13th Annual PTTI Meeting 1981
December 01 - 03, 1981
Naval Research Laboratory
Washington, D.C.
Meeting Officers
PRECISE TIME AND TIME INTERVAL USERS, REQUIREMENTS AND SPECIFICATIONS
James R. Bowser, Automation Industries, Inc.
PRECISE TIME AND TIME INTERVAL USERS, REQUIREMENTS AND SPECIFICATIONS: Discussion
PREClSE TIME DISSEMINATlON VIA PORTABLE ATOMIC CLOCKS
Kenneth Putkovich, U.S. Naval Observatory
LORAN-C, AN OVERVIEW
Lt. William J. Thrall, U.S. Coast Guard
USING THE NAVSTAR GLOBAL POSITIONING SYSTEM AS A GLOBAL TIMING SYSTEM
Karl L. Kovach, 1LT, USAF, SPACE DIVISION/YEE
A HISTORY AND ANALYSIS OF HYDROGEN MASER RELIABILITY
J. B. Curtright, Jet Propulsion Laboratory
FIELD OPERATIONS WITH CESIUM CLOCKS IN HF NAVIGATION SYSTEMS
E. H. Christy and D. A. Clayton, Offshore Navigation, Inc.
HIGH ACCURACY OMEGA TIMEKEEPING
Edward A. Imbier, Smithsonian Astrophysical Observatory
TIME INFORMATION DISTRIBUTION AT WHITE SANDS MISSILE RANGE (abstract)
R. A. Stimets, Jr., U.S. Army Communications Command
RELATIONSHIPS BETWEEN U.S. NAVAL OBSERVATORY, LORAN-C and THE DEFENSE SATELLITE COMMUNICATION SYSTEM
Laura G. Charron, U.S. Naval Observatory
LORAN-C PREDICTION PROBLEMS
Carl F. Lukac, U.S. Naval Observatory
COMPARISON OF VLBI, IV, AND TRAVELING CLOCK TECHNIQUES FOR TIME TRANSFER
J. H. Spencer, E. B. Waltman, K. J. Johnston, N. J. Santini, Naval Research Laboratory
W. J. Klepczynski, D. N. Matsakis, P. E. Angerhofer, G. H. Kaplan, U.S. Naval Observatory
DEVELOPMENT OF OPTICAL FIBER FREQUENCY AND TIME DISTRIBUTION SYSTEMS
George Lutes, Jet Propulsion Laboratory
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, Bendix Field Engineering Corporation
TIME TRANSFER BY IRIG-B TIME CODE VIA DEDICATED TELEPHONE LINK
G. Missout, J. Béland, D. Lehel, G. Bédard and P. Bussière, Institut de recherche d'Hydro-Québec
VARIATIONS IN PROPAGATION DELAY TIMES FOR LINE TEN (TV) BASED TIME TRANSFERS
M. C. Chiu and B. W. Shaw, The Johns Hopkins University, Applied Physics Laboratory
THE ROLE OF PRECISE TIME IN IFF
William M. Bridge, The MITRE Corporation
DIGITAL PROCESSING CLOCK
David H. Phillips, Naval Research Laboratory
TIME COMPARISON VIA OTS-2
G. de Jong and R. Kaarls, Van Swinden Laboratory (VSL)
D.Kirchner and H. Ressler, Technical University(TUG)
