Abstract
All satellites require communication links. This chapter compares the use of radio frequency (RF) with optical links for small satellites. Even in the case of small satellites, free space optical (FSO) links now offer very useful options. FSO communications have some unique advantages and disadvantages compared to RF satcom. The latter will always have a role, but for throughput, security, and licence-free operation, FSO communications are increasingly worth considering. This chapter provides an overview of these two options, making comparisons where possible. The last section reviews some recent developments in both areas.
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References
Analog Devices, Analog Devices, highly integrated radio frequency transceiver AD9361 IC (n.d.), https://wiki.analog.com/resources/eval/user-guides/ad-fmcomms2-ebz/ad9361
D.G. Aviv, Laser Space Communications (Artech House, Boston, 2006)
D.M. Boroson, J.J. Scozzafava, D.V. Murphy, B.S. Robinson, M.I.T. Lincoln, The lunar laser communications demonstration (LLCD), in 2009 Third IEEE International Conference on Space Mission Challenges for Information Technology, (2009), pp. 23–28
K. Cahoy, Laser Communication with CubeSats. At http://www.bostonphotonics.org/files/seminars/KCahoy-2018.pdf, 2018
D.O. Caplan, Laser communication transmitter and receiver design. J. Opt. Fiber Commun. Rep. 4, 225–362 (2007)
N. Chahat, R.E. Hodges, J. Sauder, M. Thomson, E. Peral, Y. Rahmat-Samii, CubeSat deployable Ka-band mesh reflector antenna development for earth science missions. IEEE Trans. Antennas Propag. 64, 2083–2093 (2016)
J. Chang, C. Schieler, K. Riesing, J. Burnside, K. Aquino, B. Robinson, Body pointing, acquisition and tracking for small satellite laser communication, in Proc. SPIE, vol. 10910, (2019)
E. Clements et al., Nanosatellite optical downlink experiment: design, simulation, and prototyping. Opt. Eng. 55(11), 111610 (2016)
B. Edwards, NASAs Optical Communications Programs, 2019. Presentation
B.L. Edwards, R. Daddato, K. Schulz, C. Schmidt, J. Hamkins, D. Giggenbach, B. Robinson, L. Braatz, R. Alliss, An update on the CCSDS optical communications working group, in 2017 IEEE International Conference on Space Optical Systems and Applications (ICSOS), (2017), pp. 1–9
eoPortal web pages, FedSat (Federation Satellite). Available at https://earth.esa.int/web/eoportal/satellite-missions/f/fedsat, 2002
C. Fuchs et al., Optical satellite downlinks and QKD at DLR, in ESA Scylight Workshop on Optical Communication, (2018)
C. Fuchs et al., Update on DLR’s OSIRIS program and first results of OSIRISv1 on flying laptop, in SPIE Proceedings Free-Space Laser Communications XXXI, vol. 10910, (2019)
S. Gao, Y. Rahmat-Samii, R.E. Hodges, X. Yang, Advanced antennas for small satellites. Proc. IEEE 106, 391–403 (2018)
D. Giggenbach, E. Lutz, J. Poliak, R. Mata-Calvo, C. Fuchs, A high-throughput satellite system for serving whole Europe with fast internet service, employing optical feeder links, in Broadband Coverage in Germany. 9th ITG Symposium. Proceedings, (2015), pp. 1–7
D. Haley, A. Beck, A. Pollok, A. Grant, R. McKilliam, Massive scale, long battery life, direct to orbit connectivity for the internet of things. Acta Astronaut. 151, 318–323 (2018)
H. Hemmati, Near-Earth Laser Communications (CRC Press, Boca Raton, 2009)
H. Hemmati, D. Caplan, Optical Satellite Communications, ch. 4 (Elsevier, 2013), pp. 121–162
H. Hemmati, K. Wilson, M.K. Sue, L. Harcke, M. Wilhelm, C.-C. Chen, J.R. Lesh, Y. Feria, D. Rascoe, F. Lansing, J.W. Layland, Comparative study of optical and radio-frequency communication Systems for a Deep-Space Mission, in Telecommunications and Data Acquisition Progress Report, (NASA, Pasadena, 1996), pp. 42–128
R.E. Hodges, N. Chahat, D.J. Hoppe, J.D. Vacchione, A deployable high-gain antenna bound for Mars: Developing a new folded-panel reflectarray for the first CubeSat mission to Mars. IEEE Antennas Propag. Mag. 59, 39–49 (2017)
R.E. Hodges, D.K. Lewis, M.J. Radway, A.S. Toorian, F.H. Aguirre, D.J. Hoppe, B.N. Shah, A.A. Gray, The ISARA Mission flight demonstration of a high gain Ka-band antenna for 100Mbps telecom, in AIAA Conference on Small Satellites, SSC18-VI-03, (2018)
H. Kaushal, G. Kaddoum, Optical communication in space: Challenges and mitigation techniques. IEEE Commun. Surv. Tutorials 19, 57–96 (2017). Firstquarter
N. Letzepis, I. Holland, W. Cowley, The Gaussian free space optical MIMO channel with Q-ary pulse position modulation. IEEE Trans. Wirel. Commun. 7, 1744–1753 (2008)
lowsnr.org, Link Budget Android app (n.d.), https://lowsnrblog.blogspot.com/2017/11/app-and-applet-for-rf-link-budgets.html
W. Mitchell, Rain Fade compensation for Ka-Band communications satellites, Tech. Rep. CR-97-206591, NASA, 1997
NASA, State of the Art of Small Spacecraft Technology (n.d.), Available at https://sst-soa.arc.nasa.gov/
NASA/JPL, RainCube Antenna: Ground Test Deployment (n.d.), https://www.youtube.com/watch?v=5rCXOOGsfDY
E.A. Park, D. Cornwell, D. Israel, NASA’s next generation 100 Gbps optical communications relay, in 2019 IEEE Aerospace Conference, (2019), pp. 1–9
A.B. Rohwer, D.H. Desrosiers, W. Bach, H. Estavillo, P. Makridakis, R. Hrusovsky, Iridium Main Mission antennas a phased array success story and mission update, in 2010 IEEE International Symposium on Phased Array Systems and Technology, (2010), pp. 504–511
J.J. Scozzafava, D.M. Boroson, J.W. Burnside, M.L. Glynn, C.E. DeVoe, C.M. DeFranzo, K.B. Doyle, Design of a very small inertially stabilized optical space terminal, in Proc. SPIE, vol. 6709, (2007)
SWIFT-KTX, Tethers Unlimited Data Sheet (n.d.), http://www.tethers.com/SWIFT.html
S. Todd et al., Optical communications downlink from a 1.5U cubesat: OCSD program (conference presentation), in SSC18-XI-10, vol. 10910, (2019)
Turbo and LDPC Codec Designs. Small World Communications (n.d.), https://www.sworld.com.au/products/index.html
P. Warren, J. Steinbeck, R. Menelli, C. Mueller, Large, deployable S-band antenna for a 6U Cubesat, in Proceedings of the Small Satellite Conference, SSC15-VI-5, (2015)
M.S. Weatherwax, K.B. Doyle, Vibration analysis and testing for the LLST optical module, in SPIE, vol. 9192, (2014)
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Cowley, W.G. (2020). RF and Optical Communications for Small Satellites. In: Pelton, J.N., Madry, S. (eds) Handbook of Small Satellites. Springer, Cham. https://doi.org/10.1007/978-3-030-36308-6_88
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DOI: https://doi.org/10.1007/978-3-030-36308-6_88
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