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I want to take a csv export of my bibtex literature database and analyse the correlation between keywords and Journals. I start off with a csv file containing one row per piece of literature, each one with a Journal name, and a keyword list, which is a slash deliminated list. I want to end up with either a matrix of Journal by Keyword and counts.

Currently I've written this code, but there must be a better way, anyone have any ideas ?

sortframe<-function(df,...){df[do.call(order,list(...)),]}
library(ggplot2)
library(plyr)

bib<-read.csv("/home/paul/workspace/Test_R_statet/data/bib.csv") # read csv file

So, here's the structure of my data, I've taken twenty rows that (seem) to be representative of the three thousand I've got in total.

dput(bib)


structure(list(BibliographyType = c(7L, 7L, 7L, 7L, 7L, 7L, 7L, 
7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L, 
7L, 7L, 7L, 7L, 7L, 7L, 7L, 7L), Author = structure(c(19L, 21L, 
22L, 23L, 24L, 25L, 20L, 28L, 26L, 27L, 1L, 2L, 2L, 2L, 3L, 4L, 
5L, 6L, 7L, 8L, 9L, 10L, 11L, 12L, 13L, 14L, 15L, 15L, 16L, 17L, 
18L), .Label = c("Constantinos, Apostolou; Dotsikas, Yannis; Kousoulos, Constantinos & Loukas, Yannis L.", 
"Constantinos, Apostolou; Kousoulos, Constantinos; Dotsikas, Yannis; Soumelas, Georgios Stefanos; Kolocouri, Filomila; Ziaka, Afroditi & Loukas, Yannis L.", 
"Constantinos, Kousoulos; Tsatsou, Georgia; Apostolou, Constantinos; Dotsikas, Yannis & Loukas, Yannis", 
"Corine, Ekhart; Gebretensae, Abadi; Rosing, Hilde; Rodenhuis, Sjoerd; Beijnen, Jos H. & Huitema, Alwin D. R.", 
"Costa, Ferreira Sergio Luis; Bruns, Roy Edward; da Silva, Erik Galvpo Paranhos; dos Santos, Walter Nei Lopes; Quintella, Cristina Maria; David, Jorge Mauricio; de Andrade, Jailson Bittencourt; Breitkreitz, Marcia Cristina; Jardim, Isabel Cristina Sales Fontes & Neto, Benicio Barros", 
"Costa, Queiroz Regina Helena; Bertucci, Carlo; Malfarb, Wilson Roberto; Dreossi, S�nia Aparecida Carvalho; Chaves, Andrqa Rodrigues; Valqrio, Daniel Augusto Rodrigues & Queiroz, Maria EugWnia Costa", 
"Cui, Shuangjin; Fang, Feng; Han, Liu & Ming, Ma", "D., Blessborn; Neamin, G.; Bergqvist, Y. & Lindegsrdh, N.", 
"D., Fraier; Frigerio, E.; Brianceschi, G. & James, C. A.", "D., Grotto; Santa Maria, L. D.; Boeira, S.; Valentini, J.; Charpo, M. F.; Moro, A. M.; Nascimento, P. C.; Pomblum, V. J. & Garcia, S. C.", 
"D., Hawker Charles; Garr, Susan B.; Hamilton, Leslie T.; Penrose, John R.; Ashwood, Edward R. & Weiss, Ronald L.", 
"D., Hawker Charles; Roberts, William L.; Garr, Susan B.; Hamilton, Leslie T.; Penrose, John R.; Ashwood, Edward R. & Weiss, Ronald L.", 
"D., Heath Dennis; Pruitt, Milagros A.; Brenner, Dean E.; Begum, Aynun N.; Frautschy, Sally A. & Rock, Cheryl L.", 
"D., Jovanovic & Vukovic, S.", "D., McCullough B.", "D., McCullough B. & Vinod, H. D.", 
"D., McCullough B. & Wilson, B.", "D., Mendes Gustavo; Hamamoto, Daniele; Ilha, Jaime; Pereira, Alberto dos Santos & De Nucci, Gilberto", 
"do, Borges Ney Carter; Mendes, Gustavo D.; Barrientos-Astigarraga, Rafael E.; Galvinas, Paulo; Oliveira, Celso H. & De Nucci, Gilberto", 
"hui, Liu Chang; Huang, Xiao tao; Zhang, Rong; Yang, Lei; Huang, Tian lai; Wang, Ning sheng & Mi, Sui qing", 
"jing, Chen Zhang; Zhang, Jing; Yu, Ji cheng; Cao, Guo ying; Wu, Xiao jie & Shi, Yao guo", 
"jun, Dao Yi; Jiao, Zheng & Zhong, Ming kang", "lan, Feng Shi; Hu, Fang di; Zhao, Jian xiong; Liu, Xi & Li, Y.", 
"ming, Huang Jian; Wang, Guo quan; Jin, Yu; Shen, Teng & Weng, Weiyu", 
"nhaug, Halvorsen Trine Gr; Pedersen-Bjergaard, Stig & Rasmussen, Knut E.", 
"qing, Liu Hua; Su, Meng xiang; Di, Bin; Hang, Tai jun; Hu, Ying; Tian, Xiao qin; Zhang, Yin di & Shen, Jian ping", 
"qing, Liu Yun; Chen, Qi yuan; Chen, Ben Mei; Liu, Shao gang; Deng, Fu liang & Zhou, Ping", 
"ying, Lee Chun & Lee, Yung-jin"), class = "factor"), Title = structure(c(29L, 
23L, 24L, 9L, 10L, 15L, 8L, 18L, 11L, 21L, 20L, 3L, 3L, 3L, 12L, 
25L, 26L, 19L, 16L, 2L, 14L, 22L, 6L, 7L, 27L, 13L, 5L, 4L, 28L, 
17L, 1L), .Label = c("Anastrozole quantification in human plasma by high-performance liquid chromatography coupled to photospray tandem mass spectrometry applied to pharmacokinetic studies", 
"A new approach to evaluate stability of amodiaquine and its metabolite in blood and plasma", 
"An improved and fully validated LC-MS/MS method for the simultaneous quantification of simvastatin and simvastatin acid in human plasma", 
"Assessing the reliability of statistical software: Part I", 
"Assessing the reliability of statistical software: Part II", 
"Automated Transport and Sorting System in a Large Reference Laboratory: Part 1. Evaluation of Needs and Alternatives and Development of a Plan", 
"Automated Transport and Sorting System in a Large Reference Laboratory: Part 2. Implementation of the System and Performance Measures over Three Years", 
"Determination of CQP propionic acid in rat plasma and study of pharmacokinetics of CQP propionic acid in rats by liquid chromatography", 
"Determination of eleutheroside E and eleutheroside B in rat plasma and tissue by high-performance liquid chromatography using solid-phase extraction and photodiode array detection", 
"Determination of palmatine in canine plasma by liquid chromatography-tandem mass spectrometry with solid-phase extraction", 
"Development and validation of a liquid chromatography-tandem mass spectrometry method for the determination of xanthinol in human plasma and its application in a bioequivalence study of xanthinol nicotinate tablets", 
"Development of a high-throughput method for the determination of itraconazole and its hydroxy metabolite in human plasma, employing automated liquidG��liquid extraction based on 96-well format plates and LC/MS/MS", 
"Generation of quasi-stationary magnetic fields in turbulent plasmas", 
"LC-MS-MS determination of nemorubicin (methoxymorpholinyldoxorubicin, PNU-152243A) and its 13-OH metabolite (PNU-155051A) in human plasma", 
"Liquid-phase microextraction and capillary electrophoresis of citalopram, an antidepressant drug", 
"New method for high-performance liquid chromatographic determination of amantadine and its analogues in rat plasma", 
"On the accuracy of statistical procedures in Microsoft Excel 97", 
"PKfit - A Pharmacokinetic Data Analaysis Tool in R", "Quantification of carbamazepine, carbamazepine-10,11-epoxide, phenytoin and phenobarbital in plasma samples by stir bar-sorptive extraction and liquid chromatography", 
"Quantitative determination of donepezil in human plasma by liquid chromatography/tandem mass spectrometry employing an automated liquid-liquid extraction based on 96-well format plates: Application to a bioequivalence study", 
