Cw 100r updating

Link Characterization for Deep-Space Optical Communications. The Interplanetary Network Progress Report, Volume 42-205, May 15, 2016. Development of an X-Band Coupled-Oscillator Transmit/Receive Phased Array. https://nasa.gov/progress_report/42-205/205Loren Clare, Gregory Miles, and Julian Breidenthal. The Interplanetary Network Progress Report, Volume 42-170, pp. The Interplanetary Network Progress Report, Volume 42-218, pp. https://nasa.gov/progress_report/42-218/42-218Gerard J. The Interplanetary Network Progress Report, Volume 42-218, pp. The Interplanetary Network Progress Report, Volume 42-214, pp. https://nasa.gov/progress_report/42-214/42-214David D. The Interplanetary Network Progress Report, Volume 42-214, pp. https://nasa.gov/progress_report/42-214/42-214Edgar Satorius, Thomas Jedrey, and Charles Wang. The Interplanetary Network Progress Report, Volume 42-210, pp. https://nasa.gov/progress_report/42-210/210The Klystron Engineering Model Development (KEMD) Task A New Design for the Goldstone Solar System Radar (GSSR) Lawrence Teitelbaum, Roland Liou, Yakov Vodonos, Jose Velazco, Kenneth Andrews, and Dan Kelley Lawrence Teitelbaum, Roland Liou, Yakov Vodonos, Jose Velazco, Kenneth Andrews, and Dan Kelley. Frequency Standards Stability Analyzer for the Deep Space Network. The Interplanetary Network Progress Report, Volume 42-169, pp. Coherent Wavefront Sensor for Optical Communications through Atmospheric Turbulence in Strong Background Environments. Opportunities for Optimization through Parallelization of the Bundle Protocol – Consistent with the Recommendations in CCSDS 734.2-B-1 and the Definitions of RFC-5050. 1-K Cryogenic System for Optical Communication Receivers on Tipping Telescopes. Mars Reconnaissance Orbiter Ka-Band Carrier Signal Analysis. A Primer on Quantum Channel Capacity and Its Applications to Optical Communication. A Truncation-Depth Rule of Thumb for Convolutional Codes. https://nasa.gov/progress_report/42-206/206Julian Breidenthal, Hua Xie, and Loren Clare. The Interplanetary Network Progress Report, Volume 42-205, May 15, 2016. https://nasa.gov/progress_report/42-205/205Julian Breidenthal and Douglas Abraham. Design Reference Missions for Deep-Space Optical Communication. https://nasa.gov/progress_report/42-209/209Ryan Rogalin and Meera Srinivasan. Synchronization for Optical PPM with Inter-Symbol Guard Times. Mitigation of Discrete Spectral Components in Filtered BPSK and OQPSK Signals. The Interplanetary Network Progress Report, Volume 42-209, May 15, 2017. The Interplanetary Network Progress Report, Volume 42-208, February 15, 2017.

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https://nasa.gov/progress_report/42-206/206Daniel R. The Interplanetary Network Progress Report, Volume 42-206, August 15, 2016.

The Interplanetary Network Progress Report, Volume 42-207, November 15, 2016. Three-Antenna Doppler-Delay Imaging of the Crater Tycho for Uplink Array Calibration Applications.

https://nasa.gov/progress_report/42-207/207Fast Implementation of New S-Band Capability in the Deep Space Network Jose E. The Interplanetary Network Progress Report, Volume 42-169, pp.

The Interplanetary Network Progress Report, Volume 42-213, pp. https://nasa.gov/progress_report/42-213/42-213Andre Tkacenko, Matthew D. The Interplanetary Network Progress Report, Volume 42-212, pp. https://nasa.gov/progress_report/42-212/42-12Hua Xie, Sam Dolinar, Matthew Chase, Susan Clancy, Michael Kilzer, Leigh Torgerson, and Andre Tkacenko. The Cryogenic DC Behavior of Cryo3/AZ1 In P 0.1-by-80-Micrometer-Gate High Electron Mobility Transistor Devices.

Variable Coded Modulation (VCM) Cognitive Radio Higher-Order Constellation Receiver Operation. Tropospheric Emission Spectrometer (TES) Spectrum Reconstruction Analysis Summary.

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