-Compensated, Miniature, High-Performance Quartz Crystal Oscillators; H. Fruehauf, Frequency Electronics
07-38-361An Ensemble of Ultra-Stable Quartz Oscillators to Improve Spacecraft Onboard Frequency Stability; M. Miranian, G. Weaver, and M. Reinhart, Johns Hopkins University
07-39-045Atomic and Quartz Clock Hardware for Communication and Navigation Satellites; L. Mallette
07-40-029History and Performance of FEI Space-Class Oscillators; M. Bloch, O. Mancini, and T. McClelland
07-40-051Ultrastable Oscillators for Space Applications; P. Cash, D. Emmons, and J. Welgemoed
07-40-057Enhancing the Art of Space Operations -- Progress in JHU/APL Ultra-Stable Oscillator Capabilities; G. Weaver, M. Reinhart, and R. Wallis
07-40-083Standardizing Space Ovenized Crystal Oscillators for Lower Cost and Faster Delivery; J. Humphrey, L. Ronchetti, and J. Richardson
07-41-433RESSOX Control of QZSS During Communication Interruption; T. Iwata, T. Matsuzawa, and A. Abei
07-41-457What We Don't Know About Quartz Clocks in Space; M. Bloch, O. Mancini, and T. McClelland
07-41-537Local Oscillator Contribution to Carrier-phase Measurements in a GNSS Receiver; E. Detoma, L. Bonafede, and P. Capetti
07-42-30510 to the Minus 10th-Level Simple Single-Oven OCXO; M. Ito, H. Mitome, and T. Oita

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