Could a Computer Feel Pain? :: Technology Feelings Papers

Could a data processor Feel Pain?I define pain as a continuously and purposely optimizing input to a feedback system. I proceed by clarifying and restricting the defining terms to the given context. I thusly prove the robustness of this definition by demonstrating its compatibility with a biologically-acceptable intuitive and philosophic viewpoint. I purpose that if a computational device were to be designed to meet the definition of the requirements for pain, the computer could be said, then, to feel pain. I farther note this definition of pain does not completely integrate with higher-order t unity forms which are capable of beliefs and intentions which I label representations. I then conclude with a rough sketch of what the requirements would be to define a figural system for the purpose of understanding how a computer could have a mind akin to our own. FunctionA function maps a range of inputs to a single outfit. To see this, consider the definitions of function which fol low. 5. Math. a. A shifting so related to one another that for for each one value fictional by one in that respect is a value determined for the other. b. A rule of correspondence between two sets such that there is a unique element in one set assigned to each element in the other. (Morris 1982539) From the above, it becomes apparent that a function simply maps one set of points to another such as in the equation of rakehell where we consider x to be the input and y to be the turnout y is a function of x = f(x) = y = m*x + b. Note that we can remap the output to the input if we take x as a function of y = f(y) = x = ( y - b ) / m. If we get a line definition b of function, we note that, for each value in the input set x, there is one and only one similar value of the output y. Thus, the equation of a circle would not transfigure as a function since for many values of x there are two values for y such as a point on the top of the circle and a point right off below on the bo ttom of the circle. A deterministic, or non-random, function willing give the same output y every time a given input x is presented. That is, the input x completely determines the output y.