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Paper: Added interface screenshot and box plot example
author Brecht De Man <b.deman@qmul.ac.uk>
date Thu, 15 Oct 2015 20:10:00 +0100
parents c1b548fbb87c
children 60fffb9e291c
rev   line source
b@308 1 \documentclass{sig-alternate}
b@318 2 \usepackage{hyperref} % make links (like references, links to Sections, ...) clickable
b@318 3 \usepackage{enumitem} % tighten itemize etc by appending '[noitemsep,nolistsep]'
d@321 4 \usepackage{cleveref}
b@308 5
b@329 6 \graphicspath{{img/}} % put the images in this folder
b@329 7
b@308 8 \begin{document}
b@308 9
b@308 10 % Copyright
b@308 11 \setcopyright{waclicense}
b@308 12
b@308 13
b@308 14 %% DOI
b@308 15 %\doi{10.475/123_4}
b@308 16 %
b@308 17 %% ISBN
b@308 18 %\isbn{123-4567-24-567/08/06}
b@308 19 %
b@308 20 %%Conference
b@308 21 %\conferenceinfo{PLDI '13}{June 16--19, 2013, Seattle, WA, USA}
b@308 22 %
b@308 23 %\acmPrice{\$15.00}
b@308 24
b@308 25 %
b@308 26 % --- Author Metadata here ---
b@308 27 \conferenceinfo{Web Audio Conference WAC-2016,}{April 4--6, 2016, Atlanta, USA}
b@308 28 \CopyrightYear{2016} % Allows default copyright year (20XX) to be over-ridden - IF NEED BE.
b@308 29 %\crdata{0-12345-67-8/90/01} % Allows default copyright data (0-89791-88-6/97/05) to be over-ridden - IF NEED BE.
b@308 30 % --- End of Author Metadata ---
b@308 31
b@320 32 \title{Web Audio Evaluation Tool: A framework for subjective assessment of audio}
b@308 33 %\subtitle{[Extended Abstract]
b@308 34 %\titlenote{A full version of this paper is available as
b@308 35 %\textit{Author's Guide to Preparing ACM SIG Proceedings Using
b@308 36 %\LaTeX$2_\epsilon$\ and BibTeX} at
b@308 37 %\texttt{www.acm.org/eaddress.htm}}}
b@308 38 %
b@308 39 % You need the command \numberofauthors to handle the 'placement
b@308 40 % and alignment' of the authors beneath the title.
b@308 41 %
b@308 42 % For aesthetic reasons, we recommend 'three authors at a time'
b@308 43 % i.e. three 'name/affiliation blocks' be placed beneath the title.
b@308 44 %
b@308 45 % NOTE: You are NOT restricted in how many 'rows' of
b@308 46 % "name/affiliations" may appear. We just ask that you restrict
b@308 47 % the number of 'columns' to three.
b@308 48 %
b@308 49 % Because of the available 'opening page real-estate'
b@308 50 % we ask you to refrain from putting more than six authors
b@308 51 % (two rows with three columns) beneath the article title.
b@308 52 % More than six makes the first-page appear very cluttered indeed.
b@308 53 %
b@308 54 % Use the \alignauthor commands to handle the names
b@308 55 % and affiliations for an 'aesthetic maximum' of six authors.
b@308 56 % Add names, affiliations, addresses for
b@308 57 % the seventh etc. author(s) as the argument for the
b@308 58 % \additionalauthors command.
b@308 59 % These 'additional authors' will be output/set for you
b@308 60 % without further effort on your part as the last section in
b@308 61 % the body of your article BEFORE References or any Appendices.
b@308 62
b@316 63 % FIVE authors instead of four, to leave space between first two authors.
d@310 64 \numberofauthors{5} % in this sample file, there are a *total*
b@308 65 % of EIGHT authors. SIX appear on the 'first-page' (for formatting
b@308 66 % reasons) and the remaining two appear in the \additionalauthors section.
b@308 67 %
b@308 68 \author{
b@308 69 % You can go ahead and credit any number of authors here,
b@308 70 % e.g. one 'row of three' or two rows (consisting of one row of three
b@308 71 % and a second row of one, two or three).
b@308 72 %
b@308 73 % The command \alignauthor (no curly braces needed) should
b@308 74 % precede each author name, affiliation/snail-mail address and
b@308 75 % e-mail address. Additionally, tag each line of
b@308 76 % affiliation/address with \affaddr, and tag the
b@308 77 % e-mail address with \email.
