An efficient design of digital differentiators (DD), with a variable frequency range of operation at low and midband frequencies, has been proposed. Implemented as a Taylor structure, a DD designed for orderN can be made to function as a universal configuration giving optimal transfer functions for all possible orders N, without changing the coefficients
[[abstract]]In this paper, a new approach to the design of digital FIR differentiators is presented....
It is observed that the Weighted least-square (WLS) technique, including the modifications, results ...
[[abstract]]In this paper, the design and implementation structures of adjustable fractional order d...
Optimal, maximally accurate digital differentiators (DDS) are derived for the low-frequency range. E...
We propose in this paper an efficient design of FIR digital differentiators of degree k, k= 1, 2, 3,...
Digital differentiators (DDs) which are maximally linear at the spot frequency ω=p/p, p ...
Interrelationships between seven types of digital FIR filters, viz. the differentiators (DD), Hilber...
Digital differentiators of orders greater than unity are often required in processing various types ...
The frequency response of conventional FIR digital differentiators (DD), using only integral delays,...
In this paper, an efficient design of FIR digital differentiator using the $L_1$-optimality criterio...
In this paper two methods of designing efficiently a digital linear-phase differentiator of an arbit...
This paper describes a new method for designing low-pass differentiators that could be widely suitab...
Among the known FIR digital differentiators, the minimax relative error (MRE) approximations are the...
[[abstract]]The design of digital differentiators is investigated. First, the backward difference fo...
In this paper, the least-squares design of variable fractional-delay (VFD) finite impulse response (...
[[abstract]]In this paper, a new approach to the design of digital FIR differentiators is presented....
It is observed that the Weighted least-square (WLS) technique, including the modifications, results ...
[[abstract]]In this paper, the design and implementation structures of adjustable fractional order d...
Optimal, maximally accurate digital differentiators (DDS) are derived for the low-frequency range. E...
We propose in this paper an efficient design of FIR digital differentiators of degree k, k= 1, 2, 3,...
Digital differentiators (DDs) which are maximally linear at the spot frequency ω=p/p, p ...
Interrelationships between seven types of digital FIR filters, viz. the differentiators (DD), Hilber...
Digital differentiators of orders greater than unity are often required in processing various types ...
The frequency response of conventional FIR digital differentiators (DD), using only integral delays,...
In this paper, an efficient design of FIR digital differentiator using the $L_1$-optimality criterio...
In this paper two methods of designing efficiently a digital linear-phase differentiator of an arbit...
This paper describes a new method for designing low-pass differentiators that could be widely suitab...
Among the known FIR digital differentiators, the minimax relative error (MRE) approximations are the...
[[abstract]]The design of digital differentiators is investigated. First, the backward difference fo...
In this paper, the least-squares design of variable fractional-delay (VFD) finite impulse response (...
[[abstract]]In this paper, a new approach to the design of digital FIR differentiators is presented....
It is observed that the Weighted least-square (WLS) technique, including the modifications, results ...
[[abstract]]In this paper, the design and implementation structures of adjustable fractional order d...
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