Within this paper, we report on an Optimetrics experiment conducted on the National Aeronautics and Space Administration (NASA) Laser Communication Relay Demonstration (LCRD) mission. The high precision two-way ranging is conducted on the optical communications link between the LCRD space terminal in a geosynchronous orbit and the Optical Ground Station 1 (OGS-1) at Table Mountain, California, and is referred to as optimetrics ranging.The receiver to transmitter clock loopback is implemented in the LCRD space modem. A digital dual mixer time difference phase meter (DDMTD) is implemented in the OGS-1 ground modem. The round-trip light time is measured by counting the frame and data clock ticks between transmitter and receiver frame synchronization markers for coarse range, and the relative phase of the transmit and receive clock for high precision range. This approach provides coverage for all potential ranges with no ranging ambiguity. The flight modem FPGA code was modified for frame and data clock loopback and the OGS-1 FPGA code was modified for the DDMTD phase meter implementation.The experiment team conducted a 36-hour continuous ranging measurement. Preliminary two-way optimetrics ranging data show a noise floor of 3 mm (rms). It shows the same performance as our theoretical noise analysis and ground-based tests with spare flight modems.For reference and comparison, traditional Radio Frequency (RF) ranging between LCRD and OGS-1 was conducted at the same time and indicates a ranging noise floor of 30 cm (rms). Other telemetry and relevant environmental parameters, such as weather and atmosphere temperature, were also collected for the offline data processing.The high precision range measurements from the laser communications data link clock and clock phase are performed simultaneously with the continuous optical communication. No extra hardware was added to the existing system. This high precision optimetrics measurement implementation provides alternative ranging measurements for orbit determination (OD) and flight dynamics calculations with higher precision. We foresee a significant OD improvement for accurate navigation upon implementation in future optical communication systems.


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    Title :

    Laser Communication Relay Demonstration (LCRD) Optimetrics Experiment




    Publication date :

    2024-03-02


    Size :

    4224736 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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    Early Results from NASA’s Laser Communications Relay Demonstration (LCRD) Experiment Program

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