b@308 78 %
b@308 79 % 1st. author
b@308 80 \alignauthor Nicholas Jillings\\
b@308 81 \email{n.g.r.jillings@se14.qmul.ac.uk}
b@316 82 % dummy author for nicer spacing
b@316 83 \alignauthor
b@308 84 % 2nd. author
b@308 85 \alignauthor Brecht De Man\\
b@308 86 \email{b.deman@qmul.ac.uk}
b@308 87 \and % use '\and' if you need 'another row' of author names
b@308 88 % 3rd. author
b@308 89 \alignauthor David Moffat\\
b@308 90 \email{d.j.moffat@qmul.ac.uk}
b@308 91 % 4th. author
b@308 92 \alignauthor Joshua D. Reiss\\
b@308 93 \email{joshua.reiss@qmul.ac.uk}
b@316 94 \and % new line for address
nicholas@335 95 \affaddr{Centre for Digital Music, School of Electronic Engineering and Computer Science}\\
b@308 96 \affaddr{Queen Mary University of London}\\
b@308 97 \affaddr{Mile End Road,}
b@308 98 \affaddr{London E1 4NS}\\
b@308 99 \affaddr{United Kingdom}\\
b@308 100 }
b@308 101 %Centre for Digital Music, School of Electronic Engineering and Computer Science, Queen Mary University of London
b@308 102 %% 5th. author
b@308 103 %\alignauthor Sean Fogarty\\
b@308 104 % \affaddr{NASA Ames Research Center}\\
b@308 105 % \affaddr{Moffett Field}\\
b@308 106 % \email{fogartys@amesres.org}
b@308 107 %% 6th. author
b@308 108 %\alignauthor Charles Palmer\\
b@308 109 % \affaddr{Palmer Research Laboratories}\\
b@308 110 % \affaddr{8600 Datapoint Drive}\\
b@308 111 % \email{cpalmer@prl.com}
b@308 112 %}
b@308 113 % There's nothing stopping you putting the seventh, eighth, etc.
b@308 114 % author on the opening page (as the 'third row') but we ask,
b@308 115 % for aesthetic reasons that you place these 'additional authors'
b@308 116 % in the \additional authors block, viz.
b@308 117 %\additionalauthors{Additional authors: John Smith (The Th{\o}rv{\"a}ld Group,
b@308 118 %email: {\texttt{jsmith@affiliation.org}}) and Julius P.~Kumquat
b@308 119 %(The Kumquat Consortium, email: {\texttt{jpkumquat@consortium.net}}).}
b@308 120 \date{1 October 2015}
b@308 121 % Just remember to make sure that the TOTAL number of authors
b@308 122 % is the number that will appear on the first page PLUS the
b@308 123 % number that will appear in the \additionalauthors section.
b@308 124
b@308 125 \maketitle
b@308 126 \begin{abstract}
b@308 127 Here comes the abstract.
b@308 128 \end{abstract}
b@308 129
b@308 130
b@308 131 \section{Introduction}
b@317 132
b@317 133 % Listening tests/perceptual audio evaluation: what are they, why are they important
b@317 134 % As opposed to limited scope of WAC15 paper: also musical features, realism of sound effects / sound synthesis, performance of source separation and other algorithms...
nicholas@335 135 Perceptual evaluation of audio, in the form of listening tests, is a powerful way to assess anything from audio codec quality to realism of sound synthesis to the performance of source separation, automated music production and other auditory evaluations.
b@329 136 In less technical areas, the framework of a listening test can be used to measure emotional response to music or test cognitive abilities.
b@329 137 % maybe some references? If there's space.
b@317 138
b@318 139 % check out http://link.springer.com/article/10.1007/s10055-015-0270-8 - only paper that cited WAC15 paper
b@318 140
nicholas@328 141 % Why difficult? Challenges? What constitutes a good interface?
nicholas@328 142 % Technical, interfaces, user friendliness, reliability
nicholas@335 143 Several applications for performing perceptual listening tests currently exist, as can be seen in Table \ref{tab:toolboxes}. A review of existing listening test frameworks was undertaken and presented in~\Cref{tab:toolboxes}. HULTI-GEN~\cite{hultigen} is a single toolbox that presents the user with a large number of different test interfaces and allows for customisation of each test interface. The Web Audio Evaluation Toolbox (WAET) stands out as it does not require proprietary software or a specific platform. It also provides a wide range of interface and test types in one user friendly environment. Furthermore, it does not require any progamming experience as any test based on the default test types can be configured in the browser as well. Note that the design of an effective listening test further poses many challenges unrelated to interface design, which are beyond the scope of this paper \cite{bech}.
b@317 144
b@317 145 % Why in the browser?
nicholas@335 146 Web Audio API has important features for performing perceptual tests including sample level manipulation of audio streams \cite{schoeffler2015mushra} and the ability for synchronous and flexible playback. Being in the browser allows leveraging the flexible object oriented JavaScript language and native support for web documents, such as the extensible markup language (XML) which is used for configuration and test result files. Using the web also reduces deployment requirements to a basic web server with advanced functionality such as test collection and automatic processing using PHP. As recruiting participants can be very time-consuming, and as for some tests a large number of participants is needed, browser-based tests \cite{schoeffler2015mushra} can enable participants in multiple locations to perform the test. However, to our knowledge, no tool currently exists that allows the creation of a remotely accessible listening test.
