Authors in [9] proposed the usage of a semitensor product to represent Boolean functions in an

algebraic form. In this paper, we have proposed an algorithm using Sum of Products (SOP) canonical form and logic vector (ith column of an identity matrix) as logic value to represent the logic functions in the algebraic equations.

He gives three versions of each one: standard

algebraic form with units, standard

algebraic form without units, and in the form of a spreadsheet cell entry.

In order to get intuitive ideas and an intrinsic understanding of the problem, we consider explicitly a simple

algebraic form of the output function in three variables:

The entire module can be cascaded to form a real time Petri-net representation which is stored in

Algebraic form as an XML file.

The ability of a CAS to integrate a trigonometric integrand of this type depends heavily upon its algorithm(s) used to convert the integrand to an

algebraic form.

Findings reveal that rate was not seen, by the participants, in the

algebraic form of the functions resulting from the GSP simulation.

Most arguments are presented in both graphical and

algebraic form. Numerical and analytical questions for review are found at the end of each chapter, and a glossary of terms completes the volume.

This textbook explores the configurations of points, lines, and planes in space defined geometrically, translates them into

algebraic form using the coordinates of a representative point of the locus, and derives the equations of the conic sections.

The likelihood function L([alpha]) defined in Equation (1) is derived on the basis of the assumption that the largest r + 1 upper-order statistics reside in the region where the underlying distribution function is of

algebraic form. If a large value of r is selected, then the

algebraic form assumption may not be valid, and the resulting forecasts can be biased.

If we use the rules in Definition 3, this comprehension is translated into

algebraic form as