This package contains functions that create and manipulate vocalisation diagrams. Vocalisation diagrams date back to early work in psychiatry (Jaffe and Feldstein, 1970) and social psychology (Dabbs and Ruback, 1987) but have only recently been employed as a data representation method for machine learning (Luz, 2013; Luz and Kane, 2009).
This provides a number of functions for generating vocalisation diagrams (vocaldias) from data frames containing, minimally, a column for start time of a vocalisation event (speech, silence, group-talk etc), a column for end time, and a column for the event identifier. It also contains some basic functions for reading and processing files from DementiaBank (.cha transcripts and audio files).
Functions getSampledVocalMatrix and
getTurnTakingProbMatrix generate alternative versions of
adjacency matrices for vocaldias. staticMatrix generates
steady state diagrams from a vocaldia. printARFFfile
generates a ‘flat’ representation of vocaldias for classifier training
and evaluation.
You can install the released version of vocaldia from CRAN with:
install.packages("vocaldia")The following examples illustrate the use of vocaldia to create and visualise vocalisation graphs and their properties.
library(vocaldia)
## load some data
data(vocdia)
## select a dialogue
x <- subset(atddia, id=='Abbott_Maddock_01')
## show a probability matrix
getTurnTakingProbMatrix(x)
## if you have igraph installed, visualise a vocal matrix
require('igraph')
subset(atddia, id=='Abbott_Maddock_01') %>%
getSampledVocalMatrix(individual=TRUE, nodecolumn='speaker')
%>% igraph.vocaldia %>% plot
## plot steady state of the Markov diagram
plot(staticMatrix(vocmatrix$ttarray, digits=4, history=TRUE))See the following publication for further examples of use of this package:
Luz S, De La Fuente Garcia S, Albert P. A Method for Analysis of Patient Speech in Dialogue for Dementia Detection. In Resources and ProcessIng of linguistic, para-linguistic and extra-linguistic Data from people with various forms of cognitive impairment. Paris, France: ELRA. 2018. p. 35-42 (https://arxiv.org/abs/1811.09919)