A Subband Filter Generation Method Based on Subband Filter Ofdm System

Abstract

The present invention relates to a sub-band filter generation method based on sub-band filter OFDM system, comprising the following steps: designing a linear phase filter that satisfies the passband edge of the target frequency response and rolls off from 1 to the roll-off cut-off amplitude δ, and can be obtained by The roll-off band factor controls its pass-band edge roll-off cut-off amplitude δ and roll-off band width; the roll-off function of the linear phase filter is taken as a raised cosine function; the window function is selected; the selected window function is compared to the designed linear The phase filter performs soft truncation to generate subband filters. The sub-band filter designed by the invention has larger stop-band attenuation, smaller pass-band ripple coefficient, smaller time-domain impulse response tail and narrower transition band.

Description

technical field [0001] The present invention relates to the technical field of sub-band filters, in particular to a sub-band filter design method based on a sub-band filtering OFDM system. Background technique [0002] The existing 5G new waveform design is generally based on the OFDM multi-carrier modulation system, see figure 1 . There are currently two design angles: the first is the reshaping pulse shaping filter method, which improves p(n), that is, performs pulse shaping on each subcarrier in the frequency domain, and FBMC and WOLA belong to this category ; The second is to add a bandpass filter method, that is, carry out frequency domain bandpass windowing processing on a continuous subcarrier, subband filtering (abbreviated as "filtered") OFDM (FOFDM, RB-FOFDM), UFMC, FCP- OFDM falls into this category. [0003] FBMC filters a single subcarrier, so the time-domain impulse response of the filter has a large tail, and does not support 5G low-latency services and sma...

AI Technical Summary

Problems solved by technology

The reserved frequency band is generally set to 2 to 12 subcarriers. If the setting is too small, the influence of the passband ripple of the subband filter on the edge subcarriers cannot be completely avoided. If the setting is too large, the passband of the subband filter will be cut off. The transition region at the frequency to the desired stopband attenuation becomes larger, that is, the equivalent transition band becomes wider

And for the linear phase filter designed by the soft truncated Sinc function method, the passband edge directly transitions from 1 to 0, resulting in serious smearing of the time domain impulse response of the subband filter and large passband ripples

[0010] For the soft truncated raised cosine sub-band filter, the roll-off bandwidth of the linear phase filter is a function of the roll-off coefficient and the sub-band bandwidth, and different users or different services of the same user have different sub-band bandwidths. , the roll-off coefficient needs to be reset, and at this time the passband edge of the linear phase filter slowly transitions from 1 to 0, the roll-off bandwidth is too wide and difficult to control, making the transition bandwidth of the RC-Filter wider

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