While studying the book "Introduction to Algorithms by Cormen", I found a strange thing. Everywhere if it refers to an increasing order, the book refers it as "nondecreasing" order.. I mean, if a series (2,5,6,3) is to be arranged in "nondecreasing" order.. is'nt it already right?? or "increasing" and "nondecreasing" words mean one and the same?

Increasing  1 2 3 4 Nondecreasing  1 1 2 3 The difference being that in an increasing sequence, for x(n) and x(n+1), x(n+1) > x(n) whereas in a nondecreasing sequence, x(n+1) >= x(n) 


1,2,3,4 is an increasing sequence or a nondecreasing sequence. 1,1,1,1 is a nondecreasing sequence but isn't an increasing sequence. 


Increasing means that every element is greater than the one before it. Nondecreasing means that no element is less than the element before it, or in other words: that every element is greater than or equal to the one before it. 


If there are duplicates in the series, then the term "nondecreasing" is more accurate that "increasing." 


Nondecreasing means exactly that. It's not quite the same as increasing, since it does not tell you what to do with identical values. Consider the sequence 1, 2, 2, 3, 4 . It's a nondecreasing sequence because the values are in order, yet do not strictly increase from value to value ( ie, 2 is not greater than 2). 


It depends on the way the author defines these terms. In your case the authors distinguish nondecreasing (1, 2, 2, 3) and increasing (1, 2, 3). This makes sense in the context of a total order. Other people call this increasing (1, 2, 2, 3) and strictly increasing (1, 2, 3). This makes more sense in the context of a partial order, where for two distinct elements a and b it may be the case that neither a < b nor b < a holds. 


The series can be increasing and decreasing as others already explained but can also be non of them. (1,3,2,4,5,9,1,0) Is neither decreasing nor increasing. However, there are subsets like 2,4,5,9 that are increasing or 9,1,0 decreasing 

