提高光电轴角编码器细分精度的改进粒子群算法
제고광전축각편마기세분정도적개진입자군산법
Improved PSO algorithms for improving the subdivision accuracy of photoelectric rotary encoder
  • 万方数据
    红外与激光工程 홍외여격광공정
    INFRARED AND LASER ENGINEERING
    2013年 6期 1508-1513 ,共6页

    高旭%万秋华%杨守旺%陈伟%赵长海

    고욱%만추화%양수왕%진위%조장해

    光电编码器%莫尔条纹%细分精度%粒子群算法 光電編碼器%莫爾條紋%細分精度%粒子群算法
    광전편마기%막이조문%세분정도%입자군산법
    photoelectric encoder%Moire fringe%subdivision accuracy%PSO
      为提高光电轴角编码器的细分精度及莫尔条纹光电信号的细分倍数,设计了一种基于改进粒子群算法的信号正弦性修正方法。首先,根据莫尔条纹光电信号的数学模型,分析信号质量指标对细分误差的影响;并从编码器的制作、调试、使用等环节出发,指出信号细分误差产生的根本原因;然后,对改进粒子群算法的基本原理和实现步骤做了具体阐述;最后,以21位光电编码器为实验对象,依据其精码转换的方波信息实现精码信号的自适应采样,同时应用改进算法对采集的编码器原始光电信号进行数据预处理,通过辨识信号模型中的3个待定参量,直接实现信号等幅性偏差、稳定性偏差、正交性偏差的修正;对算法处理后的莫尔条纹信号进行细分精度检测,实验结果表明:编码器细分误差峰值由19.08义降低到2.86义,细分精度明显提高。
      위제고광전축각편마기적세분정도급막이조문광전신호적세분배수,설계료일충기우개진입자군산법적신호정현성수정방법。수선,근거막이조문광전신호적수학모형,분석신호질량지표대세분오차적영향;병종편마기적제작、조시、사용등배절출발,지출신호세분오차산생적근본원인;연후,대개진입자군산법적기본원리화실현보취주료구체천술;최후,이21위광전편마기위실험대상,의거기정마전환적방파신식실현정마신호적자괄응채양,동시응용개진산법대채집적편마기원시광전신호진행수거예처리,통과변식신호모형중적3개대정삼량,직접실현신호등폭성편차、은정성편차、정교성편차적수정;대산법처리후적막이조문신호진행세분정도검측,실험결과표명:편마기세분오차봉치유19.08의강저도2.86의,세분정도명현제고。
    In order to ensure the subdivision accuracy of the photoelectric rotary encoder and subdivision multiple of the Moire fringe photoelectric signal, the method based on improved particle swarm algorithm (PSO) to correct sinusoidal character of photoelectric signal was designed. On the basis of the mathematical model of the Moire fringe photoelectric signal, the influence of signal quality to subdivision error was analyzed. And from several aspects, such as production, debugging and application, the basic reason of the appearance of signal subdivision error was pointed out. The principle and realization steps of improved PSO were elaborated. A 21-bit encoder was selected as the experimental object. Adaptive sampling of precise code signal was realized according to square wave information from precise code conversion. The collected original Moire fringe photoelectric signal was pretreated using improved PSO. Three to be defined parameters of signal model were identified. And signal amplitude deviation, stability deviation, orthogonal deviation were directly corrected. Moire fringe signal was processed using improved PSO and the subdivision accuracy was tested. The experimental results show that the peak value of subdivision error is reduced from 19.08'' to 2.86''. The subdivision accuracy of the photoelectric rotary encoder is ensured.
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