3GPP TS 36.212, "Multiplexing and channel coding"
3GPP TS 36.212, "Multiplexing and channel coding"
3GPP TS 36.212, "Multiplexing and channel coding"
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Release 8<br />
28<br />
<strong>3GPP</strong> <strong>TS</strong> <strong>36.212</strong> V8.1.0 (2007-11)<br />
UL control<br />
symb =<br />
Table 5.2.2.7-14: Values of n i for N 8 , extended CP subframes<br />
with SRS in the last symbol<br />
[( 4R mux )/<br />
Qm<br />
] mod 4<br />
0 0 ( R )/<br />
4<br />
Q − n 0 n 1 n 2 n 3 n 4<br />
Q − 4 mux<br />
Rmux<br />
1 0<br />
m ⎡( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 4 Rmux<br />
⎤<br />
R mux ( Q − 4R<br />
mux )/<br />
4<br />
R mux Qm<br />
( Q − 4Rmux<br />
)/<br />
Qm<br />
⎣( )<br />
/<br />
4⎦<br />
2 0<br />
m ⎡( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 4 Rmux<br />
3 0<br />
m ⎡( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 4 Rmux<br />
⎤<br />
⎤<br />
⎣( )<br />
R mux Qm<br />
( Q − 4Rmux<br />
)/<br />
Qm<br />
⎡( )<br />
R mux Qm<br />
( Q − 4Rmux<br />
)/<br />
Qm<br />
/<br />
/<br />
4⎦<br />
4⎤<br />
[( 4R mux )/<br />
Qm<br />
] mod 4<br />
0 ( Q − R )/<br />
4<br />
( R )/<br />
4<br />
Q − n 5 n 6 n 7 n 8<br />
4 mux<br />
Q − 4 mux<br />
Rmux<br />
1 Qm<br />
⎣( ( Q − 4Rmux<br />
)/<br />
Qm<br />
)/<br />
4⎦<br />
m ⎣( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 4 Rmux<br />
⎦<br />
R mux<br />
R mux<br />
2 Qm<br />
⎡( ( Q − 4Rmux<br />
)/<br />
Qm<br />
)/<br />
4⎤<br />
m ⎣( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 4 Rmux<br />
3 Qm<br />
⎡( ( Q − 4Rmux<br />
)/<br />
Qm<br />
)/<br />
4⎤<br />
m ⎣( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 4 Rmux<br />
⎦<br />
⎦<br />
R mux<br />
R mux<br />
UL control<br />
symb =<br />
Table 5.2.2.7-15: Values of n i for N 8 , extended CP subframes<br />
[( 4R mux )/<br />
Qm<br />
] mod 4<br />
0 ( R )/<br />
4<br />
with SRS in the first symbol<br />
Q − n 0 n 1 n 2 n 3<br />
Q − 4 mux<br />
Rmux<br />
1<br />
m ⎡( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
2<br />
m ⎡( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
3<br />
m ⎡( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 4 Rmux<br />
Q − / 4 Rmux<br />
Q − / 4 Rmux<br />
[( 4R mux )/<br />
Qm<br />
] mod 4<br />
0 0 ( R )/<br />
4<br />
⎤<br />
⎤<br />
⎤<br />
R mux ( Q − 4R<br />
mux )/<br />
4<br />
R mux Qm<br />
( Q − 4Rmux<br />
)/<br />
Qm<br />
⎣( )<br />
R mux Qm<br />
⎣( ( Q − 4Rmux<br />
)/<br />
Qm<br />
)<br />
R mux Qm<br />
⎡( ( Q − 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − n 4 n 5 n 6 n 7 n 8<br />
Q − 4 mux<br />
Rmux<br />
1 0<br />
m ⎣( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
2 0<br />
m ⎡( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
3 0<br />
m ⎡( ( Q 4Rmux<br />
)/<br />
Qm<br />
)<br />
Q − / 4 Rmux<br />
Q − / 4 Rmux<br />
Q − / 4 Rmux<br />
⎦<br />
⎤<br />
⎤<br />
R mux ( Q − 4R<br />
mux )/<br />
4<br />
R mux Qm<br />
( Q − 4Rmux<br />
)/<br />
Qm<br />
⎣( )<br />
R mux Qm<br />
⎣( ( Q − 4Rmux<br />
)/<br />
Qm<br />
)<br />
R mux Qm<br />
⎣( ( Q − 4Rmux<br />
)/<br />
Qm<br />
)<br />
/<br />
/<br />
/<br />
/<br />
/<br />
/<br />
4⎦<br />
4⎦<br />
4⎤<br />
4⎦<br />
4⎦<br />
4⎦<br />
<strong>3GPP</strong>