From 2c3688aac2f51e51d9b7b88a9fa1d59c1a25350e Mon Sep 17 00:00:00 2001 From: Josh de Leeuw Date: Wed, 3 Jan 2018 15:50:11 -0500 Subject: [PATCH] Deployed dee50c2 with MkDocs version: 0.17.2 --- CNAME | 1 + about/about/index.html | 2 -- search/search_index.json | 4 ++-- 3 files changed, 3 insertions(+), 4 deletions(-) create mode 100755 CNAME diff --git a/CNAME b/CNAME new file mode 100755 index 00000000..85414296 --- /dev/null +++ b/CNAME @@ -0,0 +1 @@ +www.jspsych.org diff --git a/about/about/index.html b/about/about/index.html index e194d71c..700aad73 100755 --- a/about/about/index.html +++ b/about/about/index.html @@ -1128,8 +1128,6 @@
  • Pinet, S., Zielinski, C., Mathôt, S. et al. (in press). Measuring sequences of keystrokes with jsPsych: Reliability of response times and interkeystroke intervals. Behavior Research Methods.
  • Reimers, S., & Stewart, N. (2015). Presentation and response time accuracy in Adobe Flash and HTML5/JavaScript Web experiments. Behavior Research Methods, 47(2), 309-327.
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    -

    Documentation generated with mkdocs

    diff --git a/search/search_index.json b/search/search_index.json index 64f73d31..3c34b74c 100755 --- a/search/search_index.json +++ b/search/search_index.json @@ -3112,7 +3112,7 @@ }, { "location": "/about/about/", - "text": "About jsPsych\n\u00b6\n\n\njsPsych was created by \nJosh de Leeuw\n. There have been \nmany other contributors\n to the library; thanks to all of them!\n\n\nCitation\n\u00b6\n\n\nIf you use jsPsych for academic work please cite the following paper.\n\n\nde Leeuw, J. R. (2015). jsPsych: A JavaScript library for creating behavioral experiments in a web browser. \nBehavior Research Methods\n, \n47\n(1), 1-12. doi:10.3758/s13428-014-0458-y.\n\n\nResponse times\n\u00b6\n\n\nWondering if jsPsych can be used for research that depends on accurate response time measurement? For most purposes, the answer is yes. Response time measurements in jsPsych (and JavaScript in general) are comparable to those taken in standard lab software like Psychophysics Toolbox and E-Prime. Response times measured in JavaScript tend to be a little bit longer (10-40ms), but have similar variance. See the following references for extensive work on this topic.\n\n\n\n\nde Leeuw, J. R., & Motz, B. A. (2016). Psychophysics in a Web browser? Comparing response times collected with JavaScript and Psychophysics Toolbox in a visual search task. \nBehavior Research Methods\n, \n48\n(1), 1-12.\n\n\nHilbig, B. E. (2016). Reaction time effects in lab- versus web-based research: Experimental evidence. \nBehavior Research Methods\n, \n48\n(4), 1718-1724.\n\n\nPinet, S., Zielinski, C., Math\u00f4t, S. et al. (in press). Measuring sequences of keystrokes with jsPsych: Reliability of response times and interkeystroke intervals. \nBehavior Research Methods\n.\n\n\nReimers, S., & Stewart, N. (2015). Presentation and response time accuracy in Adobe Flash and HTML5/JavaScript Web experiments. \nBehavior Research Methods\n, \n47\n(2), 309-327.\n\n\n\n\n\n\nDocumentation generated with \nmkdocs", + "text": "About jsPsych\n\u00b6\n\n\njsPsych was created by \nJosh de Leeuw\n. There have been \nmany other contributors\n to the library; thanks to all of them!\n\n\nCitation\n\u00b6\n\n\nIf you use jsPsych for academic work please cite the following paper.\n\n\nde Leeuw, J. R. (2015). jsPsych: A JavaScript library for creating behavioral experiments in a web browser. \nBehavior Research Methods\n, \n47\n(1), 1-12. doi:10.3758/s13428-014-0458-y.