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Bibliography

1. Books

1. Ackerman, S.A., Knox, J.A.: Meteorology – Understanding the Atmosphere. Jones & Bartlett Learning, Burlington (2015) 2. Aragon-Zavala, A., et al.: High-Altitude Platforms for Wireless Communications. Wiley, Chichester (2008) 3. Asrar, G.R., Hurrell, J.W.: Climate Science for Serving Society. Springer, Dordrecht (2013) 4. Bajorski, P.: Statistics for Imaging, Optics and Photonics. Springer, Boston (2011) 5. Berlin, P.: Geostationary Applications Satellite. Cambridge University Press, Cambridge, UK (1988) 6. Blonstein, L.: Communications Satellites, The Technology of Space Communications. Heinemann, London (1987) 7. Bowman, K., Yang, P.: Satellite Meteorology and Atmospheric Remote Sensing – An Introduction. Wiley, Chichester (2009) 8. Buglia, J.: Introduction to the Theory of Atmospheric Radiative Transfe. Langley Research Center, Hampton (1986) 9. Calcutt, D., Tetley, L.: Satellite Communications, Principles and Applications. Elsevier, Oxford (2004) 11. Chen, H.S.: Space Remote Sensing Systems. Academic, Washington, DC (2014) 12. Chuvieco, E., Huete, A.: Fundamentals of Satellite Remote Sensing. CRC Press – Taylor & Francis Publishers, Boca Raton (2009) 13. Conway, E.D.: An Introduction to Satellite Image Interpretation. Johns Hopkins University Press, Baltimore (1997) 14. Dalgleish, D.I.: An Introduction to Satellite Communications. IEE, Peter Peregrinus, London (1989) 15. Denegre, J.: Thematic Mapping from Satellite Imagery – An International Report. Pergamon Press, Oxford, UK (2013) 16. Dobrzykowski, S.: Advanced Topics in Satellite Meteorology and Remote Sensing. CreateSpace Independent Publishing Platform, North Charleston (2015) 17. Elbert, B.R.: Ground Segment and Earth Station Handbook. Artech House, Boston/London (2001) 18. Evans, B.G.: Satellite Communication Systems. IEE, Peter Peregrinus, London (1991) 19. Everett, J.: VSAT- Very Small Aperture Terminals. IEE, Peter Peregrinus, London (1992)

© Springer International Publishing AG 2018 535 S.D. Ilcˇev, Global Satellite Meteorological Observation (GSMO) Theory, DOI 10.1007/978-3-319-67119-2 536 Bibliography

