Version 11 - History - IV - Extra - 2015 Erasure codes for Cubesat missions

IV - Extra » History » Version 11

COLIN, Tony, 12/16/2015 03:07 PM

-COLIN, Tony
+h1. IV - Extra
 COLIN, Tony
-COLIN, Tony
+{{>toc}}
 COLIN, Tony
-COLIN, Tony
+h2. 1. CubeSat performances.
 COLIN, Tony
-COLIN, Tony
+h3. 1.1 Measurement of encoding/decoding time.
 COLIN, Tony
-COLIN, Tony
+h4. 1.1.1 In simulation.
 COLIN, Tony
-COLIN, Tony
+POSIX requires that CLOCKS_PER_SEC equals 1000000 independent of the actual resolution.
 COLIN, Tony
-COLIN, Tony
+p=. !Clock1.png!
-COLIN, Tony
+*1000 ticks per milliseconds*
 COLIN, Tony
-COLIN, Tony
+p=. !Clock2.png!
-COLIN, Tony
+*Time measurement of data encoding*
 COLIN, Tony
-COLIN, Tony
+p=. !Clock3.png!
-COLIN, Tony
+*Printing clock data*
 COLIN, Tony
-COLIN, Tony
+p=. !Time_RS_resized.PNG!
-COLIN, Tony
+*Chart of Reed Solomon time measurement*
 COLIN, Tony
-COLIN, Tony
+h4. 1.1.2 With Floating-Point OPeration (FLOP)
 COLIN, Tony
-COLIN, Tony
+p=. !FLOPs2.png!
 COLIN, Tony
 COLIN, Tony
-COLIN, Tony
+Hence, encoding stands for *O(nbytes x NPAR)* with _nbytes_ is the codeword length, _NPAR_ the number of parity bits.
-COLIN, Tony
+Since it is a systematic code _nbytes = information_word_length + NPAR_ encoding stands for *O(information_word_length)* with NPAR constant.
 COLIN, Tony
-COLIN, Tony
+Note that a more accurate way would be to consider processor speed and Salvo function OSGetTiks :
-COLIN, Tony
+p=. !OSGetTiks.PNG!
 COLIN, Tony
-COLIN, Tony
+h3. 1.2 Busy memory on CubeSat.
 COLIN, Tony
-COLIN, Tony
+p=. !Memory.png!
 COLIN, Tony
-COLIN, Tony
+---
 COLIN, Tony
-COLIN, Tony
+h2. 2. Current topics.
 COLIN, Tony
-COLIN, Tony
+For the purpose of reliability for Land Mobile Satellite (LMS) channel, a solution is discussed about error correcting code on the Transport layer [1]. Regarding new trends of erasure codes related to satellites [2], an efficient way to perform encoding over LMS channel is to consider _Non-Binary codes_ such as Reed-Solomon code (studied in [[III - Advanced Project]] chapter) or Non-Binary LDPC code (which is highly complex to implement). The Non-Binary characteristic would be to consider a whole packet or a sliced packet as a symbol in order to decrease the error probability of packets.
-COLIN, Tony
+A possible continuity to this project could be to integrate the OpenFEC code available on "OpenFEC - Downloads":http://openfec.org/downloads.html in the CubeSat Kit. This would be easily done by following chapter [[II - Tutorial - Simple project on CubeSat Kit|II - Tutorial]] and [[III - Advanced Project|III - Advanced Project]] that could be a integration pattern for any CubeSat project.
 COLIN, Tony
-COLIN, Tony
+Research papers proposed on IEEE Website :
-COLIN, Tony
+[1] "Transport layer coding for the land mobile satellite channel":http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=1391458&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D1391458
-COLIN, Tony
+[2] "Erasure Codes for Space Communications: Recent Findings and New Challenges":http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=6333092&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D6333092
 COLIN, Tony
-COLIN, Tony
+---

SOURCEFORGE » RALF » 2015 Erasure codes for Cubesat missions

IV - Extra » History » Version 11