Morphological productivity

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1. Problem and history

In the lexicon of a language there are two processes working:

(a) Birth of new lexemes by creating or borrowing

(b) Death by elimination of lexemes

Birth means either creation of new words or constructing them by morphological processes like derivation, reduplication, compounding etc. The construction is a case of (multidi-mensional) diversification (rightarrow). At the same time it is a case of specification of meaning and word prologation. Birth and death take place in rates called birth-rate \lambda_xand death-rate \mu_x respectively. Since up to now only a case of derivation has been examined, the hypothesis must be restricted but we assume that it holds for other kinds of word building, too. It holds, of course, only under the condition that the given way of word buidling is actual in a language. As far as known, the only model was proposed by Wimmer and Altmann (1995) in which the random variable x is the number of derivates built from a stem (x = 0,1,2,…) and f_x is the number of stems having x derivates. Another kind of productivity examined by H. Baayen will be refered in the next volume.

2. Hypothesis

Morphological productivity is the result of a birth-and-death process in which stems build new derivates and some derivates are eliminated. The probability of the number of stems having x derivates follows the Pólya distribution.

3. Derivation

The creation of new morphological constructs is proportional to the class size x and can be generally symbolized as a + cx. Since creation cannot be infinite, there must be a limit n to it. The community controls the creation in the same linear way symbolized as b + (n-x-1)c. This results in the birth rate \lambda = \frac{a+cx}{b+(n-x-1)c}\quad , x = 0, 1, ...n-1. The death rate is similar, depending only on the class size and the morphological nature of language. It can be sym-bolized as \mu = \frac{n}{n-x+1}\quad, x = 1, 2, ...,n Inserting the above birth-rate and death-rate in the balancing birth-and-death equations (see Appendix) and reparametrizing

p = a/(a+b), q = b/(a+b), s = c/(a+b)

we obtain the Pólya distribution (Wimmer, Altmann 1995)

(1) P_x = \frac{{-p/s \choose x}{-q/s \choose n-x}}{{-1/s \choose n}}\quad, x= 0, 1, ..., n, s>0, =\le p\le1, q=1-p, n \epsilon N_0  \frac{p}{s}, \frac{q}{s}\ge = 0 or  \frac{p}{s}, \frac{q}{s}\le 0

Example: Indonesian stem productivity

Wimmer and Altmann (1995) studied the productivity of stems in the Indonesian dictionary (Echols, Shadily 1963). There were 6970 stems having no derivates, 1961 stems having each 1 derivate etc. The data and the results of fitting are presented in Table 1 and Fig. 1.

Tabelle11 MP.jpg

(((Den Graph mit Excell machen, da 0 fehlt) Fig. 1. Fitting the Pólya distribution to the data in Table 1


4. Authors: G. Altmann

5. References

Altmann, G., Bagheri, D., Goebl, H., Köhler, R., Prün, C. (2002). Einführung in die quantitative Lexikologie. Götingen: Peust & Gutschmidt.

Echols, J.M., Shadily, H. (1963). An Indonesian-English dictionary. Ithaca: Cornell University Press.

Wimmer, G., Altmann, G. (1995). A model of morphological productivity. J. of Quantitative Linguistics 2, 212-216.