20. Feher, K.: Digital Communications, Satellite Earth Station Engineering. Prentice-Hall, Englewood Cliffs (1983) 21. Ferretti, A.: Satellite InSAR Data – Reservoir Monitoring from Space. EAGE Publishers, Houten (2014) 22. Fujimoto, K.: Mobile Antenna Systems Handbook. Artech House, London (2008) 23. Gagliardi, R.M.: Satellite Communications. Van Nostrand Reinhold, New York (1984) 24. Galic, R.: Telekomunikacije satelitima. Skolska knjiga, Zagreb (1983) 25. Georgiev, C., Santurette, P.: Weather Analysis and Forecasting – Applying Satellite Water Vapor Imagery and Potential Vorticity Analysis. Academic, Washington, DC (2016) 26. Ghasemi, A., et al.: Propagation Engineering in Wireless Communications. Springer, Boston (2016) 27. Gordon, G.D., et al.: Principles of Communications Satellites. Wiley, Chichester (1993) 28. Grace, D., Mohorcic, M.: Broadband Communications via High-Altitude Platforms. Wiley, Chichester (2011) 29. Group of Authors: Earth Observations from Space: The First 50 Years of Scientific Achieve- ments. National Academic Press, Washington, DC (2008) 30. Group of Authors: Handbook on Satellite Communications. ITU, Geneva (2002) 31. Group of Authors: Radiowave Propagation Information for Predictions for Earth-to-space Path Communications – Handbook. Radiocommunication Bureau, ITU, Geneva (1996) 32. Group of Authors: Use of Radio Spectrum for Weather, Water and Climate Monitoring and Prediction. ITU, Geneva (2008) 33. Haan, S.: Meteorological Applications of a Surface Network of GPS Receivers. Universiteit Utrecht, Utrecht (2008) 34. Handlemann, E., Whitcomb, J.: NPOESS Activity Book. NASA, Washington, DC (2007) 35. Heng, O.: An Introduction to Contemporary Remote Sensing. McGraw-Hill, New York (2012) 36. Hou, A.Y., et al.: The Global Precipitation Measurement Mission. American Meteorological Society, Boston (2014) 37. Hutchison, K.D., Cracknell, A.P.: Visible Infrared Imager Radiometer Suite – A New Operational Cloud Imager. CRC Press, Boca Raton (2005) 38. Huurdeman, A.A.: Guide to Telecommunications Transmission Systems. Artech House, New York/Boston/London (1997) 39. Ilcev, D.S.: Global Aeronautical Communications, Navigation and Surveillance (CNS). Theory, vol. 1. AIAA, Reston (2013) 40. Ilcev, D.S.: Global Aeronautical Communications, Navigation and Surveillance (CNS). Applications, vol. 2. AIAA, Reston (2013) 41. Ilcev, D.S.: Global Mobile Satellite Communications for Maritime, Land and Aeronautical Applications. Springer, Boston (2005) 42. Ilcev, D.S.: Global Mobile Satellite Communications for Maritime, Land and Aeronautical Applications. Theory, vol. 1. Springer, Boston (2016) 43. Ilcev, D.S.: Global Mobile Satellite Communications for Maritime, Land and Aeronautical Applications, vol. 2. Springer, Boston (2017) 44. Jorge, F., Carrasco, J.F., et al.: Satellite and Automatic Weather Station Analyses of Kata- batic Surges Across the Ross Ice Shelf. Wiley, Chichester (2013) 45. Kadish, J.E., et al.: Satellite Communications Fundamentals. Artech House, Boston/London (2000) 46. Kantor, L.Y., et al.: Sputnikovaya svyaz i problema geostacionarnoy orbiti. Radio i svyaz, Moskva, USSR, Moscow (1988) 47. Karthik, N.T., Minden, G.: Earth Observation System Satellite Communication Characteris- tics. NASA, Lawrence (2002) 48. Kelkar, R.R.: Satellite Meteorology. BS Publications, Hyderabad (2007) 49. Kidder, S.Q., Ham, T.C.: Satellite Meteorology – An Introduction. Academic, Sand Diego (1995) Bibliography 537

