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Discrete Mathematics and its Applications

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1 Discrete Mathematics and its Applications
2/24/2019 University of Florida Dept. of Computer & Information Science & Engineering COT 3100 Applications of Discrete Structures Dr. Michael P. Frank Slides for a Course Based on the Text Discrete Mathematics & Its Applications (5th Edition) by Kenneth H. Rosen A word about organization: Since different courses have different lengths of lecture periods, and different instructors go at different paces, rather than dividing the material up into fixed-length lectures, we will divide it up into “modules” which correspond to major topic areas and will generally take 1-3 lectures to cover. Within modules, we have smaller “topics”. Within topics are individual slides. 2/24/2019 (c) , Michael P. Frank (c) , Michael P. Frank

2 Rosen 5th ed., §3.2 ~9 slides, ~½ lecture
Module #11: Sequences Rosen 5th ed., §3.2 ~9 slides, ~½ lecture 2/24/2019 (c) , Michael P. Frank

3 §3.2: Sequences & Strings A sequence or series is just like an ordered n-tuple, except: Each element in the series has an associated index number. A sequence or series may be infinite. A summation is a compact notation for the sum of all terms in a (possibly infinite) series. 2/24/2019 (c) , Michael P. Frank

4 Sequences Formally: A sequence or series {an} is identified with a generating function f:SA for some subset SN (often S=N or S=N{0}) and for some set A. If f is a generating function for a series {an}, then for nS, the symbol an denotes f(n), also called term n of the sequence. The index of an is n. (Or, often i is used.) 2/24/2019 (c) , Michael P. Frank

5 Sequence Examples Many sources just write “the sequence a1, a2, …” instead of {an}, to ensure that the set of indices is clear. Our book leaves it ambiguous. An example of an infinite series: Consider the series {an} = a1, a2, …, where (n1) an= f(n) = 1/n. Then {an} = 1, 1/2, 1/3, … 2/24/2019 (c) , Michael P. Frank

6 Example with Repetitions
Consider the sequence {bn} = b0, b1, … (note 0 is an index) where bn = (1)n. {bn} = 1, 1, 1, 1, … Note repetitions! {bn} denotes an infinite sequence of 1’s and 1’s, not the 2-element set {1, 1}. 2/24/2019 (c) , Michael P. Frank

7 Recognizing Sequences
Sometimes, you’re given the first few terms of a sequence, and you are asked to find the sequence’s generating function, or a procedure to enumerate the sequence. Examples: What’s the next number? 1,2,3,4,… 1,3,5,7,9,… 2,3,5,7,11,... 5 (the 5th smallest number >0) 11 (the 6th smallest odd number >0) 13 (the 6th smallest prime number) 2/24/2019 (c) , Michael P. Frank

8 The Trouble with Recognition
The problem of finding “the” generating function given just an initial subsequence is not well defined. This is because there are infinitely many computable functions that will generate any given initial subsequence. We implicitly are supposed to find the simplest such function (because this one is assumed to be most likely), but, how should we define the simplicity of a function? We might define simplicity as the reciprocal of complexity, but… There are many plausible, competing definitions of complexity, and this is an active research area. So, these questions really have no objective right answer! 2/24/2019 (c) , Michael P. Frank

9 What are Strings, Really?
This book says “finite sequences of the form a1, a2, …, an are called strings”, but infinite strings are also used sometimes. Strings are often restricted to sequences composed of symbols drawn from a finite alphabet, and may be indexed from 0 or 1. Either way, the length of a (finite) string is its number of terms (or of distinct indexes). 2/24/2019 (c) , Michael P. Frank

10 Strings, more formally Let  be a finite set of symbols, i.e. an alphabet. A string s over alphabet  is any sequence {si} of symbols, si, indexed by N or N{0}. If a, b, c, … are symbols, the string s = a, b, c, … can also be written abc …(i.e., without commas). If s is a finite string and t is a string, the concatenation of s with t, written st, is the string consisting of the symbols in s, in sequence, followed by the symbols in t, in sequence. 2/24/2019 (c) , Michael P. Frank

11 More String Notation The length |s| of a finite string s is its number of positions (i.e., its number of index values i). If s is a finite string and nN, sn denotes the concatenation of n copies of s.  denotes the empty string, the string of length 0. If  is an alphabet and nN, n  {s | s is a string over  of length n}, and *  {s | s is a finite string over }. 2/24/2019 (c) , Michael P. Frank

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