"Quantitative determination of erythromycylamine in human plasma by liquid chromatography-mass spectrometry and its application in a bioequivalence study of dirithromycin", 
"Rapid quantification of malondialdehyde in plasma by high performance liquid chromatography-visible detection", 
"Selective method for the determination of cefdinir in human plasma using liquid chromatography electrospray ionization tandam mass spectrometry", 
"Simultaneous determination of aciclovir, ganciclovir, and penciclovir in human plasma by high-performance liquid chromatography with fluorescence detection", 
"Simultaneous quantification of cyclophosphamide and its active metabolite 4-hydroxycyclophosphamide in human plasma by high-performance liquid chromatography coupled with electrospray ionization tandem mass spectrometry (LC-MS/MS)", 
"Statistical designs and response surface techniques for the optimization of chromatographic systems", 
"Tetrahydrocurcumin in plasma and urine: Quantitation by high performance liquid chromatography", 
"The numerical reliability of econometric software", "Verapamil quantification in human plasma by liquid chromatography coupled to tandem mass spectrometry: An application for bioequivalence study"
), class = "factor"), Journal = structure(c(7L, 7L, 7L, 5L, 7L, 
6L, 7L, 1L, 7L, 7L, 7L, 9L, 9L, 9L, 2L, 7L, 6L, 9L, 9L, 9L, 9L, 
9L, 3L, 3L, 7L, 10L, 11L, 11L, 8L, 4L, 7L), .Label = c("", "Analytical and Bioanalytical Chemistry", 
"Clinical Chemistry", "Computational Statistics and Data Analysis", 
"European Journal of Pharmaceutics and Biopharmaceutics", "Journal of Chromatography A", 
"Journal of Chromatography B", "Journal of Economic Literature", 
"Journal of Pharmaceutical and Biomedical Analysis", "Physica B+C", 
"The American Statistician"), class = "factor"), Custom3 = structure(c(8L, 
9L, 11L, 17L, 25L, 19L, 24L, 27L, 12L, 22L, 2L, 5L, 5L, 6L, 3L, 
1L, 20L, 23L, 13L, 14L, 4L, 7L, 21L, 16L, 15L, 26L, 28L, 28L, 
28L, 10L, 18L), .Label = c("4-Hydroxycyclophosphamide/Accuracy/Active metabolite/Assay/Chromatography/Cyclophosphamide/Determination/Electrospray/Electrospray ionization/Electrospray ionization tandem mass spectrometry/High performance liquid chromatography/High-performance liquid chromatography/Human/Human plasma/Internal standard/LC-MS/MS/Liquid chromatography/Liquid chromatography tandem mass spectrometry/Mass spectrometry/Metabolite/Pharmacokinetic/Pharmacokinetics/Plasma/Precipitation/Precision/Protein precipitation/Quantification/Sample preparation/Tandem mass spectrometry", 
"96-Well/96-Well format/Analytical/Automated liquid-liquid extraction/bioequivalence/Bioequivalence study/Determination/Donepezil/Electrospray/Electrospray ionization/Extraction/Freezing/High throughput/High-throughput/Human/Human plasma/Human-plasma/LC-MS/MS/Liquid chromatography/tandem mass spectrometry/Liquid-liquid extraction/Loratadine/Mass spectrometry/Plasma/Plasma samples/Quantitative/Sample preparation/Tablet/Validation", 
"96-Well/96-Well format/Assay/bioequivalence/Bioequivalence study/Determination/Electrospray/Electrospray ionization/Extraction/Freezing/High throughput/High-throughput/Human/Human plasma/Human-plasma/Interface/Internal standard/LC/MS/MS/LLE/Mass spectrometry/Metabolite/Monitoring/MRM/Parallel sample processing/Plasma/Plasma sample/Plasma samples/Precision/Quality control/Quantification/Simultaneous quantification/Tablet", 