50. Kramer, H.J.: Observation of the Earth and Its Environment: Survey of Missions and Sensors. Springer, Boston (2002) 51. Lasaponara, R., Masini, N.: Remote Sensing and Digital Image Processing. Springer, Boston/New York (2012) 52. Liu, G.: Satellite Meteorology. Department of Meteorology, Florida State University, Talla- hassee (2005) 53. Liu, J.G., Mason, P.J.: Image Processing and GIS for Remote Sensing – Techniques and Applications. Wiley, Chichester (2016) 54. Levis, C., et al.: Radiowave Propagation – Physics and Applications. Wiley, Chichester (2010) 55. Lubin, D., Massom, R.: Polar Remote Sensing – Atmosphere and Oceans, vol. I. Springer, Boston (2006) 56. Lubin, D., Massom, R.: Polar Remote Sensing – Ice Sheets, vol. II. Springer, Boston (2006) 57. Maini, A.K., Agrawal, V.: Satellite Technology – Principles and Applications. Wiley, Chichester (2007) 58. Maral, G., et al.: Satellite Communications Systems. Wiley, Chichester (2009) 25. Menzel, P.: Remote Sensing with Meteorological Satellites. University of Wisconsin Aca- demic Press, Medison (2012) 59. Milligan, T.: Modern Antenna Design. Wiley, Chichester (2005) 60. Modest, M.F.: Radiative Heat Transfer. Academic, Washington, DC (2003) 61. Njoku, E.G.: Encyclopedia of Remote Sensing Earth Sciences Series. Springer, New York (2000) 62. Ohmori, S., et al.: Mobile Satellite Communications. Artech House, Boston/London (1998) 63. Ohring, G.: Achieving Satellite Instrument Calibration for Climate Change (ASIC3). Work- shop Report, NOAA, Virginia (2007) 64. Paine, D.P., Kiser, J.D.: Aerial Photography and Image Interpretation. Wiley, Chichester (2012) 65. Pascall, S.P., et al.: Commercial Satellite Communications. Focal Press, Oxford (1997) 66. Passow, M.J., Kiehl: Heating the Atmosphere. Presentation, Dwight Morrow High School, Lamont-Doherty Earth Observatory, Englewood (2010) 67. Pelton, E., et al.: Handbook of Satellite Applications. Springer, Boston (2017) 68. Pidwirny, M., Jones, S.: The Fundamentals of Physical Geography. University of British Columbia Okanagan, Kelowna (2006) 69. Pidwirny, M.: Understanding Physical Geography. Our Planet Earth Publishing, Kelowna (2015) 70. Pratt, T., et al.: Satellite Communications. Wiley, Hoboken (2002) 71. Qu, J.J., et al.: Satellite-Based Applications on Climate Change. Springer, Boston (2015) 72. Raizer, V.: Advances in Passive Microwave Remote Sensing of Oceans. CRC Press – Taylor & Francis Publishers, Boca Raton (2017) 73. Rao, P.K., et al.: Weather satellites: Systems, Data and Environmental Applications. Amer- ican Meteorological Society, Boston (1990) 74. Raghavan, S.: Radar Meteorology. Springer, Boston (2003) 75. Rees, G.: The Remote Sensing Data Book. Cambridge University Press, Cambridge, UK (1990) 76. Richards, J.A.: Remote Sensing with Imaging Radar. Springer, Boston (2009) 77. Richharia, M.: Satellite Communications System – Design principles. Macmillan, Basingstoke (1995) 78. Robinson, P.J., Henderson-Sellers, A.: Contemporary Climatology. Eoutledge, London (1999) 79. Roddy, D.: Satellite Communications. McGraw Hill, New York (2006) 80. Schott, J.R.: Remote Sensing. Oxford University Press, Oxford (1997) 81. Shang, L.D., Gong, J.: Geospatial Technology for Earth Observation. Springer, Boston (2009) 538 Bibliography

82. Sheriff, R.E., et al.: Mobile Satellite Communication Networks. Wiley, Chichester (2001) 83. Solimini, D.: Understanding Earth Observation: The Electromagnetic Foundation of Remote Sensing. Springer, Boston (2016) 84. Solovev, V.I., et al.: Svyaz na more. Sudostroenie, Leningrad (1978) 85. Sportisse, B.: Fundamentals in Air Pollution – From Processes to Modelling. Springer, Dordrecht (2008) 86. Stacey, D.: Aeronautical Radio Communication Systems and Networks. Wiley, Chichester (2008) 87. Tan, S.Y.: Meteorological Satellite Systems. Springer, New York (2014) 88. Tetley, L., et al.: Electronic aids to navigation – Position fixing. Edward Arnold, London (1991) 89. Ulaby, E.T., et al.: Microwave Radar and Radiometric Remote Sensing. NASA, California Institute of Technology (CIT), Pasadena (2014) 90. Vaughan, R.A.: Remote Sensing Applications in Meteorology and Climatology. Springer, Boston (2012) 91. Wallace, J., Hobbs, P.: Atmospheric Science – An Introductory Survey. Academic, Washington, DC (2006) 92. Wang, W.-Q.: Near-Space Remote Sensing. Springer, New York (2011) 93. Wendisch, M., Yang, P.: Theory of Atmospheric Radiative Transfer. Wiley, Chichester (2012) 94. Wertz, J.R.: Attitude Determination and Control. Springer, Boston (2002) 95. Zhilin, V.A.: Mezhdunarodnaya sputnikova sistema morskoy svyazi – Inmarsat. Sudostroenie, Leningrad, USSR (1988)

