webaudioevaluationtool: docs/SMC15/smc2015template.tex annotate

annotate docs/SMC15/smc2015template.tex @ 886:a2ab04daf4c9

Added common interface to specification to handle global interface-specific functions such as checks for playback.

author	Nicholas Jillings <nicholas.jillings@eecs.qmul.ac.uk>
date	Tue, 16 Jun 2015 15:44:02 +0100
parents
children	804813c05761 ffeef0ac7a5f

rev	line source
nicholas@886	1 % -----------------------------------------------
nicholas@886	2 % Template for SMC 2012
nicholas@886	3 % adapted from the template for SMC 2011, which was adapted from that of SMC 2010
nicholas@886	4 % -----------------------------------------------
nicholas@886	5
nicholas@886	6 \documentclass{article}
nicholas@886	7 \usepackage{smc2015}
nicholas@886	8 \usepackage{times}
nicholas@886	9 \usepackage{ifpdf}
nicholas@886	10 \usepackage[english]{babel}
nicholas@886	11 \usepackage{cite}
nicholas@886	12 \usepackage{enumitem}
nicholas@886	13 \setitemize{noitemsep,topsep=0pt,parsep=0pt,partopsep=0pt}
nicholas@886	14
nicholas@886	15 \hyphenation{Java-script}
nicholas@886	16
nicholas@886	17 %%%%%%%%%%%%%%%%%%%%%%%% Some useful packages %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
nicholas@886	18 %%%%%%%%%%%%%%%%%%%%%%%% See related documentation %%%%%%%%%%%%%%%%%%%%%%%%%%
nicholas@886	19 %\usepackage{amsmath} % popular packages from Am. Math. Soc. Please use the
nicholas@886	20 %\usepackage{amssymb} % related math environments (split, subequation, cases,
nicholas@886	21 %\usepackage{amsfonts}% multline, etc.)
nicholas@886	22 %\usepackage{bm} % Bold Math package, defines the command \bf{}
nicholas@886	23 %\usepackage{paralist}% extended list environments
nicholas@886	24 %%subfig.sty is the modern replacement for subfigure.sty. However, subfig.sty
nicholas@886	25 %%requires and automatically loads caption.sty which overrides class handling
nicholas@886	26 %%of captions. To prevent this problem, preload caption.sty with caption=false
nicholas@886	27 %\usepackage[caption=false]{caption}
nicholas@886	28 %\usepackage[font=footnotesize]{subfig}
nicholas@886	29
nicholas@886	30
nicholas@886	31 %user defined variables
nicholas@886	32 \def\papertitle{WEB AUDIO EVALUATION TOOL: A BROWSER-BASED LISTENING TEST ENVIRONMENT} %?
nicholas@886	33 \def\firstauthor{Nicholas Jillings}
nicholas@886	34 \def\secondauthor{Brecht De Man}
nicholas@886	35 \def\thirdauthor{David Moffat}
nicholas@886	36 \def\fourthauthor{Joshua D. Reiss}
nicholas@886	37
nicholas@886	38 % adds the automatic
nicholas@886	39 % Saves a lot of ouptut space in PDF... after conversion with the distiller
nicholas@886	40 % Delete if you cannot get PS fonts working on your system.
