Interference suppression method of physical upstream control channel (PUCCH) in LTE (Long Term Evolution) system
A physical uplink and control channel technology, applied in the field of communication, can solve the problems that cannot be solved, reduce the utilization rate of system resources, reduce the utilization rate of spectrum, etc., and achieve the effect of eliminating inter-cell interference and improving the utilization rate of system resources
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example 1
[0083] Example 1 corresponds to the above-mentioned multiplexing scheme 1: Assume that in the simplified implementation environment, according to the plan, RB0 will be allocated in the macro base station for the PUCCH of format 2, and RB1, RB48, and RB49 will be allocated for the PUCCH of format 1, and pre- 30 cs values are reserved for the format 1 transmission of the home base station, and 6 cs values are used for the format 2 transmission of the home base station, and the following steps must be followed:
[0084] 1. According to the network planning, configure the PUCCH of the macro base station:
[0085] 1.1. Among the total 50 RBs, the macro base station allocates 4 RBs for the PUCCH, wherein RB0 is used for the format 2 control channel, and RB1, RB48, and RB49 are used for the format 1 control channel.
[0086] 1.2, RB0 has a total of 12 format two channels 6 are reserved for home base stations (such as ).
[0087] 1.3. RB1, RB48, and RB49 have a total of 108 for...
example 2
[0095] Example 2 corresponds to the description of the above multiplexing scheme 2: Assume that in the simplified implementation environment, according to the plan, RB0 will be allocated in the macro base station for the PUCCH of format 2, and RB1, RB48, and RB49 will be allocated for the PUCCH of format 1. Reserve 40 cs values for the format 1 transmission of the femto base station (the reserved femto base station resources can be allocated across RBs), and 6 cs values for the format 2 transmission of the femto base station, the following steps must be followed :
[0096] 1. According to the network planning, configure the PUCCH of the macro base station:
[0097] 1.1. Among the total 50 RBs, the macro base station allocates 4 RBs for the PUCCH, wherein RB0 is used for the format 2 control channel, and RB1, RB48, and RB49 are used for the format 1 control channel.
[0098] 1.2, RB0 has a total of 12 format two channels 6 are reserved for home base stations (such as )...
example 3
[0106] Example 3 corresponds to the above-mentioned multiplexing scheme three: assuming that the multiplexing scheme three is further implemented on the basis of example 1, the distribution result of this embodiment 3 is as follows Figure 8 and 9 shown. That is, on the basis of the allocation in Example 1, RB2 and RB47 are added for the PUCCH of the home base station.
[0107] Step 205: Perform an initialization operation on the HNB, including detecting adjacent cells, and establishing a communication connection with the macro BS.
[0108] Step 206: The macro base station configures the HNB accordingly.
[0109] Specifically, the macro base station multiplexes the CAZAC base sequence with the home base station according to the scheme selected in step 202 . If in step 202, the first method of regularly allocating PCIs of HNBs is selected to reuse the CAZAC base sequence, the macro base station needs to allocate PCIs for HNBs in this step to configure the HNBs.
[0110] Acc...
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