b@329 147
nicholas@335 148 Both BeaqleJS \cite{beaqlejs} and mushraJS\footnote{https://github.com/akaroice/mushraJS} also operate in the browser. However BeaqleJS does not make use of the Web Audio API and therefore lacks arbitrary manipulation of audio stream samples, and neither offer an adequately wide choice of test designs for them to be useful to many researchers. %requires programming knowledge?...
b@316 149
b@316 150 % only browser-based?
d@321 151 \begin{table*}[ht]
n@334 152 \caption{Table with existing listening test platforms and their features}
n@334 153 \begin{center}
n@334 154 \begin{tabular}{|*{6}{l|}}
n@334 155 \hline
n@334 156 \textbf{Name} & \textbf{Ref.} & \textbf{Language} & \textbf{Interfaces} & \textbf{Remote} & \textbf{All UI} \\
n@334 157 \hline
n@334 158 APE & \cite{ape} & MATLAB & multi-stimulus, 1 axis per attribute & & \\
n@334 159 BeaqleJS & \cite{beaqlejs} & JavaScript & ABX, MUSHRA & (not natively supported) & \\
n@334 160 HULTI-GEN & \cite{hultigen} & MAX & See Table \ref{tab:toolbox_interfaces}& & \checkmark \\
n@334 161 mushraJS & & JavaScript & MUSHRA & \checkmark & \\
n@334 162 MUSHRAM & \cite{mushram} & MATLAB & MUSHRA & & \\
n@334 163 Scale & \cite{scale} & MATLAB & See Table \ref{tab:toolbox_interfaces} & & \\
n@334 164 WhisPER & \cite{whisper} & MATLAB & See Table \ref{tab:toolbox_interfaces} & & \checkmark \\
n@334 165 \textbf{WAET} & \cite{waet} & JavaScript & \textbf{All of the above} & \checkmark & \checkmark \\
n@334 166 \hline
n@334 167 \end{tabular}
n@334 168 \end{center}
n@334 169 \label{tab:toolboxes}
n@334 170 \end{table*}%
n@334 171
n@334 172 \begin{table*}[ht]
n@334 173 \caption{Table with interfaces and which toolboxes support them}
n@334 174 \begin{center}
n@334 175 \begin{tabular}{|*{5}{l|}}
n@334 176 \hline
n@334 177 \textbf{Interface} & \textbf{HULTI-GEN} & \textbf{Scale} & \textbf{WhisPER} & \textbf{WAET} \\
n@334 178 \hline
n@334 179 MUSHRA (ITU-R BS. 1534) & \checkmark & & & \checkmark \\
n@334 180 Rank scale & \checkmark & & & \checkmark \\
n@334 181 Likert scale & \checkmark & & \checkmark & \checkmark \\
n@334 182 ABC/HR (ITU-R BS. 1116) & \checkmark & & & \checkmark \\
n@334 183 -50 to 50 Bipolar with Ref & \checkmark & & & \checkmark \\
n@334 184 Absolute Category Rating (ACR) Scale & \checkmark & & & \checkmark \\
n@334 185 Degredation Category Rating (DCR) Scale & \checkmark & & & \checkmark \\
n@334 186 Comparison Category Rating (CCR) Scale & \checkmark & & \checkmark & \checkmark \\
n@334 187 9 Point Hedonic Category Rating Scale & \checkmark & & \checkmark & \checkmark \\
n@334 188 ITU-R 5 Point Continuous Impairment Scale & \checkmark & & & \checkmark \\
n@334 189 Pairwise Comparison / AB test & \checkmark & & & \checkmark \\
n@334 190 Multi-attribute ratings & \checkmark & & & \checkmark \\
n@334 191 ABX Test & \checkmark & & & \checkmark \\
n@334 192 Adaptive psychophysical methods & & & \checkmark & \\
n@334 193 Repertory Grid Technique (RGT) & & & \checkmark & \\
n@334 194 Semantic differential & & \checkmark & \checkmark & \\
n@334 195 n-Alternative Forced choice & & \checkmark & & \\
n@334 196
n@334 197 \hline
n@334 198 \end{tabular}
n@334 199 \end{center}
n@334 200 \label{tab:toolbox_interfaces}
n@334 201 \end{table*}%
b@316 202
b@316 203 %
nicholas@328 204 %Selling points: remote tests, visualisaton, create your own test in the browser, many interfaces, few/no dependencies, flexibility
b@317 205
nicholas@331 206 %[Talking about what we do in the various sections of this paper. Referring to \cite{waet}. ]
n@333 207 To meet the need for a cross-platform, versatile and easy-to-use listening test tool, we previously developed the Web Audio Evaluation Tool \cite{waet} which at the time of its inception was capable of running a listening test in the browser from an XML configuration file, and storing an XML file as well, with one particular interface. We have now expanded this into a tool with which a wide range of listening test types can easily be constructed and set up remotely, without any need for manually altering code or configuration files, and which allows visualisation of the collected results in the browser. In this paper, we discuss these different aspects and explore which future improvements would be possible. Specifically, in Section \ref{sec:architecture} we cover the general implementation aspects, with a focus on the Web Audio API, followed by a discussion of the requirements for successful remote tests in Section \ref{sec:remote}. Section \ref{sec:interfaces} describes the various interfaces the tool supports, as well as how to keep this manageable. Finally, in Section \ref{sec:analysis} we provide an overview of the analysis capabilities in the browser, before summarising our findings and listing future research directions in Section \ref{sec:conclusion}.
b@329 208
b@336 209 \begin{figure}[tb]
b@336 210 \centering
b@336 211 \includegraphics[width=.5\textwidth]{interface.png}
b@336 212 \caption{A simple example of a multi-stimulus, single attribute, single rating scale test with a reference and comment fields.}
b@336 213 \label{fig:interface}
b@336 214 \end{figure}
b@336 215
nicholas@328 216 \begin{comment}
b@320 217 % MEETING 8 OCTOBER
b@320 218 \subsection{Meeting 8 October}
b@320 219 \begin{itemize}
b@320 220 \item Do we manipulate audio?\\
b@320 221 \begin{itemize}
b@320 222 \item Add loudness equalisation? (test\_create.html) Tag with gains.
b@320 223 \item Add volume slider?
b@320 224 \item Cross-fade (in interface node): default 0, number of seconds
b@320 225 \item Also: we use the playback buffer to present metrics of which portion is listened to
b@320 226 \end{itemize}
b@320 227 \item Logging system information: whichever are possible (justify others)
b@320 228 \item Input streams as audioelements
b@320 229 \item Capture microphone to estimate loudness (especially Macbook)
b@320 230 \item Test page (in-built oscillators): left-right calibration, ramp up test tone until you hear it; optional compensating EQ (future work implementing own filters) --> Highlight issues!
b@320 231 \item Record IP address (PHP function, grab and append to XML file)
b@320 232 \item Expand anchor/reference options
b@320 233 \item AB / ABX
b@320 234 \end{itemize}
b@320 235
b@320 236 \subsubsection{Issues}
b@320 237 \begin{itemize}
b@320 238 \item Filters not consistent (Nick to test across browsers)
b@320 239 \item Playback audiobuffers need to be destroyed and rebuilt each time
b@320 240 \item Can't get channel data, hardware input/output...
b@320 241 \end{itemize}
nicholas@328 242 \end{comment}
b@316 243
b@317 244 \section{Architecture} % title? 'back end'? % NICK
n@334 245 \label{sec:architecture}
nicholas@331 246 %A slightly technical overview of the system. Talk about XML, JavaScript, Web Audio API, HTML5.
b@329 247
nicholas@335 248 Although WAET uses a sparse subset of the Web Audio API functionality, its performance comes directly from using it. Listening tests can convey large amounts of information other than obtaining the perceptual relationship between the audio fragments. With WAET it is possible to obtain which parts of the audio fragments were listened to and when, at what point in the audio stream the participant switched to a different fragment, and how a fragment's rating was adjusted over time within a session, to name a few. Not only does this allow evaluation of a wealth of perceptual aspects, but it helps detect poor participants whose results are potentially not representative.
nicholas@322 249
nicholas@335 250 One of the key initial design parameters for WAET was to make the tool as open as possible to non-programmers and to this end all of the user modifiable options are included in a single XML document. This document is called the specification document and can be designed either by manually writing the XML (or modifying an existing document or template) or using our included test creator. These are standalone HTML pages which do not require any server or internet connection and help a build the test specification document. The first (test\_create.html) is for simpler tests and operates step-by-step to guide the user. It supports media through drag and drop and a clutter free interface. The advanced version is for more advanced tests where raw XML manipulation is not wanted but the same freedom is required (whilst keeping a safety net). Both models support automatic verification to ensure the XML file is valid and will highlight areas which are either incorrect and would cause an error, or options which should be removed as they are blank.
nicholas@322 251
nicholas@335 252 The basic test creator utilises the Web Audio API to perform quick playback checks and also allows for loudness normalisation techniques inspired from \cite{ape}. These are calculated offline by accessing the raw audio samples exposed from the buffer before being applied to the audio element as a gain attribute. This is used in the test to perform loudness normalisation without needing to edit any audio files. Equally the gain can be modified in either editor using an HTML5 slider or number box.
nicholas@328 253
nicholas@331 254 %Describe and/or visualise audioholder-audioelement-... structure.
