As a general rule, no more than one course from a study abroad program will be counted. A reading of influential secondary texts that have defined the field of. Including process, memory, and storage management; synchronization. EDST 0305 Reading & Writing the World: Teaching Literacy and Social.
Description y = uencode(u,n) quantizes the entries in a multidimensional array of floating-point numbers u and encodes them as integers using 2 n-level quantization. N must be an integer between 2 and 32 (inclusive). Inputs can be real or complex, double- or single-precision. The output y and the input u are arrays of the same size.
The elements of the output y are unsigned integers with magnitudes in the range 0, 2 n-1. Elements of the input u outside of the range -1,1 are treated as overflows and are saturated. For input entries less than - v, the value of the output of uencode is 0. For input entries greater than v, the value of the output of uencode is 2 n – 1.
Y = uencode(u,n,v, 'SignFlag') maps entries in a multidimensional array of floating-point numbers u whose entries have values in the range -v,v to an integer output y. Input entries outside this range are saturated. The integer type of the output depends on the number of quantization levels 2 n and the value of 'SignFlag', which can be one of the following. Algorithms uencode maps the floating-point input value to an integer value determined by the requirement for 2 n levels of quantization. This encoding adheres to the definition for uniform encoding specified in ITU-T Recommendation G.701. The input range -v,v is divided into 2 n evenly spaced intervals. Input entries in the range -v,v are first quantized according to this subdivision of the input range, and then mapped to one of 2 n integers.
The range of the output depends on whether or not you specify that you want signed integers.
Comments are closed.
|
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |