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  • Baldi, Marco (2)
  • Bertinelli, Massimo (2)
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NEXCODE: Next Generation Uplink Coding Techniques (2016)
Baldi, Marco ; Bertinelli, Massimo ; Chiaraluce, Franco ; Closas, Pau ; Garello, Roberto ; Maturo, Nicola ; Navarro, Mònica ; Palomo, Jose Maria ; Paolini, Enrico ; Pfletschinger, Stephan ; Silva, Pedro Freire ; Simone, Lorenzo ; Vilà-Valls, Jordi
State-of-the-Art Space Mission Telecommand Receivers (2017)
Baldi, Marco ; Bertinelli, Massimo ; Chiaraluce, Franco ; Closas, Pau ; Dhakal, Pawan ; Garello, Roberto ; Maturo, Nicola ; Navarro, Mònica ; Palomo, Jose Maria ; Paolini, Enrico ; Pfletschinger, Stephan ; Silva, Pedro Freire ; Simone, Lorenzo ; Vilà-Valls, Jordi
Since their dawning, space communications have been among the strongest driving applications for the development of error correcting codes. Indeed, space-to-Earth telemetry (TM) links have extensively exploited advanced coding schemes, from convolutional codes to Reed-Solomon codes (also in concatenated form) and, more recently, from turbo codes to low-density parity-check (LDPC) codes. The efficiency of these schemes has been extensively proved in several papers and reports. The situation is a bit different for Earth-to-space telecommand (TC) links. Space TCs must reliably convey control information as well as software patches from Earth control centers to scientific payload instruments and engineering equipment onboard (O/B) spacecraft. The success of a mission may be compromised because of an error corrupting a TC message: a detected error causing no execution or, even worse, an undetected error causing a wrong execution. This imposes strict constraints on the maximum acceptable detected and undetected error rates.
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