\n\n\nResponse times\n\u00b6\n\n\nWondering if jsPsych can be used for research that depends on accurate response time measurement? For most purposes, the answer is yes. Response time measurements in jsPsych (and JavaScript in general) are comparable to those taken in standard lab software like Psychophysics Toolbox and E-Prime. Response times measured in JavaScript tend to be a little bit longer (10-40ms), but have similar variance. See the following references for extensive work on this topic.\n\n\n\n\nde Leeuw, J. R., & Motz, B. A. (2016). Psychophysics in a Web browser? Comparing response times collected with JavaScript and Psychophysics Toolbox in a visual search task. \nBehavior Research Methods\n, \n48\n(1), 1-12.\n\n\nHilbig, B. E. (2016). Reaction time effects in lab- versus web-based research: Experimental evidence. \nBehavior Research Methods\n, \n48\n(4), 1718-1724.\n\n\nPinet, S., Zielinski, C., Math\u00f4t, S. et al. (in press). Measuring sequences of keystrokes with jsPsych: Reliability of response times and interkeystroke intervals. \nBehavior Research Methods\n.\n\n\nReimers, S., & Stewart, N. (2015). Presentation and response time accuracy in Adobe Flash and HTML5/JavaScript Web experiments. \nBehavior Research Methods\n, \n47\n(2), 309-327.", "title": "About jsPsych" }, { @@ -3127,7 +3127,7 @@ }, { "location": "/about/about/#response-times", - "text": "Wondering if jsPsych can be used for research that depends on accurate response time measurement? For most purposes, the answer is yes. Response time measurements in jsPsych (and JavaScript in general) are comparable to those taken in standard lab software like Psychophysics Toolbox and E-Prime. Response times measured in JavaScript tend to be a little bit longer (10-40ms), but have similar variance. See the following references for extensive work on this topic. de Leeuw, J. R., & Motz, B. A. (2016). Psychophysics in a Web browser? Comparing response times collected with JavaScript and Psychophysics Toolbox in a visual search task. Behavior Research Methods , 48 (1), 1-12. Hilbig, B. E. (2016). Reaction time effects in lab- versus web-based research: Experimental evidence. Behavior Research Methods , 48 (4), 1718-1724. Pinet, S., Zielinski, C., Math\u00f4t, S. et al. (in press). Measuring sequences of keystrokes with jsPsych: Reliability of response times and interkeystroke intervals. Behavior Research Methods . Reimers, S., & Stewart, N. (2015). Presentation and response time accuracy in Adobe Flash and HTML5/JavaScript Web experiments. Behavior Research Methods , 47 (2), 309-327. Documentation generated with mkdocs", + "text": "Wondering if jsPsych can be used for research that depends on accurate response time measurement? For most purposes, the answer is yes. Response time measurements in jsPsych (and JavaScript in general) are comparable to those taken in standard lab software like Psychophysics Toolbox and E-Prime. Response times measured in JavaScript tend to be a little bit longer (10-40ms), but have similar variance. See the following references for extensive work on this topic. de Leeuw, J. R., & Motz, B. A. (2016). Psychophysics in a Web browser? Comparing response times collected with JavaScript and Psychophysics Toolbox in a visual search task. Behavior Research Methods , 48 (1), 1-12. Hilbig, B. E. (2016). Reaction time effects in lab- versus web-based research: Experimental evidence. Behavior Research Methods , 48 (4), 1718-1724. Pinet, S., Zielinski, C., Math\u00f4t, S. et al. (in press). Measuring sequences of keystrokes with jsPsych: Reliability of response times and interkeystroke intervals. Behavior Research Methods . Reimers, S., & Stewart, N. (2015). Presentation and response time accuracy in Adobe Flash and HTML5/JavaScript Web experiments. Behavior Research Methods , 47 (2), 309-327.", "title": "Response times" }, {