nicholas@335 255 The specification document contains the URL of the audio fragments for each test page. These fragments are downloaded asynchronously in the test and decoded offline by the Web Audio offline decoder. The resulting buffers are assigned to a custom Audio Objects node which tracks the fragment buffer, the playback bufferSourceNode, the XML information including its unique test ID, the interface object(s) associated with the fragment and any metric or data collection objects. The Audio Object is controlled by an over-arching custom Audio Context node (not to be confused with the Web Audio Context). This parent JS Node allows for session wide control of the Audio Objects including starting and stopping playback of specific nodes.
nicholas@322 256
nicholas@335 257 The only issue with this model is the bufferNode in the Web Audio API, which is implemented in the standard as a `use once' object. Once the bufferNode has been played, the bufferNode must be discarded as it cannot be instructed to play the same bufferSourceNode again. Therefore on each start request the buffer object must be created and then linked with the stored bufferSourceNode. This is an odd behaviour for such a simple object which has no alternative except to use the HTML5 audio element. However they do not have the ability to synchronously start on a given time and therefore not suited.
nicholas@322 258
nicholas@335 259 In the test, each buffer node is connected to a gain node which will operate at the level determined by the specification document. Therefore it is possible to perform a 'Method of Adjustment' test where an interface could directly manipulate these gain nodes. There is also an optional 'Master Volume' slider which can be shown on the test GUI. This slider modifies a gain node before the destination node. This slider can also be monitored and therefore its data tracked providing extra validation. This slider is not indicative of the final volume exiting the speakers and therefore its use should only be considered in a lab condition environment to ensure proper behaviour. Finally the gain nodes allow for cross-fading between samples when operating in synchronous playback. Cross-fading can either be fade-out fade-in or a true cross-fade.
nicholas@328 260
nicholas@331 261 %Which type of files? WAV, anything else? Perhaps not exhaustive list, but say something along the lines of 'whatever browser supports'. Compatability?
nicholas@335 262 The media files supported depend on the browser level support for the initial decoding of information and is the same as the browser support for the HTML5 audio element. The most widely supported media file is the wave (.WAV) format which is accpeted by every browser supporting the Web Audio API. The toolbox will work in any browser which supports the Web Audio API.
nicholas@322 263
nicholas@322 264 All the collected session data is returned in an XML document structured similarly to the configuration document, where test pages contain the audio elements with their trace collection, results, comments and any other interface-specific data points.
nicholas@322 265
b@316 266 \section{Remote tests} % with previous?
b@329 267 \label{sec:remote}
b@317 268
nicholas@335 269 If the experimenter is willing to trade some degree of control for a higher number of participants, the test can be hosted on a public web server so that participants can take part remotely. This way, a link can be shared widely in the hope of attracting a large amount of subjects, while listening conditions and subject reliability may be less ideal. However, a sound system calibration page and a wide range of metrics logged during the test mitigate these problems. In some experiments, it may be preferred that the subject has a `real life', familiar listening set-up, for instance when perceived quality differences on everyday sound systems are investigated.
b@317 270 Furthermore, a fully browser-based test, where the collection of the results is automatic, is more efficient and technically reliable even when the test still takes place under lab conditions.
b@317 271
b@315 272 The following features allow easy and effective remote testing:
b@329 273 \begin{description}[noitemsep,nolistsep]
b@329 274 \item[PHP script to collect result XML files] and store on central server.
b@329 275 \item[Randomly pick a specified number of pages] to ensure an equal and randomised spread of the different pages (`audioHolders') across participants.
b@329 276 \item[Calibration of the sound system (and participant)] by a perceptual pre-test to gather information about the frequency response and speaker configuration - this can be supplemented with a survey.
nicholas@322 277 % In theory calibration could be applied anywhere??
b@329 278 % \item Functionality to participate multiple times
b@329 279 % \begin{itemize}[noitemsep,nolistsep]
b@329 280 % \item Possible to log in with unique ID (no password)
b@329 281 % \item Pick `new user' (generates new, unique ID) or `already participated' (need already available ID)
b@329 282 % \item Store XML on server with IDs plus which audioholders have already been listened to
b@329 283 % \item Don't show `post-test' survey after first time
b@329 284 % \item Pick `new' audioholders if available
b@329 285 % \item Copy survey information first time to new XMLs
b@329 286 % \end{itemize}
b@329 287 \item[Intermediate saves] for tests which were interrupted or unfinished.
b@329 288 \item[Collect IP address information] for geographic location, through PHP function which grabs address and appends to XML file.
b@329 289 \item[Collect Browser and Display information] to the extent it is available and reliable.
b@329 290 \end{description}
b@315 291
b@308 292
b@316 293 \section{Interfaces} % title? 'Front end'? % Dave
b@329 294 \label{sec:interfaces}
d@321 295
nicholas@335 296 The purpose of this listening test framework is to allow any user the maximum flexibility to design a listening test for their exact application with minimum effort. To this end, a large range of standard listening test interfaces have been implemented.
