What is the technical definition of theoretical computer science? What subfields are included?

What is the technical definition of theoretical computer science? (Or, what should it be?)

What main subfields does it include, and what is the commonality that separates them from the rest of computer science?

More specifically: if some particular research has direct practical motivations, goals and outcomes but mostly involves very abstract methods, is it theoretical computer science or not?

Two examples to consider:

"Dual quaternions for rigid transformation blending" (Better mathematical representation of rotation and transform for animation) https://www.cs.tcd.ie/publications/tech-reports/reports.06/TCD-CS-2006-46.pdf

"Relational Semantics for Effect-Based Program Transformations with Dynamic Allocation" (Complier optimisation via denotational semantics): http://research.microsoft.com/pubs/67977/ppdprelational.pdf

[The Wikipedia article gives only a vague definition and a long list of subfields. Should just accept that there's no better definition than this? http://en.wikipedia.org/wiki/Theoretical_computer_science ]

EDIT: I guess this question comes down to "What does the term 'theory' mean in the context of computer science?". Looking at the 6 different meanings of the word at wiktionary, I don't think any of them fully fits. I guess the mathematical sense of a theory fits well for completely mathematical fields but not for others, and for VLSI, machine learning and computational biology from wikipedia:TCS it basically doesn't fit.

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2 Answers

I think the easiest way to distinguish theory from application is to look at the field's definition of a computer. If work in the field is based on the assumption that a computer is a physical object or system, then it's probably application. On the other hand, if work in the field is based on the assumption that a computer is an abstract (usually mathematical) object, it's probably theory. So, when you decide whether to say you are a theoretical computer scientist, I think you just have to ask yourself, "what is a computer?"

(For me, it's definitely an abstract object)

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This link contains a list of subfields: http://arxiv.org/corr/home, I won't reproduce them here as the link may change, and it would be redundant.

Also, I'm reminded of the quote of someone, can't remember who, along the lines of:

Mathematics is whatever mathematicians do

It would seem to apply.

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Those seem to subfields of computer science in general. I'm asking specifically about theoretical computer science. Which of those are in TCS? –  RD1 Aug 7 '10 at 7:36
@RD1: Do you really not have the capability to determine that yourself? –  Noon Silk Aug 7 '10 at 7:40
I can classify most of them in a way that I'd expect some agreement on. The one's I'm most unsure of are: Data Structures and Algorithms; Computer Science and Game Theory; Cryptography and Security; Programming Languages. I guess for these I'd classify them as including some TCS and some not. When I compared my list to the Wikipedia list they were inconsistent, so I moved a few around. Overall I don't feel like I know why some fields are TCS, and others not. Many people have classified me as a theoretical computer scientist, but I claim that I'm not - am I entitled to do that? –  RD1 Aug 7 '10 at 8:09
@RD1: Surely to be theoretical you just need to be doing theory. So if you do that, you're theoretical. If you do practical things, you are not. I see no real purpose in creating something definitive other than as I incidated in my post. –  Noon Silk Aug 7 '10 at 8:25
I do practical things using "theoretical" methods. I think that's pretty common - certainly it is in my field. Regarding something definitive - yes, you could be right. –  RD1 Aug 7 '10 at 9:15