The purpose of this research was to develop an automatic scene classification noise reduction system with dual-microphone utilizing TMS320C6713 DSP Starter Kit (Texas Instruments, Dallas, Texas, USA). This system can automatically select the function of microphone noise reduction strategy to improve the intelligibility of speech in noise environment and turn off this function to maintain the quality of speech in speech environment. In this study, an adaptive directional microphone system was selected as microphone noise reduction strategy. Based on the noise direction, this system can adaptively change the directivity of the microphone to reduce the noise signal. The results showed that this system provides the function of adaptive change on system’s directivity and that the intelligibility-weighted directivity index (DISII) can reach 2.3dB. The multilayer perceptron network was used as the automatic scene classification strategy to classify speech or noise environment according to the eight F0-based features. The results of computer simulation and hardware implementation indicated that this system provides 97% average correct rate and reaches 89.6% average correct rate with TMS320C6713 DSP Starter Kit, respectively. Additionally, this study used HINT Pro system (Bio-logic, Chicago, IL, USA) to measure the speech reception threshold (SRT) from eight normal hearing subjects in different noise conditions. The results showed that this system can reduce 6.2dB SRT. The perceptual evaluation of speech quality (PESQ) was further used to estimate the quality of speech. Our experimental results showed that the difference of PESQ can reach up to 0.24 with and without using automatic scene classification strategy to control the noise reduction strategy. The above experimental results suggest that this system not only improve intelligibility of speech in noise environment but also keep the quality of speech in speech environment.