2. Papers

1. Antonini, M., et al.: Stratospheric Relay: Potentialities of New Satellite-high Altitude Plat- forms Integrated Scenarios. IEEEAC, Montana, USA (2003) 2. Benesch, W.: 60 Years Operational Satellites up to 2030. Deutscher Wetterdienst, Offenbach am Main (2010) 3. Blyenburgh Van, P.: UAV Systems: Global Review. Avionics 2006 Conference, 1–52, Amsterdam (2006) 4. Branski, F.: Pioneering the Collection and Exchange of Meteorological Data. WMO Bulletin, Geneva (2010) 5. Davis, G.: History of the NOAA Satellite Program. NOAA Satellite and Information, Silver Spring (2000) 6. Dong, C., et al.: An Overview of a New Chinese Weather Satellite FY-3A. American Meteo- rological Society, Boston (2009) 7. Faller, K.: MTSAT-1R: A Multifunctional Satellite for Japan and the Asia-Pacific Region. Proceedings of the 56th IAC 2005, Fukuoda (2005) 8. Gatenby, P.V., et al.: Optical intersatellite links. ECE J. 3(6). IEE, Stevenage (1991) 9. Group of Authors: Advanced VHF Ground Station for NOAA Weather Satellite APT Image Reception. Acta Technica Napocencis, Cluj-Napoca, Romania (2012) 10. Group of Authors: Airships. Keck Institute for Space Studies, Pasadena (2013) 11. Ilcev, D.S.: Satellite DVB-RCS standards for fixed and mobile commercial and military applications. Microwave J. Norwood (2009) 12. Ilcev, D.S.: Stratospheric Communication Platforms (SCP) as an alternative for space pro- gram. Aircraft Eng. Aerospace Technol. AEAT J. 83(2), 105–111 (2011) 13. Ilcev, D.S., Sibiya, S.S.: Weather observation via stratospheric platform stations. IST-Africa Conference, Lilongwe, Malawi, 2015 Bibliography 539

14. Ilchenko, M.E.: Application of high-altitude platform systems in regions of disaster and emergency. 14th International Crimean Conference on Microwave and Telecommunications Technology, Sevastopol, 2004. 15. Kamel, A.: Japanese Advanced Meteorological Imager (JAMI). Space Systems, Loral, Palo Alto (2003) 16. Kiehl, J., et al.: Earth’s Global Energy. National Center for Atmospheric Research, Boulder (2009) 17. Knapek, M., et al.: Optical High-Capacity Satellite Downlinks via High-Altitude Platform Relays. German Aerospace Center DLR, Wessling (2008) 18. Liew, S.C.: Radiative Transfer Equation. National University of Singapore (NUS), Centre for Remote Imaging, Sensing and Processing (CRISP), Singapore (2003) 19. Pace, P., et al.: An integrated satellite HAP-terrestrial system architecture: Resource allocation and traffic management issues. IEEE 59th Vehicular Technology Conference, 2004. 20. Pranajaya, F.M., et al.: Nanosatellite Tracking Ships. Space Flight Laboratory (SFL), Toronto (2011) 21. Uesawa, D.: Status of Japanese meteorological satellites and recent activities of MSC. Pro- ceedings of the 2006 Eumetsat Meteorological Satellite Conference, Helsinki, 2006 22. Zaharov, V., et al.: Smart antenna application for satellite communications with SDMA. J. Radio Electron. 2. Iztapalapa, Mexico (2001) 23. Widiawan A.K., et al.: Coexistence of high altitude platform station, satellite and terrestrial systems for fixed and mobile services. International Workshop on HAP Systems, Athens, 2005

3. Manuals

1. Asmus, V.V.: Status of current and planned Russian Meteorological Satellite Systems. SRC Planeta 2. Ayecka: Advanced DVB-S2 Receiver. Hod HaSharon (2015) 3. Evans, C.: Tiros-1/2 Ground Station. Camp Evans Project Diana Site, Wall (2010) 4. CHEOS: The Space Earth Observation of China. NSMC, CMA, Beijing (2012) 5. Colozza, A., Dolce, J.L.: High-Altitude, Long-Endurance Airships for Coastal Surveillance. NASA, Cleveland (2005) 6. Davis, G.: History of the NOAA Satellite Program, Silver Spring (2011) 7. Wind, D.: The History and Science of Hurricanes. Oxford University Press, Oxford, UK (2005) 8. Eumetsat: TD 18 Metop Direct Readout AHRPT Technical Description. Darmstadt (2013) 8. Eumetsat: An Introduction to EUMETSAT Polar System. Darmstadt (2010) 9. Eumetsat: A New Geostationary Meteorological Satellite System for the 21s t Century. Darm- stadt (2009) 10. Eumetsat: International Data Collection System User’s Guide. Darmstadt (2009) 11. Eumetsat: Meteosat Receiving Multi Satellite Data from the EUMETCast DVB-S2 Service. Darmstadt (2009) 12. Eumetsat: TD 16 – Meteosat Data Collection and Distribution Service. Darmstadt (2009) 13. Eumetsat: The Meteosat System – Satellite Ground Segment Mission – Global Coordination. Darmstadt (2000) 14. Festo, D.: Satellite Orbits, Coverage and Antenna Alignment. Quebec (2015) 15. GAO: Geostationary Weather Satellites. Government Accountability Office, Washington, DC (2013) 16. GSFC: GOES I-M Data Book. National Aeronautics and Space Administration, Greenbelt (1996) 17. GSFC: GOES-N Series Data Book. National Aeronautics and Space Administration, Greenbelt (2009) 540 Bibliography