"96-Well/96-well plates/Accuracy/Analysis/Determination/Doxorubicin/Doxorubicin derivative/Extraction/Human/Human plasma/Human-plasma/In vivo/Interface/Interference/Internal standard/Ionspray/LC-MS-MS/LC-MS-MS determination/Liquid chromatography tandem mass spectrometry/Liquid chromatography-tandem mass spectrometry/Mass spectrometry/Metabolite/Methoxymorpholinyldoxorubicin/Monitoring/Multiple reaction monitoring/Nemorubicin/Patients/Plasma/Plasma samples/Precision/Quantitative/Quantitative determination/Residue/Solid phase extraction/SPE", 
"96-Well/Analysis/Analytical/APCI/Atmospheric pressure chemical ionization/bioequivalence/Bioequivalence study/Determination/Electrospray/ESI/Extraction/Fully automated/High throughput/High-throughput/Human/Human plasma/Human-plasma/Improved/Internal standard/LC-MS/MS/LC-MS/MS method/Linearity/Liquid chromatography/tandem mass spectrometry/Liquid-liquid extraction/LLE/Lovastatin/Mass spectrometry/Plasma/Plasma sample/Plasma samples/Polarity switch/Precipitation/Precision/Protein precipitation/Quantification/Sample preparation/Simultaneous determination/Simultaneous quantification/Simvastatin/Simvastatin acid/Specificity/Tablet/Two-step extraction", 
"96-Well/Atmospheric pressure chemical ionization/bioequivalence/Electrospray/High throughput/High-throughput/Human plasma/LC-MS/MS/Liquid-liquid extraction/Plasma/Polarity switch/Protein precipitation/Sample preparation/Simvastatin/Two-step extraction", 
"Accuracy/Alkaline hydrolysis/Analytical/Assay/Bias/Deproteinization/Derivatization/Determination/Extraction/HPLC-VIS/Human plasma/Malondialdehyde/MDA/n-Butanol extraction/Phosphate/Plasma/Quantification/Reproducibility/Stability", 
"Accuracy/Analysis/Analytical/bioequivalence/Bioequivalence study/Chromatography/Determination/Electrospray/Electrospray ionization/ESI/Extraction/Formulation/Human/Human plasma/Human-plasma/Imprecision/Internal standard/LC-MS/MS/Liquid chromatography/Liquid-liquid extraction/Mass spectrometry/Metoprolol/Monitoring/MRM/Plasma/Plasma samples/Quantification/Tablet/Tandem mass spectrometry/Verapamil", 
"Accuracy/Cefdinir/Chromatography/Determination/Electrospray/Electrospray ionization/Healthy volunteer/Human/Human plasma/Human-plasma/LC/LC-MS/MS/Liquid chromatography/Mass spectrometry/Method validation/Monitoring/MS/MS/Pharmacokinetic/Pharmacokinetic profile/Plasma/Precipitation/Protein precipitation/Quantification/Three/Triple quadrupole/Validation/Water/Waters", 
"Accuracy/statistics/reliability/testing", "Aciclovir/Assay/Bias/Chromatography/Determination/Ganciclovir/High performance liquid chromatography/High-performance liquid chromatography/HPLC/HPLC method/Human/Human plasma/Liquid chromatography/Penciclovir/Pharmacokinetic/Pharmacokinetic study/Plasma/Precipitation/Protein precipitation/Three", 
"Acyclovir/bioequivalence/Electrospray/Extraction/Human/Human plasma/Liquid chromatography-tandem mass spectrometry/Liquid chromatography/tandem mass spectrometry/Mass spectrometry/Plasma/Precipitation/Protein precipitation/Quantification/Validation/Xanthinol nicotinate", 
"Amantadine/Anthraquinone-2-sulfonyl chloride/Derivatization/Determination/HPLC/Memantine/Pharmacokinetic/Pharmacokinetic studies/Pharmacokinetic study/Plasma/Quantification/Rat/Rat plasma/Rimantadine/Three/UV/UV detection", 
"Amodiaquine/Analysis/Antimalarial/Bias/Blood/Chloroquine/Desethylamodiaquine/Liquid chromatography/Metabolite/Plasma/Simultaneous analysis/solid-phase extraction/Stability/Whole blood", 