nicholas@886	41
nicholas@886	42 % pdf-tex settings: detect automatically if run by latex or pdflatex
nicholas@886	43 \newif\ifpdf
nicholas@886	44 \ifx\pdfoutput\relax
nicholas@886	45 \else
nicholas@886	46 \ifcase\pdfoutput
nicholas@886	47 \pdffalse
nicholas@886	48 \else
nicholas@886	49 \pdftrue
nicholas@886	50 \fi
nicholas@886	51
nicholas@886	52 \ifpdf % compiling with pdflatex
nicholas@886	53 \usepackage[pdftex,
nicholas@886	54 pdftitle={\papertitle},
nicholas@886	55 pdfauthor={\firstauthor, \secondauthor, \thirdauthor},
nicholas@886	56 bookmarksnumbered, % use section numbers with bookmarks
nicholas@886	57 pdfstartview=XYZ % start with zoom=100% instead of full screen;
nicholas@886	58 % especially useful if working with a big screen :-)
nicholas@886	59 ]{hyperref}
nicholas@886	60 %\pdfcompresslevel=9
nicholas@886	61
nicholas@886	62 \usepackage[pdftex]{graphicx}
nicholas@886	63 % declare the path(s) where your graphic files are and their extensions so
nicholas@886	64 %you won't have to specify these with every instance of \includegraphics
nicholas@886	65 \graphicspath{{./figures/}}
nicholas@886	66 \DeclareGraphicsExtensions{.pdf,.jpeg,.png}
nicholas@886	67
nicholas@886	68 \usepackage[figure,table]{hypcap}
nicholas@886	69
nicholas@886	70 \else % compiling with latex
nicholas@886	71 \usepackage[dvips,
nicholas@886	72 bookmarksnumbered, % use section numbers with bookmarks
nicholas@886	73 pdfstartview=XYZ % start with zoom=100% instead of full screen
nicholas@886	74 ]{hyperref} % hyperrefs are active in the pdf file after conversion
nicholas@886	75
nicholas@886	76 \usepackage[dvips]{epsfig,graphicx}
nicholas@886	77 % declare the path(s) where your graphic files are and their extensions so
nicholas@886	78 %you won't have to specify these with every instance of \includegraphics
nicholas@886	79 \graphicspath{{./figures/}}
nicholas@886	80 \DeclareGraphicsExtensions{.eps}
nicholas@886	81
nicholas@886	82 \usepackage[figure,table]{hypcap}
nicholas@886	83 \fi
nicholas@886	84
nicholas@886	85 %set up the hyperref package - make the links black without a surrounding frame
nicholas@886	86 \hypersetup{
nicholas@886	87 colorlinks,%
nicholas@886	88 citecolor=black,%
nicholas@886	89 filecolor=black,%
nicholas@886	90 linkcolor=black,%
nicholas@886	91 urlcolor=black
nicholas@886	92 }
nicholas@886	93
nicholas@886	94
nicholas@886	95 % Title.
nicholas@886	96 % ------
nicholas@886	97 \title{\papertitle}
nicholas@886	98
nicholas@886	99 % Authors
nicholas@886	100 % Please note that submissions are NOT anonymous, therefore
nicholas@886	101 % authors' names have to be VISIBLE in your manuscript.
nicholas@886	102 %
nicholas@886	103 % Single address
nicholas@886	104 % To use with only one author or several with the same address
nicholas@886	105 % ---------------
nicholas@886	106 %\oneauthor
nicholas@886	107 % {\firstauthor} {Affiliation1 \\ %
nicholas@886	108 % {\tt \href{mailto:author1@smcnetwork.org}{author1@smcnetwork.org}}}
nicholas@886	109
nicholas@886	110 %Two addresses
nicholas@886	111 %--------------
nicholas@886	112 % \twoauthors
nicholas@886	113 % {\firstauthor} {Affiliation1 \\ %
nicholas@886	114 % {\tt \href{mailto:author1@smcnetwork.org}{author1@smcnetwork.org}}}
nicholas@886	115 % {\secondauthor} {Affiliation2 \\ %
nicholas@886	116 % {\tt \href{mailto:author2@smcnetwork.org}{author2@smcnetwork.org}}}
nicholas@886	117
nicholas@886	118
nicholas@886	119
nicholas@886	120 % FIX!!!
nicholas@886	121 \fourauthors
nicholas@886	122 {\firstauthor} {%Affiliation1 \\
nicholas@886	123 {\tt \href{mailto:b.deman@qmul.ac.uk}{n.g.r.jillings@se14.qmul.ac.uk, }}}
nicholas@886	124 {\secondauthor} {%Affiliation2\\ %
nicholas@886	125 {\tt \href{mailto:n.g.r.jillings@se14.qmul.ac.uk}{\{b.deman,}}}
nicholas@886	126 {\thirdauthor} {%Affiliation3\\ %
nicholas@886	127 {\tt \href{mailto:d.j.moffat@qmul.ac.uk}{d.j.moffat, }}}
nicholas@886	128 {\fourthauthor} {%Affiliation4\\ %
nicholas@886	129 {\tt \href{mailto:joshua.reiss@qmul.ac.uk}{joshua.reiss\}@qmul.ac.uk}}}
nicholas@886	130
nicholas@886	131 % *************************************** the document starts here *************
nicholas@886	132 \begin{document}
nicholas@886	133 %
nicholas@886	134 \capstartfalse
nicholas@886	135 \maketitle
nicholas@886	136 \capstarttrue
nicholas@886	137 %
nicholas@886	138 \begin{abstract}
nicholas@886	139 Perceptual evaluation tests where subjects assess certain qualities of different audio fragments are an integral part of audio and music research. These require specialised software, usually custom-made, to collect large amounts of data using meticulously designed interfaces with carefully formulated questions, and play back audio with rapid switching between different samples.