DESIGN APPROACH FOR A MICROPROCESSOR-BASED GPS TIME TRANSFER RECEIVER
P.C. Ould and R.J. Van Wechel, Interstate Electronics Corporation
TIME TRANSFER USING NAVSTAR GPS
A. J. Van Dierendonck, Q. D. Hua, J. R. McLean, A. R. Denz, Stanford Telecommunications, Inc.
GLOBAL POSITTONING SYSTEM TIME TRANSFER RECEIVER (GPS/TTR) PROTOTYPE DESIGN AND INITIAL TEST EVALUATION
J. Oaks, A. Frank, S. Falvey, M. Lister, and J. Ruisson, Naval Research Laboratory
C. Wardrip, NASA Goddard Spaceflight Center
H. Warren, Bendix Field Engineering Corpration
LONG TERM FREQUENCY STABILITY ANALYSIS OF THE GPS NAVSTAR 6 CESIUM CLOCK
Thomas B. McCaskill, Sarah Stebbins, Clarence Carson, James Buisson, Naval Research Laboratory
TIME CODE DISSEMINATION VIA THE SIRIO-1 VHF TRANSPONDER
E. Detoma, Bendix Field Engineering Corporation
G. Gobbo, Telespazio, Roma
S. Leschiutta, Politecnico di Torino
V. Pettiti, Istituto Elettrotecnico Nazionale
INTERCONTINENTAL CLOCK SYNCHRONIZATION WITH THE BLOCK I VLBI SYSTEM
Mitchell C. Roth, Jet Propulsion Laboratory
MAINTAINING HIGHLY ACCURATE GLOBAL SYNTONIZATION USING THE HYDROGEN LINE (abstract)
Samuel C. Ward, Jet Propulsion Laboratory
CLOCKS FOR AIRBORNE SYSTEMS
Norman Houlding, The MITRH Corporation
UNPRECEDENTED SYNTONIZATION AND SYNCHRONIZATION ACCURACY VIA SIMULTANEOUS VIEWIWG WITH GPS RECEIVERS; CONSTRUCTION CHARACTERISTICS OF AN NBS/GPS RECEIVER
Dick D. Davis, Marc Weiss, Alvin Clements, and David W. Allan, National Bureau of Standards
CRYOGENIC MASERS
A. J. Berlinsky and W. N. Hardy, Department of Physics, University of British Columbia
A TRAPPED MERCURY 199 ION FREQUENCY STANDARD
Leonard S. Cutler, Robin P. Giffard, and Michael D. McGuire, Hewlett-Packard Laboratories
PROSPECTS FOR STORED ION FREQUENCY STANDARDS
D. J. Wineland, National Bureau of Standards
RECENT DEVELOPMENTS AND PROPOSED SCHEMES FOR TRAPPED ION FREQUENCY STANDARDS
L. Maleki, Jet Propulsion Laboratory
A RUBIDIUM CLOCK FOR GPS
William J. Riley, EG&G, Inc.
INVESTIGATIONS OF LASER PUMPED GAS CELL ATOMIC FREQUENCY STANDARD
C. H. Volk, J. C. Camparo and R. P. Frueholz, The Aerospace Corporation
MAGNETIC STATE SELECTION IN ATOMIC FREQUENCY AND TIME STANDARDS
H. E. Peters, Sigma Tau Standards Corporation
FREQUENCY STABILITY OF MASER OSCILLATORS OPERATED WITH ENHANCED CAVITY Q
Michel Têtu and Pierre Tremblay, Laboratoire de Recherches sur les Oscillateurs et Systèmes
Paul Lesage, Pierre Petit and Claude Audoin, Laboratoire de l'Horloge Atomique
INTRODUCTION TO SOME FUNDAMENTAL CONCEPTS OF GENERAL RELATIVITY AND TO THEIR REQUIRED USE IN SOME MODERN TIMEKEEPING SYSTEMS
C. O. Alley, University of Maryland
THE ROLE OF THE DEEP SPACE NETWORK'S FREQUENCY AND TIMING SYSTEM IN THE DETECTION OF GRAVITATIONAL WAVES
John C. Mankins, Jet Propulsion Laboratory
THE IMPLICATIONS OF PRECISE TTMEKEEPING FOR DOPPLER GRAVITATIONAL WAVE OBSERVATIONS
John D. Anderson, F. B. Estabrook, and J. W. Armstrong, Jet Propulsion Laboratory
LAMP RELIABILlTY STUDIES FOK IMPROVED SATELLITE RUBIUIUM FREQUENCY STANDARD
R. P. Frueholz, M. Wun-Fogle, H. U. Eckert, C. H. Volk and P. F. Jones, The Aerospace Corporation
MAGNETIC SHIELDING AND VACUUM TEST FOR PASSIVE HYDROGEN MASERS
D. U. Gubser, S. A. Wolf, A. B. Jacoby, and L. D. Jones, Naval Research Laboratory
A PHASE-COHERENT LINK USING THE ANIK-B SATELLITE FOR GEODETIC VLBI (abstract)
W. B. Waltman, S. H . Knowles, Naval Research Laboratory
W. H. Cannon, D. A. Davidson, W. T. Petrachenko, York University
J. L. Yen, University of Toronto
J. Popelar, Energy Mines and Resources
D. N. Fort, Herzberg Institute of Astrophysics
J. Galt, Dominion Radio Astrophysical Observatory
COMPOSITE-TYPE 87Rb OPTICAL-PUMPING LIGHT SOURCE FOR THE RUBIDIUM FREUQENCY STANDARD
Nobunori Oura, Naimu Kuramochi, Shigeya Naritsuka, and Teruhiko Hayashi, Tokyo Institute of Technology
AN NNSS SATELLITE TIMING RECEIVER
C. L. Jain, K. Kumar, H. I. Andharia, Mohan Singh, V. D. Souza, V. K. Goel, A. K. Sisodia, Indian Space Research Organisation
NO WARMUP CRYSTAL OSCILLATOR
David H. Phillips, Naval Research Laboratory
CONCLUSION
Mr. Andy Chi, General Chairman