(Automatic) Detection of abbreviations is also a major subproblem and task of sentence segmentation and tokenization processes in general, i.e.: disambiguate sentence endings from punctuation attached to abbrevations.
Statistical methods (NLP) have been applied to detect and extract them successfully, mostly in a (semi-)supervised manner. E.g. the PUNKT system, which actually has been developed for sentence boundary detection, is able to detect abbreviations with high accuracy, based on the assumption that a large number of ambiguities in the determination of sentence boundaries can be eliminated once abbreviations have been identified (Kiss et al. 2006. Unsupervised Multilingual Sentence
Now, before trying to modify the PUNKT system or similar, I was just trying to give a direction wrt. NLP-based abbr. detection. The system mentioned above, for example, applies techniques to measure collocational strengths between pairs of tokens, which can be two words, but also a word and some punctuation, treated as a token. It's all based on frequencies and probabilites, although the results in traditional collocational analysis' do allow for semantic research.