Previous work on implementations of FA-based string recognizers suggested a range of implementation strategies (and therefore, algorithms) aiming at improving their performance for fast string recognition. However, an efficient exploitation of suggested algorithms by domain-specific FA-implementers requires prior knowledge of the behaviour (performance-wise) of each algorithm in order to make an informed choice. The authors propose a based string recognizers such that FA-implementers could capture appropriate problem domains that gaurantee an optimal performance of available recognizers. The suggested framework takes into consideration factors such as the kind of automan being processed, the string and alphabet size as well as the overall behaviour of the automan at run-time. It is well known that performance remains a significant bottle-neck to the high-performance solutions required in such industrial applications.
Reference:
Ngassam, EK, Kourie, DG and Watson, BW. 2010. Framework for benchmarking FA-based string recognizers. Proceedings of SAICSIT 2010 Annual Research Conference of the South African Institute of Computer Scientist and Information Technologists. Bela Bela, South Africa, 11-13 October 2010, pp 220-230
Ngassam, E., Kourie, D., & Watson, B. (2010). Framework for benchmarking FA-based string recognizers. Association for Computing Machinery. http://hdl.handle.net/10204/4672
Ngassam, EK, DG Kourie, and BW Watson. "Framework for benchmarking FA-based string recognizers." (2010): http://hdl.handle.net/10204/4672
Ngassam E, Kourie D, Watson B, Framework for benchmarking FA-based string recognizers; Association for Computing Machinery; 2010. http://hdl.handle.net/10204/4672 .
Proceedings of SAICSIT 2010 Annual Research Conference of the South African Institute of Computer Scientist and Information Technologists. Bela Bela, South Africa, 11-13 October 2010
