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The Partitur Format at BAS
(1997)
Most spoken language resources are produced and disseminated together with symbolic information relating to the speech signal. These are for instance orthographic transcript labeling and segmentation on the phonologic phoneti prosodic phrasal level. Most of the known formats for these symbolic data are defined in a ‘closed form’ that is not fexible enough to allow simple and platform independent processing and easy extensions.
At the Bavarian Archive for Speech Signals (BAS) a new format has been developed and used over the last few years that shows some significant advantages over other existing formats. This paper describes the basic principles behind this format discusses briefly the advantages and gives detailed definitions of the description levels used so far.
The vowel quality in some diphthongs of Swabian (an upper german dialect) was determined by measurement of first and second formant values. A minimal contrast could be shown between two different diphthong qualities […], where for Standard German only one is assumed, viz. /ai/. The two diphthong qualities differ only slightly in onset and offset vowel quality, so a better understanding of their relationship was expected from an examination of their dynamic aspects. Our preliminary results suggest that there is indeed a difference in the temporal structure of the two diphthongs.
This paper deals with the distribution of word length in short native mythological and historical Eskimo narrative texts. To my knowledge, no Eskimo‐Aleut data have been the object of quantitative linguistic investigation so far. Due to the strong linguistic and Stylistic homogeneity of the examined texts it was assumed that these texts can be subsumed under a single law of word length distribution, if word length distribution of a text is considered as a function of certain of its properties, such as author, language, and genre. So far, word length distribution in texts of a wide variety of languages and genres has been demonstrated to follow distributions of the compound Poisson family of discrete probability distributions. In view of the morphological idiosyncrasies of the Eskimo language in general, which are responsible for an unusually high mean word length of about 4.5 to 5.2 syllables per word in the texts, it is interesting to see whether Eskimo texts show a significantly different behaviour with respect to word length. The results demonstrate that the Eskimo data employed in this study can be fitted well by the Hyperpoisson distribution. Two further discrete probability distributions will be deduced from certain morphology‐based assumptions about Eskimo. It turns out that most of the Eskimo data can be fitted by these two distributions. The question to what extent these results point to a more grammar‐oriented theory of word length is also discussed.
In the last years a common notion of a Problem-Solving Method (PSM) emerged from different knowledge engineering frameworks. As a generic description of the dynamic behaviour of knowledge based systems PSMs are favored subjects of reuse. Up to now, most investigations on the reuse of PSMs focus on static features and methods as objects of reuse. By this, they ignore a lot of information of how the PSM was developed that is, in principle, entailed in the different parts of a conceptual model of a PSM.
In this paper the information of the different parts of PSMs is reconsidered from a reuse process point of view. A framework for generalized problem-solving methods is presented that describes the structure of a category of methods based on family resemblances. These generalized methods can be used to structure libraries of PSMs and - in the process of reuse - as a means to derive an incarnation, i.e. a member of its family of PSMs.
For illustrating the ideas, the approach is applied to the task rsp. problem type of parametric design.