"Analysis/Analytical/Blood/Chromatography/Curcumin/High performance liquid chromatography/HPLC/Internal standard/Liquid chromatography/Metabolite/Metabolites/Methods/Plasma/Quantification/Quantitation/Tetrahydrocurcumin/Urine/UV/UV detection/UV-detection", 
"Analysis/Automation/Linear/Methods/Three", "Analysis/Blood/Chromatography/Determination/Eleutherococcus injection/Eleutheroside B/Eleutheroside E/Extraction/High performance liquid chromatography/High-performance liquid chromatography/HPLC/HPLC method/Liquid chromatography/Model/Pharmacokinetic/Pharmacokinetic studies/Pharmacokinetic study/Pharmacokinetics/Plasma/Rat/Rat plasma/Rats/Sample preparation/Solid phase extraction/solid-phase extraction/Tissue distribution", 
"Analytical/Anastrazole/Anastrozole/Chromatography/Extraction/Healthy volunteer/High performance liquid chromatography/High-performance liquid chromatography/HPLC-MS-MS/Human/Human plasma/Human-plasma/Internal standard/Liquid chromatography/Liquid-liquid extraction/Mass spectrometry/Pharmacokinetic/Pharmacokinetic studies/Pharmacokinetic study/Pharmacokinetics/Photospray/Plasma/Quantification/Tandem mass spectrometry", 
"Antidepressant/Antidepressant drug/Basic drugs/Capillary electrophoresis/CE/Citalopram/Detection/Drugs/Extraction/Hollow fibre/HPLC/HPLC method/Human/Human plasma/Human-plasma/liquid phase microextraction/Liquid-phase microextraction/LPME/Metabolite/Methods/Microextraction/N-Desmethylcitalopram/Phosphate/Plasma/Plasma sample/Plasma samples/Proteins/Quantification", 
"Applications/Box-Behnken design/Box-Benhken design/Central composite design/Chromatographic methods/Determination/DOE/Doehlert matrix/Extraction/Methodology/Methods/Model/Multivariate techniques/Optimization/paper/Review/Sample preparation/Validation", 
"Automation/Improved/Methods", "bioequivalence/Bioequivalence study/Determination/Dirithromycin/Electrospray/Electrospray ionization/Erythromycylamine/Extraction/Human/Human plasma/LC-MS/Plasma/Precision/Quantification/Residue", 
"Carbamazepine/Carbamazepine-10,11-epoxide/Extraction/High-performance liquid chromatography/Liquid chromatography/Optimization/Phenobarbital/Phenytoin/Plasma/Quantification/Stir bar-sorptive extraction/Therapeutic drug monitoring/Three", 
"Chromatography/CQP propionic acid/Determination/Extraction/Liquid chromatography/Pharmacokinetic/Pharmacokinetic studies/Pharmacokinetic study/Pharmacokinetics/Plasma/Rat/Rat plasma/Solid phase extraction/solid-phase extraction/UV", 
"Determination/Dog/Electrospray/Electrospray ionization/Extraction/High-performance liquid chromatography-tandem mass spectrometry/HPLC-MS-MS/Internal standard/Jatrorrhizine/LC-MS-MS/Liquid chromatography tandem mass spectrometry/Liquid chromatography-tandem mass spectrometry/Mass spectrometry/Oasis/Palmatine/Pharmacokinetic/Pharmacokinetic studies/Pharmacokinetic study/Pharmacokinetics/Plasma/Plasma samples/Quantification/Solid phase extraction/solid-phase extraction/SPE/Water/Waters", 
"Interaction/Plasma/Turbulence/Turbulent plasmas", "Pharmacokinetic/R", 
"Software/statistics/reliability/testing"), class = "factor")), .Names = c("BibliographyType", 
"Author", "Title", "Journal", "Custom3"), row.names = c(1L, 2L, 
3L, 4L, 5L, 6L, 7L, 8L, 9L, 10L, 270L, 271L, 272L, 273L, 274L, 
275L, 276L, 277L, 278L, 279L, 280L, 281L, 282L, 283L, 284L, 285L, 
286L, 287L, 288L, 289L, 290L), class = "data.frame")