18. Holm, T.: Landsat: Building a Future on 40 Years of Success. EROS Centre, Alameda (2013) 19. Ilcev, D.S.: Waether Observation via Stratospheric Platform Systems (SPS). Manual, SSC, DUT (2016) 20. Ilcev, D.S.: Global Mobile CNS. Manual, DUT (2011) 21. Ilcev, D.S.: Satellite Meteorological Observation System. Manual, DUT (2015) 22. Ilcev, D.S.: Space Meteorology. Manual, SSC, DUT (2017) 23. ISRO. INSAT 3-D Observing Weather from Space. ISRO, Bangalore (2014) 24. Jayaraman, V.: Oceansat-2. ISRO, Bangalore (2014) 25. JMA: MTSAT Multifunction Transport Satellite. Japan Meteorological Agency, Tokyo (2015) 26. ISRO: INSAT 3-D and Cartosat-1. NRSC, Bangalore (2015) 27. Jones, J.: GNSS and Weather Forecasting. Met Office, Potsdam (2013) 28. Kiesila¨inen, S.: Improving Data Collection and Management Process of Weather Observation. Master thesis, Helsinki Metropolia University of Applied Sciences, Helsinki (2011) 29. Kongsberg: MEOS 3.0 m to 5.0 m L/S/X-band Antenna. Tromso (2014) 30. Kongsberg: MEOS GEO DVB-A2 HimawariCast. Tromso (2015) 31. Kongsberg: MEOS PEO and GEO Geostationary Ground Station. Tromso (2015) 32. Krovotyntsev, V.: Perspectives of Development of the Russian Meteorological Satellite Constellation. Roshydromet, SRC Planeta, Moscow (2009) 33. Laing, A.: Introduction to Tropical Meteorology – Chapter 2: Remote Sensing. Pennsylvania State University, University Park (2011) 34. Malgorzata, V.W.: Data Acquisition and Integration in Remote Sensing. Oktatasi Hivatal, Budapest (2010) 35. McGinnis, F.D., Dries, M.: Meteorological Satellite Communications. NASA/Eumetsat, Washington, DC (2009) 36. Minihold, R., Dieter, B.D.: Introduction to Radar System and Component Tests. Rohde & Schwarz, München (2012) 37. NASA: Earth Observations from Space – The First 50 Years of Scientific Achievements. National Academies Press, Washington, DC (1991) 38. NOAA: Future of NOAA’s Direct Readout and Direct Broadcast Services. Washington, DC (2012) 39. NOAA: GOES-N/O/P The Next Generation. NESDIS, Suitland (2008) 40. NOAA: NOAA-N Satellite. Suitland (2004) 41. NOAA/NESDIS: Antenna and RF Systems Capabilities Handbook. Suitland (2008) 42. NOAA/NESDIS: User’s Guide for Building and Operating Environmental Satellite Receiving Stations. Suitland (2009) 43. Peet, M.M.: Spacecraft Dynamics and Control. Arizona State University, Tempe (2010) 44. Peitso, P.: Space Weather Instruments and Measurement Platforms. Master thesis, School of Electrical Engineering, University Finland, Espoo (2013) 45. Reckeweg, M., Rohner, C.: Antenna Basic. Rohde & Schwarz, München (2015) 46. : Main Components of Russian Electro GEO Satellite. Moscow (2015) 47. Roscosmos: Status of Current and Future Russian Satellite Systems. Roshydromet, Moscow (2010) 48. Roshydromet: High-elliptical Orbits Satellite System Arctica. SRC Planeta, Moscow (2014) 49. Roshydromet: Status of Current and Future Roshydromet Satellite Programmes. State Research Centre on Space Hydrometeorology “Planeta”, Moscow (2009) 50. Rublev, A.: Development and Application Perspectives of Space-Based Components in Roshydromet Observation Network. Roshydromet (State Research Centre PLANETA), Mos- cow (2014) 51. Schmetz, J.: An Introduction to Meteosat Second Generation (MSG). American Meteorolog- ical Society, Washington, DC (2002) 52. Schmid, J.: The SEVIRI Instrument. ESA/ESTEC, Noordwijk (2011) 53. Sea Launch: User’s Guide. Long Beach (1996) Bibliography 541

