I am sorry, much as I appreciate the thought that went into the top-voted answer, I disagree with it. NaN does not mean "undefined" - see http://www.cs.berkeley.edu/~wkahan/ieee754status/IEEE754.PDF, page 7 (search for the word "undefined"). As that document confirms, NaN is a well-defined concept.
Furthermore, IEEE approach was to follow the regular mathematics rules as much as possible, and when they couldn't, follow the rule of "least surprise" - see http://stackoverflow.com/a/1573715/336527. Any mathematical object is equal to itself, so the rules of mathematics would imply that that NaN == NaN should be True. I cannot see any valid and powerful reason to deviate from such a major mathematical principle (not to mention the less important rules of trichotomy of comparison, etc.).
As a result, my conclusion is as follows.
IEEE committee members did not think this through very clearly, and made a mistake. Since very few people understood the IEEE committee approach, or cared about what exactly the standard says about NaN (to wit: most compilers' treatment of NaN violates the IEEE standard anyway), nobody raised an alarm. Hence, this mistake is now embedded in the standard. It is unlikely to be fixed, since such a fix would break a lot of existing code.
I fully expect my answer to be downvoted, but it is my right to provide and accept an answer that I find the most convincing. Of course, I'll happily change my mind if I see solid arguments against my conclusion.