Broadcast channel decoding
trblk, of the decoded information bits
cellrefp is the number of cell-specific
reference signal antenna ports detected in the CRC mask for given
softbits, and the structure,
This function performs the inverse of the Broadcast Channel (BCH)
processing described in TS 36.212 , Section 5.3.1.
Perform BCH coding of one transport block, and BCH decoding of part (one quarter) of the encoded block. In a practical system, this approach would be used to attempt BCH decoding on the one quarter part of the encoded block that is transmitted in the first subframe of each frame.
Create cell-wide configuration structure, initialized to RMC R.4. Perform BCH coding of one transport block.
enb = lteRMCDL('R.4'); bchCoded = lteBCH(enb,ones(24,1));
Perform BCH decoding of one quarter of the transport block.
out = bchCoded(1:length(bchCoded)/4); [bchDecoded,cellRefP] = lteBCHDecode(enb,out); bchDecoded(1:10)
ans = 10x1 int8 column vector 1 1 1 1 1 1 1 1 1 1
enb— eNodeB cell-wide settings
eNodeB cell-wide settings, specified as a structure containing these parameter fields.
|Parameter Field||Required or Optional||Values||Description|
Cyclic prefix length
softbits— Soft bits to decode
Soft bits to decode, specified as a numeric vector. This vector can have any length.
The transport block size, 24, is relatively small when compared to the number of coded bits
sent in the BCH transmission, 1920 or 1728. For this reason, the rate
matching internal to the BCH coding results in many repetitions of the coded
block. This decoder allows the input argument
to be of any length because successful decoding of coded BCH blocks is often
possible using a fraction of the full coded block length.
trblk— Decoded information bits
Decoded information bits, returned as an integer-valued column vector of length 24.
cellrefp— Number of CRS antenna ports
Number of cell-specific reference signal (CRS) antenna ports detected,
4. A value of
0 indicates that the function detects a cyclic
redundancy check (CRC) error during the decoding process.
 3GPP TS 36.212. “Evolved Universal Terrestrial Radio Access (E-UTRA); Multiplexing and channel coding.” 3rd Generation Partnership Project; Technical Specification Group Radio Access Network. URL: https://www.3gpp.org.