International audienceThis paper presents a complete study and characterization of a two-way satellite time and frequency transfer link between two remote earth stations equipped with analog modems and software-defined radio receivers driven by atomic clocks. Techniques based on code-phase and carrier-phase measurements were developed to compute time and frequency deviations between these clocks. A comparison of different methods using conventional bandwidth, broadband, carrier-phase information and software-defined radio solution is given. In addition, the paper is completed by a description of calibration aspects, more specifically on the software-defined radio link, an essential step in calculating the differences between remote time sca...
The NBS Boulder Laboratory is in the process of assembling a very high accuracy time transfer system...
Abstract—Two-way satellite time and frequency transfer (TWSTFT) is the technique which allows time s...
peer-reviewedTime transfer over satellite links has been explored since the satellite era began. Cur...
International audienceThis paper presents a complete study and characterization of a two-way satelli...
International audienceTWSTFT has been one of the most popular techniques used for comparison of remo...
Experiments in precise clock comparisons using the two-way time transfer tech-nique via satellite be...
International audienceWe describe an opensource, openhardware experimental Software-Defined Radio se...
International audienceThis paper describes the carrier-phase two-way satellite time and frequency tr...
International audienceWe performed a carrier-phase two-way satellite frequency transfer (TWCP) exper...
Communications Research Laboratory (CRL) has conducted the research and development on time and freq...
The code-based Two-Way Satellite Time and Frequency Transfer technique reveals strong performance in...
We have developed a new Two-Way Satellite Time and Frequency Transfer modem in order to improve meas...
We have conducted GPS carrier-phase time-transfer experiment between the Master Clock at USNO in Was...
The NBS Boulder Laboratory is in the process of assembling a very high accuracy time transfer system...
Abstract—Two-way satellite time and frequency transfer (TWSTFT) is the technique which allows time s...
peer-reviewedTime transfer over satellite links has been explored since the satellite era began. Cur...
International audienceThis paper presents a complete study and characterization of a two-way satelli...
International audienceTWSTFT has been one of the most popular techniques used for comparison of remo...
Experiments in precise clock comparisons using the two-way time transfer tech-nique via satellite be...
International audienceWe describe an opensource, openhardware experimental Software-Defined Radio se...
International audienceThis paper describes the carrier-phase two-way satellite time and frequency tr...
International audienceWe performed a carrier-phase two-way satellite frequency transfer (TWCP) exper...
Communications Research Laboratory (CRL) has conducted the research and development on time and freq...
The code-based Two-Way Satellite Time and Frequency Transfer technique reveals strong performance in...
We have developed a new Two-Way Satellite Time and Frequency Transfer modem in order to improve meas...
We have conducted GPS carrier-phase time-transfer experiment between the Master Clock at USNO in Was...
The NBS Boulder Laboratory is in the process of assembling a very high accuracy time transfer system...
Abstract—Two-way satellite time and frequency transfer (TWSTFT) is the technique which allows time s...
peer-reviewedTime transfer over satellite links has been explored since the satellite era began. Cur...