d@321 297
b@323 298 To provide users with a flexible system, a large range of `standard' listening test interfaces have been implemented, including: % pretty much the same wording as two sentences earlier
d@321 299 \begin{itemize}[noitemsep,nolistsep]
d@321 300 \item MUSHRA (ITU-R BS. 1534)~\cite{recommendation20031534}
nicholas@332 301 \begin{itemize}[noitemsep,nolistsep]
d@321 302 \item Multiple stimuli are presented and rated on a continuous scale, which includes a reference, hidden reference and hidden anchors.
d@321 303 \end{itemize}
d@321 304 \item Rank Scale~\cite{pascoe1983evaluation}
nicholas@332 305 \begin{itemize}[noitemsep,nolistsep]
d@321 306 \item Stimuli ranked on single horizontal scale, where they are ordered in preference order.
d@321 307 \end{itemize}
d@321 308 \item Likert scale~\cite{likert1932technique}
nicholas@332 309 \begin{itemize}[noitemsep,nolistsep]
d@321 310 \item Each stimuli has a five point scale with values: Strongly Agree, Agree, Neutral, Disagree and Strongly Disagree.
d@321 311 \end{itemize}
d@321 312 \item ABC/HR (ITU-R BS. 1116)~\cite{recommendation19971116} (Mean Opinion Score: MOS)
nicholas@332 313 \begin{itemize}[noitemsep,nolistsep]
d@321 314 \item Each stimulus has a continuous scale (5-1), labeled as Imperceptible, Perceptible but not annoying, slightly annoying, annoying, very annoying.
d@321 315 \end{itemize}
d@321 316 \item -50 to 50 Bipolar with Ref
nicholas@332 317 \begin{itemize}[noitemsep,nolistsep]
d@321 318 \item Each stimulus has a continuous scale -50 to 50 with default values as 0 in middle and a comparison. There is also a provided reference \end{itemize}
d@321 319 \item Absolute Category Rating (ACR) Scale~\cite{rec1996p}
nicholas@332 320 \begin{itemize}[noitemsep,nolistsep]
d@321 321 \item Each stimuli has a five point scale with values: Bad, Poor, Fair, Good, Excellent
d@321 322 \end{itemize}
d@321 323 \item Degredation Category Rating (DCR) Scale~\cite{rec1996p}
nicholas@332 324 \begin{itemize}[noitemsep,nolistsep]
d@321 325 \item Each stimuli has a five point scale with values: (5) Inaudible, (4) Audible but not annoying, (3) slightly annoying, (2) annoying, (1) very annoying.
d@321 326 \end{itemize}
d@321 327 \item Comparison Category Rating (CCR) Scale~\cite{rec1996p}
nicholas@332 328 \begin{itemize}[noitemsep,nolistsep]
d@321 329 \item Each stimuli has a seven point scale with values: Much Better, Better, Slightly Better, About the same, slightly worse, worse, much worse. There is also a provided reference.
d@321 330 \end{itemize}
d@321 331 \item 9 Point Hedonic Category Rating Scale~\cite{peryam1952advanced}
nicholas@332 332 \begin{itemize}[noitemsep,nolistsep]
d@321 333 \item Each stimuli has a seven point scale with values: Like Extremely, Like Very Much, Like Moderate, Like Slightly, Neither Like nor Dislike, dislike Extremely, dislike Very Much, dislike Moderate, dislike Slightly. There is also a provided reference.
d@321 334 \end{itemize}
d@321 335 \item ITU-R 5 Point Continuous Impairment Scale~\cite{rec1997bs}
nicholas@332 336 \begin{itemize}[noitemsep,nolistsep]
d@321 337 \item Each stimuli has a five point scale with values: (5) Imperceptible, (4) Perceptible but not annoying, (3) slightly annoying, (2) annoying, (1) very annoying. There is also a provided reference.
d@321 338 \end{itemize}
d@321 339 \item Pairwise Comparison (Better/Worse)~\cite{david1963method}
nicholas@332 340 \begin{itemize}[noitemsep,nolistsep]
d@321 341 \item A reference is provided and ever stimulus is rated as being either better or worse than the reference.
d@321 342 \end{itemize}
d@321 343 \item APE style \cite{ape}
nicholas@332 344 \begin{itemize}[noitemsep,nolistsep]
d@321 345 \item Multiple stimuli on a single horizontal slider for inter-sample rating.
d@321 346 \end{itemize}
d@321 347 \item Multi attribute ratings
nicholas@332 348 \begin{itemize}[noitemsep,nolistsep]
d@321 349 \item Multiple stimuli as points on a 2D plane for inter-sample rating (eg. Valence Arousal)
d@321 350 \end{itemize}
d@321 351 \item AB Test~\cite{lipshitz1981great}
nicholas@332 352 \begin{itemize}[noitemsep,nolistsep]
d@321 353 \item Two stimuli are presented at a time and the participant has to select a preferred stimulus.