So that's my example data. Here I manually loop over the data and build a narrow result dataframe, that I could turn into my desired result using melt/reshape.

rm("res","l","keyw","resu")

res<-data.frame(Journal=NA) #  Create result dataframe
res[keywordlist]<-NA # Create keyword columns

l<-1
resu<-data.frame(Journal=NA,Keyword=NA, Count=0)

for(n in 1:nrow(bib)){ #  Loop over entries,
    message(n)
    keyw<-strsplit(as.character(bib$Custom3[n]),"/")[[1]]
    if(length(keyw)>0){ #  If there was a keyword....
        for(i in 1:length(keyw)){ #  for each keyword, add a line with Journal, Keyword, 1
            message(paste("i is ",i,sep=""))
            message(paste("l is ",l,sep=""))
            message(paste("journal ",bib$Journal[n],sep=""))
            resu[l,]<-c(as.character(bib$Journal[n]),keyw[i],1)
            message(paste("Keyword is ",keyw[i],sep=""))
            resu$Count[l]<-1
            l<-l+1
        }}
}

#Now use ddply to summarise
keywordtable<-ddply(resu, c("Journal","Keyword"),function(df) {
            result<-data.frame(Journal=df$Journal[1], Keyword=df$Keyword[1], Count=sum(as.numeric(df$Count)))
            return(result)
        })

Now I can take the highest scores and plot a 'heatmap' style graph.

trimkeyword<-subset(keywordtable,!(Journal == "") & Count > 5, drop=TRUE)
trimkeyword$Journal<-droplevels(trimkeyword$Journal)
trimkeyword$Keyword<-droplevels(trimkeyword$Keyword)

qplot(data=trimkeyword, x=Journal, y=Count)

p <- ggplot(trimkeyword, aes(Journal, Keyword)) + geom_tile(aes(fill = Count),colour = "white") + 
        scale_fill_gradient(low = "white", high = "steelblue")

base_size <- 6
p<-p + theme_grey(base_size = base_size) + labs(x = "", y = "") + 
        scale_x_discrete(expand = c(0, 0)) +
        scale_y_discrete(expand = c(0, 0)) + 
        opts(legend.position = "none", axis.ticks = theme_blank(), 
                axis.text.x = theme_text(size = base_size *0.8, 
                        angle = 330, hjust = 0, colour = "grey50"))

print(p)

Anyone else want to suggest anything ?

Other things that come to mind are;

  • Are there any good ways (in R) to weed out sets of keywords that have the same meaning (ie cat, cats, feline, pussy could all be replaced with cat)
  • Is there a way to build the table without looping

EDIT: I've replaced the dummy data with something that's more representative.

share|improve this question
    
You may want to provide a different subset of your data because there are no observations in keywordtable with Count > 5, so the plots don't work if you run your example. –  Joshua Ulrich Oct 23 '10 at 21:06
    
this is very impressive so far. You may want to extend it by normalizing the data first (removing formatting) with tolower() and gsub replacing "-" with " " and any other characters, that way you can match simple dupes. –  Brandon Bertelsen Oct 24 '10 at 8:22
    
Just for notice: instead of if(length(keyw)>0){ for(i in 1:length(keyw)) ... you could use for (i in seq_len(keyw)) which will be empty loop for 0-length vector. –  Marek Oct 25 '10 at 7:20

3 Answers 3

up vote 2 down vote accepted

here is a much shorter piece of code to get to keywordtable from the data frame bib

# create list of keywords by journal
res = dlply(bib, .(Journal), summarize, 
            keyw = strsplit(as.character(Custom3), "/"));

# convert into dataframe
res = melt(unlist(res));


res$journal   = rownames(res);
names(res)[1] = 'keyword';
rownames(res) = NULL;

res$journal = with(res, gsub('.keyw', "", journal));
res$journal = with(res, gsub('[[:digit:]]', "", journal));
res$keyword = tolower(res$keyword);

keywordtable = ddply(res, .(journal, keyword), summarize, 
               count = length(keyword));

An alternate visualization would be to create a word cloud of keywords using the snippets package. Here is the code to do that:

library(snippets);
keywords = table(res$keyword);
cloud(keywords, col = col.br(keywords, fit=TRUE))
share|improve this answer

Here's a slightly refactored version of your manipulations (I don't know much about ggplot2).

bib <- bib[bib$Journal != "",]

resu <- NULL
for(i in 1:nrow(bib)) {
  resu <- rbind(resu,
    data.frame( Journal=as.character(bib$Journal[i]),
                Keyword=strsplit(as.character(bib$Custom3[i]),"/")[[1]],
                Count=1, stringsAsFactors=FALSE ))
}

keywordtable <- aggregate(resu[,"Count",FALSE],
                  by=resu[,c("Journal","Keyword")], sum)

trimkeyword <- subset(keywordtable, Count > 0, drop=TRUE)
trimkeyword <- trimkeyword[order(trimkeyword$Journal,trimkeyword$Keyword),]
trimkeyword$Journal <- factor(trimkeyword$Journal)
trimkeyword$Keyword <- factor(trimkeyword$Keyword)
share|improve this answer

Take a look at the text mining package - tm

http://cran.r-project.org/web/packages/tm/index.html

share|improve this answer
    
I had found the tmpackage, and while it does have a vignette I didn't spot anything in that or the help that popped out to help my issue. I'll keep looking at it though. –  PaulHurleyuk Oct 25 '10 at 21:30

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