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Research and Implementation of RGB-LED Mixed Light Matching along with Music Playing
Zhang Hong,Gao Xiaoshuang,Mohanmmed Obadi,Zhao Ruirui,Tong Jinrui,Tian Chunwei,Hu Zhiqiang 보안공학연구지원센터 2016 International Journal of Grid and Distributed Comp Vol.9 No.4
Synesthesia effect between music and color is a researching direction which is concerned much. The problem of mismatching between music playing and color had always existed in applications. On the basis of researching music and color, colors which are corresponding to various chords respectively are determined, and the frequency spectrum analysis on chords is performed. The real-time frequency domain transformation to time domain audio signal being played is carried out. The closest chord to audio signal being played can be identified via comparison between a chord spectrum and the spectrum of audio signal being played, and the color corresponding to the audio signal is determined. To improve the accuracy of recognition the method is investigated with which wavelet transform is adopted to de-noise processing of audio signal. Through tests on the audio experiment platform, color mixed effect test, optimization of the audio signal processing parameters, and processing time sequence scheming have been performed. A novel audio player is developed in application to realize the optimal RGB-LED mixed light which automatically presents matching color effect for arbitrary music being played. The research can reveal relationships between music and color from the perspective of frequency spectrum, promote the development of the color music, which has broad application prospects in urban landscape, stage lighting, and psychotherapy.
Preparation and enzymatic activity of Fe3O4-IDA-Ni/NAD kinase magnetic catalyst
Changxia Liu,Yadi Yang,Huafeng Gao,Xiaoshuang Bai,Zheng-Jun Li 한국화학공학회 2020 Korean Journal of Chemical Engineering Vol.37 No.3
The use of oxidoreductases as biocatalysts for industrial production of valuable compounds has a strong demand for NADP. Herein, we prepared superparamagnetic NAD kinase catalyst to synthesize NADP in vitro. First, Fe3O4 particles were synthesized through a solvothermal method, followed by the chemical modification with epichlorohydrin, iminodiacetic acid, and Ni2+ to yield functional Fe3O4 sub-microspheres. Subsequently, NAD kinase of Escherichia coli was overexpressed and immobilized on to the surface of magnetic sub-microspheres. The immobilized NAD kinase was used to catalyze the conversion of NAD to NADP in a cell-free system. Under optimal condition, the conversion ratio of NAD reached 91.7% and remained at 86.3% after repeated use for five times. Our study revealed that the novel magnetic NAD kinase catalyst possessed favorable properties for magnetic manipulation and NADP production.