Efficient approximations for the arctangent function using Lagrange interpolation and minimax optimization techniques are presented. These approximations are particularly useful when processing power, memory, and power consumption are important issues. In addition to comparing the errors and the computational workload for these approximations, extension to four quadrants are also outlined
ACM Computing Classification System (1998): G.1.1, G.1.2.We consider optimal Lagrange interpolation ...
We examine and demonstrate the Method of Lagrange Multipliers in Optimization of functions of severa...
The traditional techniques of approximation theory in the form of kernel in-terpolation and cubic sp...
Efficient approximations of the four-quadrant arctangent function have been developed using simple t...
A general technique of error reduction to improve the accuracy of four-quadrant arctangent approxima...
[EN] This article presents a new entry to the class of published algorithms for the fast computation...
In modern computers, complicated signal processing is highly optimized with the use of compilers and...
A table-based method for high-speed function approximation in single-precision floating-point format...
The result of this research is the proposed to mathematical apparatus and a procedure for constructi...
This paper is an exposition of the article A Convergence of Limits by Richard J. Bagby in the Mathem...
The verification of many algorithms for calculating transcendental functions is based on polynomial ...
In this brief survey special attention is paid to some recent procedures for constructing optimal in...
Abstract:A criteria is developed for the approximations of a logarithmic function to piecewise strai...
Applications in computer graphics, digital signal processing, communication systems, robotics, astro...
This report analyzes and compares Barycentric Lagrange interpolation to Cardinal Trigonometric inter...
ACM Computing Classification System (1998): G.1.1, G.1.2.We consider optimal Lagrange interpolation ...
We examine and demonstrate the Method of Lagrange Multipliers in Optimization of functions of severa...
The traditional techniques of approximation theory in the form of kernel in-terpolation and cubic sp...
Efficient approximations of the four-quadrant arctangent function have been developed using simple t...
A general technique of error reduction to improve the accuracy of four-quadrant arctangent approxima...
[EN] This article presents a new entry to the class of published algorithms for the fast computation...
In modern computers, complicated signal processing is highly optimized with the use of compilers and...
A table-based method for high-speed function approximation in single-precision floating-point format...
The result of this research is the proposed to mathematical apparatus and a procedure for constructi...
This paper is an exposition of the article A Convergence of Limits by Richard J. Bagby in the Mathem...
The verification of many algorithms for calculating transcendental functions is based on polynomial ...
In this brief survey special attention is paid to some recent procedures for constructing optimal in...
Abstract:A criteria is developed for the approximations of a logarithmic function to piecewise strai...
Applications in computer graphics, digital signal processing, communication systems, robotics, astro...
This report analyzes and compares Barycentric Lagrange interpolation to Cardinal Trigonometric inter...
ACM Computing Classification System (1998): G.1.1, G.1.2.We consider optimal Lagrange interpolation ...
We examine and demonstrate the Method of Lagrange Multipliers in Optimization of functions of severa...
The traditional techniques of approximation theory in the form of kernel in-terpolation and cubic sp...