A signal processing method, device and communication equipment
A technology of signal processing and communication equipment, applied in the field of communication, can solve the problem of excessive resource consumption, achieve the effect of solving excessive resource consumption, avoiding waste, and improving bit error rate performance and resource utilization performance
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example 1
[0365] Example 1 (using different time-frequency resources - different time domain resources and / or different frequency domain resources to differentiate ports):
[0366] MP-RS occupies the first symbol, and distinguishes ports through different comb teeth, and each comb tooth corresponds to a port. Such as Figure 5 As shown (a in the figure represents a subframe, and b represents a preset working bandwidth), the blank square or filled square on the first symbol occupies one symbol in the time domain and one subcarrier in the frequency domain. Blank squares represent port 1 of the MP-RS, and filled squares represent port 2 of the MP-RS. The terminal at the receiving side can obtain related information of the two ports through the sequences mapped on the two different ports, including automatic gain control information, frequency offset estimation information, channel state measurement information, channel estimation information, and the like. Since the MP-RS maps different ...
example 2
[0368] Example 2 (using the same time-frequency resources, different sequences to distinguish ports):
[0369] MP-RS occupies the first symbol and distinguishes ports through different sequences. Each sequence corresponds to a port. In order to reduce interference between two ports, the sequences used by the two ports can be low-correlation. Such as Figure 6 As shown (a in the figure represents a subframe, and b represents a preset working bandwidth), the blank square on the first symbol occupies one symbol in the time domain, and occupies one subcarrier in the frequency domain. Blank squares represent port 1 and port 2 of the MP-RS. The terminal at the receiving side can obtain related information of the two ports through the sequences mapped on the two different ports, including automatic gain control information, frequency offset estimation information, channel state measurement information, channel estimation information, and the like. Since the MP-RS maps different por...
example 3
[0371] Example 3 (using the same time-frequency resources, the same sequence, and different cyclic shifts to distinguish ports):
[0372] MP-RS occupies the first symbol, and the ports can be distinguished by different cyclic shifts of the same sequence, each cyclic shift corresponds to a port, in order to reduce the interference between two ports, the cycle used by the two ports Shifts can be low correlation. Such as Figure 7 As shown (a in the figure represents a subframe, and b represents a preset working bandwidth), the blank square on the first symbol occupies one symbol in the time domain, and occupies one subcarrier in the frequency domain. Blank squares represent port 1 and port 2 of the MP-RS. The terminal at the receiving side can obtain related information of the two ports through the sequences mapped on the two different ports, including automatic gain control information, frequency offset estimation information, channel state measurement information, channel es...
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