54. Sihle, S., Sibiya, S.S.: Integration of Satellite System and Stratospheric Communication Platforms (SCP) for Weather Observation. Doctoral thesis, Durban University of Technology (DUT), Durban (2016) 55. Salas, F.R., Maidment, D.R.: Worldwide Exchange of Water Data. Center for Research in Water Recourses, University of Texas, Austin (2014) 56. Singh, D.: Status Report on Current and Future Geostationary Indian Satellites. Satellite Meteorology, New Delhi (2014) 57. Tang, Y., et al.: FY-3A Meteorological Satellite and the Applications. CMA, Beijing (2014) 58. NOAA: User’s Guide for Building and Operating Environmental Satellite Receiving Stations. NESDIS, Suitland (2009) 59. Valero, D.S.: Rule-Based System Architecting of Earth Observation Satellite Systems. Doc- toral thesis, Massachusetts Institute of Technology (MIT), Cambridge (2012) 60. West, R.: Soil Moisture Active and Passive Mission (SMAP). NOAA, Washington, DC (2014) 61. WMO: Guide to the Observing System. World Meteorological Organization, Geneva (2013) 62. Xuebao, W.: Fengyun Bulletin. NSMC, CMA, Beijing (2010)

4. Brochures

1. Advantech: Discovery 300 Next Generation DVB-RCS VSAT Hub. Montreal (2015) 2. Advantech: Fixed, Mobile and Portable VSAT Units. Montreal (2012) 3. Advantech: Ground Satellite Antennas. Montreal (2006) 4. Advantech: Millennium Gen II Series High Capacity VSAT Hub. Montreal (2015) 5. Advantech: Theoretical Performance of DVB-S2 and DVB-S. Montreal (2009) 5. Advantech: Discovery 300 – Next Generation DVB-RCS VSAT Hub DVB-S2/S2X and DVB-RCS/2. Montreal (2008) 6. Advantech: ASAT II System Multiservice and Multi-Waveform VSAT Platform. Montreal (2010) 7. Advantech: VSAT DVB-RCS, DVBSCPC/RCS, DVB-S/DVB-S2 Terminals. Montreal (2010) 8. Adler, B.R., Huffman, G.: Global Precipitation Climatology Project. GSFC/NASA, Climate Guide, UCAR/NCAR, Boulder (2015) 9. Carana, S.: Arctic warming due to snow and ice demise – sea ice. Albedo Change http:// albedochange.blogspot.co.za/ (2014) 10. COMET: Satellite Monitoring. UCAR, Boulder. http://www.goes-r.gov/users/comet/volca nic_ash/tools/navmenu.php_tab_1_page_2.0.0.htm (2011) 11. Dartcom: GVAR System. Yelverton, Devon (2015) 12. Dartcom: HRPT/AHRPT System. Yelverton, Devon (2015) 13. Dartcom: HRPT, CHRPT and SeaWiFS System. Yelverton, Devon (2015) 14. Dartcom: LRIT/HRIT Multi Satellite System. Yelverton, Devon (2015) 15. Dartcom: LRIT/HRIT System C/Ku-Band Hardware. Yelverton, Devon (2015) 16. Dartcom: Polar Orbiter Ingester. Yelverton, Devon (2015) 17. Dartcom: X-Band EOS System. Yelverton, Devon (2015) 18. George, M., et al.: IASI – A Space Sounder for Atmospheric Composition Monitoring. LATMOS, Earthzine (2012) 19. Grayzeck, E.: ATS Spacecraft. NASA, Washington, DC. http://nssdc.gsfc.nasa.gov/nmc/ spacecraftSearch.do (2015) 20. Group of Authors: Eumetsat Satellites. Eumetsat, Darmstadt. http://www.eumetsat.int/ website/home/Satellites/index.html (2015) 21. GT&T: VSAT Equipment. Louvain-La-Neuve (2003) 22. Gunter’s Space Page: Intelsat-1, Internet. http://space.skyrocket.de/doc_sdat/intelsat-1.htm (2015) 542 Bibliography