d@321 354 \end{itemize}
d@321 355 \item ABX Test~\cite{clark1982high}
nicholas@332 356 \begin{itemize}[noitemsep,nolistsep]
d@321 357 \item Two stimuli are presented along with a reference and the participant has to select a preferred stimulus, often the closest to the reference.
d@321 358 \end{itemize}
d@321 359 \end{itemize}
d@321 360
nicholas@335 361 It is possible to include any number of references, anchors, hidden references and hidden anchors into all of these listening test formats.
d@321 362
nicholas@335 363 Because of the design choice to separate the core code and interface modules, it is possible for a 3rd party interface to be built with minimal effort. The repository includes documentation on which functions must be called and the specific functions they expect your interface to perform. To this end, there is an `Interface' object which includes object prototypes for creating the on-page comment boxes (including those with radio or checkbox responses), start and stop buttons with function handles pre-attached and the playhead / transport bars.
n@326 364
d@321 365 %%%% \begin{itemize}[noitemsep,nolistsep]
d@321 366 %%%% \item (APE style) \cite{ape}
d@321 367 %%%% \item Multi attribute ratings
d@321 368 %%%% \item MUSHRA (ITU-R BS. 1534)~\cite{recommendation20031534}
d@321 369 %%%% \item Interval Scale~\cite{zacharov1999round}
d@321 370 %%%% \item Rank Scale~\cite{pascoe1983evaluation}
d@321 371 %%%%
d@321 372 %%%% \item 2D Plane rating - e.g. Valence vs. Arousal~\cite{carroll1969individual}
d@321 373 %%%% \item Likert scale~\cite{likert1932technique}
d@321 374 %%%%
d@321 375 %%%% \item {\bf All the following are the interfaces available in HULTI-GEN~\cite{hultigen} }
d@321 376 %%%% \item ABC/HR (ITU-R BS. 1116)~\cite{recommendation19971116}
d@321 377 %%%% \begin{itemize}
d@321 378 %%%% \item Continuous Scale (5-1) Imperceptible, Perceptible but not annoying, slightly annoying, annoying, very annoying. (default Inaudible?)
d@321 379 %%%% \end{itemize}
d@321 380 %%%% \item -50 to 50 Bipolar with Ref
d@321 381 %%%% \begin{itemize}
d@321 382 %%%% \item Scale -50 to 50 on Mushra with default values as 0 in middle and a comparison ``Reference'' to compare to 0 value
d@321 383 %%%% \end{itemize}
d@321 384 %%%% \item Absolute Category Rating (ACR) Scale~\cite{rec1996p}
d@321 385 %%%% \begin{itemize}
d@321 386 %%%% \item 5 point Scale - Bad, Poor, Fair, Good, Excellent (Default fair?)
d@321 387 %%%% \end{itemize}
d@321 388 %%%% \item Degredation Category Rating (DCR) Scale~\cite{rec1996p}
d@321 389 %%%% \begin{itemize}
d@321 390 %%%% \item 5 point Scale - Inaudible, Audible but not annoying, slightly annoying, annoying, very annoying. (default Inaudible?) - {\it Basically just quantised ABC/HR?}
d@321 391 %%%% \end{itemize}
d@321 392 %%%% \item Comparison Category Rating (CCR) Scale~\cite{rec1996p}
d@321 393 %%%% \begin{itemize}
d@321 394 %%%% \item 7 point scale: Much Better, Better, Slightly Better, About the same, slightly worse, worse, much worse - Default about the same with reference to compare to
d@321 395 %%%% \end{itemize}
d@321 396 %%%% \item 9 Point Hedonic Category Rating Scale~\cite{peryam1952advanced}
d@321 397 %%%% \begin{itemize}
d@321 398 %%%% \item 9 point scale: Like Extremely, Like Very Much, Like Moderate, Like Slightly, Neither Like nor Dislike, dislike Extremely, dislike Very Much, dislike Moderate, dislike Slightly - Default Neither Like nor Dislike with reference to compare to
d@321 399 %%%% \end{itemize}
d@321 400 %%%% \item ITU-R 5 Point Continuous Impairment Scale~\cite{rec1997bs}
d@321 401 %%%% \begin{itemize}
d@321 402 %%%% \item 5 point Scale (5-1) Imperceptible, Perceptible but not annoying, slightly annoying, annoying, very annoying. (default Inaudible?)- {\it Basically just quantised ABC/HR, or Different named DCR}
d@321 403 %%%% \end{itemize}
d@321 404 %%%% \item Pairwise Comparison (Better/Worse)~\cite{david1963method}
d@321 405 %%%% \begin{itemize}
d@321 406 %%%% \item 2 point Scale - Better or Worse - (not sure how to default this - they default everything to better, which is an interesting choice)
d@321 407 %%%% \end{itemize}
d@321 408 %%%% \end{itemize}
d@321 409
n@326 410 % Build your own test
nicholas@328 411 \begin{comment}
d@321 412 { \bf A screenshot would be nice.
