Paper i. introduction broad phonetic technique -emphasize what is reliable, instead of everything probabilistic at the onset advantage: do't have to set probabilities disadvantage: there may be information there that would obviate need for cohort construction Question: what kind of questions can we ask to reveal what this technique is best suited for, what are any inherent limitations? How can it be augented, modified, or what other algorithms are appropriate for other domains? I. Broad phonetic classification ZSH Only linear precedence information strings of segments no constraints no suprasegmental information notion of equivalence class; tailored for isolated word recognition anything like it before?? Waltz? Delayed binding? II. A different dimension is stress DPH How it cuts across equivalence classes as reliable as BP categorization Aull III. What about continuous speech with BPC with or without stress? There are only around 250 BP syllables (??times 2 with stress) (reason 6k allophonic ones (fujimura & Lovins) this equals 250 BP ones, cut out vowels, collapse stops in 3? positions; etc.) SO combinatorics large cohort sizes with big dictionaries KWC on this IV. Possibly ok with bounds on lexicon size for continuous V. Need other source of constraint for big word lists, continuous case (based on III and IV) one way is longer units than syllables, so more than 250 divisions VI. Feet is a suprasyllabic unit that incorporates stress, has constraint -- better equivalence class size (experiments) -- limited problem with boundaries VII. What about deletion? Unreliability? Don't specify all BPC equally. Specify Stress in more fine-grain detail, others as empty syllables. VIII. Back to deletion. There are systematicities in deletions, and constraints on strings across syllables Want constraints on strings across syllables because can get huge cohorts otherwise since word boundaries are unknown Assume: Vowel in primary stress in word will not delete if content word "Coming at you fast" (withgott 85) No point in gathering the cohort for certain patterns: no *tyu - f V: no *Cx - f V: no *tx - f V: no *t/C x - Fric V: no *t/CFric V: (one syllable) no *?ty x- Fric V: no *y x- Fric V: no *?ty x- Fric V: (one syllable) no *y x- Fric V: (one syllable) No point in gathering the cohort for (?)(t)y (x) FRIC Stress V cuts back on combinatorics, even with function words IX. lexical vs. metrical we are not dealing with the theorists classic feet here, because "about" X. Stress in the signal .. how reliable? what about stress shift? This is not so bad because easily detectable stress (by current algorithms) is only primary, unreduced and reduced anyway, so let us only rely on it at the onset artificial intelligence --> ARti'ficial inTELligence look up all artx all fISl -- art won't be in lexicon as reduced xrtx fISl wont reduce all the way down, so tractable XI. Conclusion