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Human listeners can recognize target speech streams in complex auditory scenes. The cortical activities can robustly track the amplitude fluctuations of target speech with auditory attentional modulation under a range of signal-to-masker ratios (SMRs). The root-mean-square (RMS) level of the speech signal is a crucial acoustic cue for target speech perception. However, in most studies, the neural-tracking activities were analyzed with the intact speech temporal envelopes, ignoring the characteristic decoding features in different RMS-level-specific speech segments. This study aimed to explore the contributions of high- and middle-RMS-level segments to target speech decoding in noisy conditions based on electroencephalogram (EEG) signals. The target stimulus was mixed with a competing speaker at five SMRs (i.e., 6, 3, 0, -3, and -6 dB), and then the temporal response function (TRF) was used to analyze the relationship between neural responses and high/middle-RMS-level segments. Experimental results showed that target and ignored speech streams had significantly different TRF responses under conditions with the high- or middle-RMS-level segments. Besides, the high- and middle-RMS-level segments elicited different TRF responses in morphological distributions. These results suggested that distinct models could be used in different RMS-level-specific speech segments to better decode target speech with corresponding EEG signals.