23. Harris: GOES-R Rebroadcast (GRB) Access. Melbourne (2015) 24. Harris: GOES-R Rebroadcast (GRB) and GOES VARiable (GVAR) Service. Melbourne (2015) 25. Harris: IntelliEarth Global Weather Solutions. Melbourne (2015) 26. Harris: Weather Ground Processing. Melbourne (2015) 27. Harris: Web-based Access and Retrieval Portal (WARP). Melbourne (2015) 28. Heidorn, C.K.: TIROS-1: First Eye in the Sky. The Weather Doctor, San Clemente. http:// www.islandnet.com/~see/weather/almanac/arc2009/alm09sep.htm (2010) 29. Hughes: Hughes HX260 Mesh/Star Broadband Router. Germantown (2014) 30. Hughes: DVB-RCS C, Ku and Ka-band System. Germantown (2008) 31. Hughes: HUB HN System. Germantown (2012) 32. Jones, J.: GNSS and Weather Forecasting. Met Office, Potsdam (2013) 33. Launius, R.: The First Commercial Space Activity: Communication Satellites. Telstar-1, Internet. https://launiusr.wordpress.com/2014/06/13/the-first-commercial-space-activity-com munications-satellites/ (2014) 34. NASA: Helios Prototype Flying Wing. Washington DC. http://www.nasa.gov/centers/dryden/ multimedia/imagegallery/Helios/ED03-0152-60.html (2009) 35. NASA: History of the Blue Marble. Earth Observatory, Washington, DC. http://landsat.gsfc. nasa.gov/ (2014) 36. NASA: Landsat 4-8. NASA, Washington, DC. https://directory.eoportal.org/web/eoportal/ satellite-missions/l/landsat-4-5 (2014) 37. NASA: Nimbus-1 and Tiros-9 Images. NOAA, Washington, DC. http://history.nasa.gov/SP- 168/contents.htm (2014) 38. NSSDC: Spacecraft Catalog. NASA, Washington, DC. http://nssdc.gsfc.nasa.gov/nmc/ masterCatalog.do?sc (2015) 39. Orbit: Solutions of Meteorological Antenna Systems. Netanya (2014) 40. Orbit: System Layout of Orbit Technology Group Antenna. Netanya (2015) 41. Rohner, C.: Antenna Basic. Rohde & Schwarz, München 42. Rossow, B.W.: International Satellite Cloud Climatology Project. NASA, Washington, DC. http://isccp.giss.nasa.gov/about/ (2015) 43. Schmidt, K.: World’s First Weather Satellite Launched 50 Years Ago Today. Rockville (2010) 44. SCISYS: Adaptable Satellite Telemetry Receiver. Bochum (2014) 45. SCISYS: Data Acquisition Software for PEO/GEO Observation Missions. Bochum (2014) 46. SCISYS: DCP Direct Readout Ground Station. Bochum (2014) 47. SCISYS: DSR II Multi-mission Satellite Data Receiver. Bochum (2014) 48. SCISYS: EUMETCast/GEONETCast DVB User Station. Bochum (2014) 49. SCISYS: GMC User Station Monitoring and Control. Bochum (2014) 50. SCISYS: GOES and MTSAT LRIT/HRIT User Station. Bochum (2014) 51. SCISYS: High Performance L and X-Band Down-converter. Bochum (2014) 52. SCISYS: L and X-Band Ground Station PEO Direct Reception System. Bochum (2014) 53. SCISYS: PEO 2.4/2.8/3.0 X/Y Tracking Satellite Antennae. Bochum (2014) 54. SeaSpace: Ground GEO 3.7m Antenna. Poway 55. SeaSpace: Ground GOES-R Station. Poway 56. SeaSpace: Mobile LEO Satellite Direct Readout. Poway 57. SeaSpace: PEO 1.5m L-band Ground Station. Poway 58. SeaSpace: Shipboard Satellite Weather Receiving Antenna – 0.61m (L-band). Poway 59. SeaSpace: Shipboard Satellite Weather Receiving Antenna – 1.5m L/S-band. Poway 60. SeaSpace: Shipboard Satellite Weather Receiving Antenna – 2.4m X/L/S-Band. Poway 61. Solar Ship: Planeship UAV. SS, Toronto. http://www.wired.com/2011/10/its-a-bird-its-a- plane-its-a-solar-ship/ (2011) 62. SSEC: 40 Years of Geostationary Satellite Research and Observations’, Space Science and Engineering Center. Madison. http://cimss.ssec.wisc.edu/geo-40th/timeline.htm (2006) 63. TAO: TAO Stratospheric Platforms Project. Tokyo (2006) Bibliography 543

