摘要
In traditional system identification (SI), actual values of system parameters are concealed in the input and output data;hence, it is necessary to apply estimation methods to determine the parameters. In signal processing, a signal with N elements must be sampled at least N times. Thus, most SI methods use N or more sample data to identify a model with N parameters;however, this can be improved by a new sampling theory called compressive sensing (CS). Based on CS, an SI method called compressive measurement identification (CMI) is proposed for reducing the data needed for estimation, by measuring the parameters using a series of linear measurements, rather than the measurements in sequence. In addition, the accuracy of the measurement process is guaranteed by a criterion called the restrict isometric principle. Simulations demonstrate the accuracy and robustness of CMI in an underdetermined case. Further, the dynamic process of a DC motor is identified experimentally, establishing that CMI can shorten the identification process and increase the prediction accuracy.
In traditional system identification(SI),actual values of system parameters are concealed in the input and output data;hence,it is necessary to apply estimation methods to determine the parameters.In signal processing,a signal with N elements must be sampled at least N times.Thus,most SI methods use N or more sample data to identify a model with N parameters;however,this can be improved by a newsampling theory called compressive sensing(CS).Based on CS,an SI method called compressive measurement identification(CMI) is proposed for reducing the data needed for estimation,by measuring the parameters using a series of linear measurements,rather than the measurements in sequence.In addition,the accuracy of the measurement process is guaranteed by a criterion called the restrict isometric principle.Simulations demonstrate the accuracy and robustness of CMI in an underdetermined case.Further,the dynamic process of a DC motor is identified experimentally,establishing that CMI can shorten the identification process and increase the prediction accuracy.
基金
Supported by the National Natural Science Foundation of China(61605218)
National Defense Science and Technology Innovation Foundation of Chinese Academy of Sciences(CXJJ-17S023)
