validate(regularity.lrm,bw=T,B=200)
Irregular verbs also tends to be more frequent than regular verbs, and it is reasonable to assume that this high frequnecy protects irregular verbs through time against regularization.
export LC_ALL=C export LANG=de_DE.iso8859を実行しておくことだが.問題となるのは iso-8859-1の 2進法で1011 1011と 1010 1011,16進法では 0xBB と 0xABにあたる « と » である.文字実体参照 HTML3.2で言うと « あるいは « と » あるいは »である.これを処理するPerlのプログラム,前に作ったな.どこに保存してあるっけ.とりあえず/\xBB/ や /\xAB/ を使えば補足はできることはできるが.
"Each succesive row in a sequential ANOVA table evalues whether adding a new predicter is justifiled given the other predictors in the preceding rows. By contrasts, the summary() function evalutes whether the coefficients are signficantly diferrent from zero in a model containing all other predictors." .
"The second function of anova() is to allow us to evalute the overall significance of factors. When a factor has only two levels, the test for the (single) coefficient based on the Z-score in summary() is very similar to the test in the anova() function when relevant factor is entered last into the model equatation. But when a factor has more than two levels, the table of coefficients in summary() lists a t-values or a Z-score for each coefficients. In order to assess whether the factor as a whole is explanatory, the anova() table is essential"
data[abs(rstandard(data.glm )) < 5, ]