64. US: SumbandilaSat. University of Stellenbosch, Cape Town (2007) 65. Yulsman, T.: Historic First Weather Satellite Image. NASA, Washington, DC (2013) 66. Zak, A.: Kliper . Roscosmos. http://www.russianspaceweb.com/kliper_fuselage. html (2010)

5. Web Sites

1. Advantech Wireless: http://www.advantechwireless.com/ 2. ASTRIUM.: http://www.intelligence-airbusds.com/en/4446-oil-spill-detection and http:// apogeospatial.com/astrium-services/ 3. Campbell Scientific: https://s.campbellsci.com/documents/ca/product-brochures/tx320_br.pdf and https://www.campbellsci.com/tx320 4. China Meteorological Administration (CMA): http://www.cma.gov.cn/en2014/ 5. CNES.: https://cnes.fr/en 6. Comet: https://www.meted.ucar.edu/hydro/basic_int/flash_flood/navmenu.php?tab¼1& page¼4.2.0 and https://www.meted.ucar.edu/tropical/textbook/ch3/images/globalsys.jpg 7. Dartcom: www.dartcom.co.uk 8. DLR: http://www.dlr.de/caf/en/desktopdefault.aspx/tabid-6232/10272_read-23601/ 9. ESA: www.esa.int/ 10. ESA/KNMI: http://images.slideplayer.com/18/6130410/slides/slide_31.jpg 11. Eumetsat: https://www.eumetsat.int/ 12. Gloria: http://gloria.helmholtz.de/ 13. GOES: www.goes.noaa.gov 14. GT&T (GlobalTT): www.globaltt.com 15. Harris: www.harris.com 16. IEEE Official Event of IEEE VIS Data 2014: http://www.viscontest.rwth-aachen.de/data.html 17. INSAT.: www.isro.gov.in/spacecraft/communication-satellites 18. ISRO.: www.isro.gov.in/ 19. Japan Meteorological Agency (JMA): http://www.jma.go.jp/en/gms/ 20. Kliper Spaceplane: www.russianspaceweb.com/kliper.html 21. Kongsberg: www.kongsberg.com 22. LATMOS – IASI: A Space Sounder for Atmospheric Composition Monitoring: https:// earthzine.org/2012/10/24/iasi-a-space-sounder-for-atmospheric-composition-monitoring/ 23. MTSAT – Himawari-8/ Himawari-9: www.jma.go.jp/jma/jma-eng/satellite/ 24. NASA.: https://www.nasa.gov/ 25. NCAR.: https://www.rap.ucar.edu/~djohnson/satellite/geo_coverage2.html 26. NOAA.: www.noaa.gov 27. Orbit: http://orbit-cs.com/ 28. POES.: https://poes.gsfc.nasa.gov/ 30. Rohde & Schwarz: www.rohde-schwarz.com 31. Roshydromet: http://www.meteorf.ru 32. Roscosmos: http://en.roscosmos.ru/ 33. SeaSpace: www.seaspace.com 34. SCISYS.: www.scisys.de 35. Vaisala: http://www.vaisala.com/en/products/automaticweatherstations/Pages/default.aspx; www.vaisala.com and www.vaisala.com/requestinfo