3GPP TS 36.212, "Multiplexing and channel coding"
3GPP TS 36.212, "Multiplexing and channel coding"
3GPP TS 36.212, "Multiplexing and channel coding"
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
Release 8<br />
26<br />
<strong>3GPP</strong> <strong>TS</strong> <strong>36.212</strong> V8.1.0 (2007-11)<br />
UL control<br />
symb<br />
PUSCH<br />
symb<br />
Table 5.2.2.7-8: Values of n i for N = N , normal CP subframes with SRS in the last symbol<br />
[( 8R mux )/<br />
Qm<br />
] mod 3<br />
0 ( R )/<br />
3<br />
Q − n 0 n 1 n 2 N 3 n 4 n 5<br />
Q − 8 mux<br />
Rmux<br />
1<br />
m ⎡( ( Q 8Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 3 Rmux<br />
⎤<br />
Rmux<br />
Rmux<br />
Rmux<br />
Rmux<br />
R mux ( Q − 8R<br />
mux )/<br />
3<br />
R mux Qm<br />
( Q − 8Rmux<br />
)/<br />
Qm<br />
⎣( )<br />
/<br />
3⎦<br />
2<br />
m ⎡( ( Q 8Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 3 Rmux<br />
⎤<br />
Rmux<br />
Rmux<br />
⎣( )<br />
R mux Qm<br />
( Q − 8Rmux<br />
)/<br />
Qm<br />
/<br />
3⎦<br />
[( 8R mux )/<br />
Qm<br />
] mod 3<br />
0 ( R )/<br />
3<br />
Q − n 6 n 7 n 8 N 9 n 10<br />
Q − 8 mux<br />
Rmux<br />
1<br />
m ⎣( ( Q 8Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 3 Rmux<br />
⎦<br />
Rmux<br />
Rmux<br />
Rmux<br />
Rmux<br />
R mux<br />
R mux<br />
2<br />
m ⎡( ( Q 8Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 3 Rmux<br />
⎤<br />
Rmux<br />
Rmux<br />
R mux<br />
UL control<br />
symb<br />
PUSCH<br />
symb<br />
Table 5.2.2.7-9: Values of n i for N = N , normal CP subframes with SRS in the first symbol<br />
[( R mux )/<br />
Q ] mod 3<br />
Q − n 0 n 1 n 2 n 3 n 4<br />
8 m<br />
0 Rmux<br />
1 Rmux<br />
Rmux<br />
Rmux<br />
Rmux<br />
Rmux<br />
R mux ( Q − 8R<br />
mux )/<br />
3<br />
R mux Qm<br />
( Q − 8Rmux<br />
)/<br />
Qm<br />
⎡( )<br />
/<br />
3⎤<br />
2 Rmux<br />
Rmux<br />
Rmux<br />
⎡( )<br />
R mux Qm<br />
( Q − 8Rmux<br />
)/<br />
Qm<br />
/<br />
3⎤<br />
[( 8R mux )/<br />
Qm<br />
] mod 3<br />
0 ( R )/<br />
3<br />
Q − n 5 n 6 n 7 n 8 n 9 n 10<br />
Q − 8 mux<br />
Rmux<br />
1<br />
m ⎣( ( Q 8Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 3 Rmux<br />
⎦<br />
Rmux<br />
Rmux<br />
Rmux<br />
Rmux<br />
R mux ( Q − 8R<br />
mux )/<br />
3<br />
R mux Qm<br />
( Q − 8Rmux<br />
)/<br />
Qm<br />
⎣( )<br />
/<br />
3⎦<br />
2<br />
m ⎡( ( Q 8Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 3 Rmux<br />
⎤<br />
Rmux<br />
Rmux<br />
⎣( )<br />
R mux Qm<br />
( Q − 8Rmux<br />
)/<br />
Qm<br />
/<br />
3⎦<br />
The number of coded bits for control to be mapped to each SC-FDMA symbol carrying PUSCH for subframes with<br />
extended CP is as specified in Tables 5.2.2.7-10 through 5.2.2.7-18.<br />
UL control<br />
symb =<br />
Table 5.2.2.7-10: Values of n i for N 4 , extended CP subframes with no SRS<br />
Q ' mod 4 n 0 n 1 n 2 n 3 n 4 n 5 n 6 n 7 n 8 n 9<br />
0 0 0 Q / 4 Q / 4 0 0 0 Q / 4 Q / 4 0<br />
1 0 0 Q m ⎡Q'<br />
/ 4⎤<br />
Q m ⎣Q'<br />
/ 4⎦<br />
0 0 0 Q m ⎣Q'<br />
/ 4⎦<br />
Q m ⎣Q'<br />
/ 4⎦<br />
0<br />
2 0 0 Q m ⎡Q'<br />
/ 4⎤<br />
Q m ⎣Q'<br />
/ 4⎦<br />
0 0 0 Q m ⎡Q'<br />
/ 4⎤<br />
Q m ⎣Q'<br />
/ 4⎦<br />
0<br />
Q' / 4 Q' / 4<br />
Q' / 4 Q m Q' / 4 0<br />
3 0 0 Q m ⎡ ⎤ Q m ⎡ ⎤ 0 0 0 Q m ⎡ ⎤ ⎣ ⎦<br />
<strong>3GPP</strong>
Change language