[[abstract]]A study is made of the sampling-time effects of higher-order digitisations (i.e. the Madwed and Boxer-Thaler digitisations) to convert a continuous-time system into a discrete-time system. A general expression for the denominator and numerator of the digitised system is proposed, and used to predict precisely the computational stability and sampling-time effects of these types of digitisation. The 'polynomial root locus' is introduced to describe the pole variations of the digitised system when the sampling time is varied from zero to infinity. The maximum sampling time of a particular digitisation can also be found by a new algorithm which is proposed. The transient behaviour of the digitised system is further studied by defini...
This paper investigates how the choice of the sampling time affects the identification of nonlinear ...
Most identification and design methods for discrete time data assume that the inputs and outputs are...
This article compares two methods of algorithmically processing bandlimited time-continuous signals ...
[[abstract]]This paper investigates the impact of sampling time on Tustin digitization. A Q-matrix r...
This paper uses a time-domain approach to study the effect of fast sampling on the stability of a cl...
Despite the existence of methods for a direct optimal design of sampled-data control systems, it is ...
Modern signal processing and control algorithms are invariably implemented digitally, yet most real-...
This thesis examines the propagation of small relative errors in poles in discrete-time domains $z, ...
The zeros of the discrete-time system obtained when sampling a continuous time system are explored. ...
Digital applications have developed rapidly over the last few decades. Since many sources of informa...
The signals coming from the real world around us are analog and, in order to treat these quantities ...
Sampling is the reduction of a continuous-time signal to a discrete sequence. The classical sampling...
Converting an analog signal to digital involves more than just digitizing some measurements. Consequ...
[[abstract]]In this paper, a quantitative index is proposed to address the performance evaluation an...
The article presents a new approach to the analysis of the stability of automatic systems with discr...
This paper investigates how the choice of the sampling time affects the identification of nonlinear ...
Most identification and design methods for discrete time data assume that the inputs and outputs are...
This article compares two methods of algorithmically processing bandlimited time-continuous signals ...
[[abstract]]This paper investigates the impact of sampling time on Tustin digitization. A Q-matrix r...
This paper uses a time-domain approach to study the effect of fast sampling on the stability of a cl...
Despite the existence of methods for a direct optimal design of sampled-data control systems, it is ...
Modern signal processing and control algorithms are invariably implemented digitally, yet most real-...
This thesis examines the propagation of small relative errors in poles in discrete-time domains $z, ...
The zeros of the discrete-time system obtained when sampling a continuous time system are explored. ...
Digital applications have developed rapidly over the last few decades. Since many sources of informa...
The signals coming from the real world around us are analog and, in order to treat these quantities ...
Sampling is the reduction of a continuous-time signal to a discrete sequence. The classical sampling...
Converting an analog signal to digital involves more than just digitizing some measurements. Consequ...
[[abstract]]In this paper, a quantitative index is proposed to address the performance evaluation an...
The article presents a new approach to the analysis of the stability of automatic systems with discr...
This paper investigates how the choice of the sampling time affects the identification of nonlinear ...
Most identification and design methods for discrete time data assume that the inputs and outputs are...
This article compares two methods of algorithmically processing bandlimited time-continuous signals ...