d@321 413
d@321 414 Established tests (see below) included as `presets' in the build-your-own-test page. }
nicholas@328 415 \end{comment}
b@308 416
b@308 417 \section{Analysis and diagnostics}
b@329 418 \label{sec:analysis}
b@317 419 % don't mention Python scripts
b@329 420 There are several benefits to providing basic analysis tools in the browser: they allow diagnosing problems, with the interface or with the test subject; they may be sufficient for many researchers' purposes; and test subjects may enjoy seeing an overview of their own results and/or results thus far at the end of their tests.
b@336 421 \begin{figure}[bhf]
b@336 422 \centering
b@336 423 \includegraphics[width=.5\textwidth]{boxplot.png}
b@336 424 %\caption{This timeline of a single subject's listening test shows playback of fragments (red segments) and marker movements on the rating axis in function of time. }
b@336 425 \caption{Box and whisker plot showing the aggregated numerical ratings of six stimuli by a group of subjects.}
b@336 426 \label{fig:timeline}
b@336 427 \end{figure}
b@329 428 For this reason, we include a proof-of-concept web page with:
b@318 429 \begin{itemize}[noitemsep,nolistsep]
b@329 430 \item All audioholder IDs, file names, subject IDs, audio element IDs, ... in the collected XMLs so far (\texttt{saves/*.xml})
b@329 431 \item Selection of subjects and/or test samples to zoom in on a subset of the data %Check/uncheck each of the above for analysis (e.g. zoom in on a certain song, or exclude a subset of subjects)
b@329 432 \item Embedded audio to hear corresponding test samples % (follow path in XML setup file, which is also embedded in the XML result file)
b@336 433 \item Scatter plot, confidence plot and box plot of rating values (see Figure )
n@334 434 \item Timeline for a specific subject %(see Figure \ref{fig:timeline})%, perhaps re-playing the experiment in X times realtime. (If actual realtime, you could replay the audio...)
n@334 435 \item Distribution plots of any radio button and number questions in pre- and post-test survey %(drop-down menu with `pretest', `posttest', ...; then drop-down menu with question `IDs' like `gender', `age', ...; make pie chart/histogram of these values over selected range of XMLs)
b@312 436 \item All `comments' on a specific audioelement
n@334 437 \item A `download' function for a CSV of ratings, survey responses and comments% various things (values, survey responses, comments) people might want to use for analysis, e.g. when XML scares them
n@334 438 %\item Validation of setup XMLs (easily spot `errors', like duplicate IDs or URLs, missing/dangling tags, ...)
b@312 439 \end{itemize}
b@312 440
n@334 441
nicholas@331 442 %A subset of the above would already be nice for this paper.
nicholas@332 443 [Some pictures here please.]
b@316 444 \section{Concluding remarks and future work}
b@329 445 \label{sec:conclusion}
b@308 446
nicholas@332 447 The code and documentation can be pulled or downloaded from our online repository available at \url{code.soundsoftware.ac.uk/projects/webaudioevaluationtool}.
b@308 448
b@317 449 [Talking a little bit about what else might happen. Unless we really want to wrap this up. ]
nicholas@328 450
b@329 451 \cite{schoeffler2015mushra} gives a `checklist' for subjective evaluation of audio systems. The Web Audio Evaluation Toolbox meets most of its given requirements including remote testing, crossfading between audio streams, collecting browser information, utilising UI elements and working with various audio formats including uncompressed PCM or WAV format.
b@317 452 % remote
b@317 453 % language support (not explicitly stated)
b@317 454 % crossfades
n@327 455 % choosing speakers/sound device from within browser? --- NOT POSSIBLE, can only determine channel output counts and its up to the hardware to determine
b@317 456 % collect information about software and sound system
b@317 457 % buttons, scales, ... UI elements
b@317 458 % must be able to load uncompressed PCM
b@317 459
b@317 460 [What can we not do? `Method of adjustment', as in \cite{schoeffler2015mushra} is another can of worms, because, like, you could adjust lots of things (volume is just one of them, that could be done quite easily). Same for using input signals like the participant's voice. Either leave out, or mention this requires modification of the code we provide.]
b@308 461
b@308 462 %
b@308 463 % The following two commands are all you need in the
b@308 464 % initial runs of your .tex file to
b@308 465 % produce the bibliography for the citations in your paper.
b@308 466 \bibliographystyle{abbrv}
b@308 467 \bibliography{WAC2016} % sigproc.bib is the name of the Bibliography in this case
b@308 468 % You must have a proper ".bib" file
b@308 469 % and remember to run:
b@308 470 % latex bibtex latex latex
b@308 471 % to resolve all references
b@308 472 %
b@308 473 % ACM needs 'a single self-contained file'!
b@308 474 %
b@308 475 \end{document}