nicholas@886	140 New functionality in HTML5 included in the Web Audio API allows for increasingly powerful media applications in a platform independent environment. The advantage of a web application is easy deployment on any platform, without requiring any other application, enabling multiple tests to be easily conducted across locations. In this paper we propose a tool supporting a wide variety of easily configurable, multi-stimulus perceptual audio evaluation tests over the web with multiple test interfaces, pre- and post-test surveys, custom configuration, collection of test metrics and other features. Test design and setup doesn't require programming background, and results are gathered automatically using web friendly formats for easy storing of results on a server.
nicholas@886	141 % Currently at 150, don't think anything more needs to be done here??
nicholas@886	142 %Place your abstract at the top left column on the first page.
nicholas@886	143 %Please write about 150-200 words that specifically highlight the purpose of your work,
nicholas@886	144 %its context, and provide a brief synopsis of your results.
nicholas@886	145 %Avoid equations in this part.\\
nicholas@886	146
nicholas@886	147 \end{abstract}
nicholas@886	148
nicholas@886	149 % TOTAL PAPER: Minimum 4 pages, 6 preferred, max. 8 (6 for demos/posters)\\
nicholas@886	150
nicholas@886	151 \section{Introduction}\label{sec:introduction}
nicholas@886	152
nicholas@886	153 %NICK: examples of what kind of audio applications HTML5 has made possible, with references to publications (or website)\\
nicholas@886	154
nicholas@886	155 Perceptual evaluation of audio plays an important role in a wide range of research on audio quality \cite{schoeffler2013impact,repp}, sound synthesis \cite{de2013real,durr2015implementation}, audio effect design \cite{deman2014a}, source separation \cite{mushram,uhlereiss}, music and emotion analysis \cite{song2013a,eerola2009prediction}, and many others \cite{friberg2011comparison}. % codec design?
nicholas@886	156
nicholas@886	157 %This work is based in part on the APE audio perceptual evaluation interface for MATLAB \cite{deman2014b}. An important drawback of this toolbox is the need to have MATLAB to create a test and even to run (barring the use of an executable generated by MATLAB), and limited compatibility with both earlier and newer versions of MATLAB, which makes it hard to maintain. On the other hand, a web application generally has the advantage of running in most browsers on most applications.
nicholas@886	158
nicholas@886	159 % IMPORTANT
nicholas@886	160 %[TO ADD: other interfaces for perceptual evaluation of audio, browser-based or not!] \\
nicholas@886	161 %BROWSER-BASED: \cite{song2013b,song2013a,beaqlejs} \\
nicholas@886	162 %MATLAB: \cite{whisper,mushram,scale}
nicholas@886	163 % to add: OPAQUE, Rumsey's repertory grid technique
nicholas@886	164
nicholas@886	165
nicholas@886	166 \begin{table}[htdp]
nicholas@886	167 \caption{Available audio perceptual evaluation tools}
nicholas@886	168 \begin{center}
nicholas@886	169 \begin{tabular}{\|*{3}{l\|}}
nicholas@886	170 % order?
nicholas@886	171 \hline
nicholas@886	172 \textbf{Name} & \textbf{Language} & \textbf{Ref.}\\
nicholas@886	173 \hline
nicholas@886	174 APE & MATLAB & \cite{deman2014b} \\
nicholas@886	175 BeaqleJS & HTML5/JS & \cite{beaqlejs}\\ % ABX, mushra
nicholas@886	176 %C4DM\footnote{http://isophonics.org/test - collection of listening tests developed by Gy\"{o}rgy Fazekas and Thomas Wilmering at Centre for Digital Music.} & JS & \cite{song2013a,song2013b}\\
nicholas@886	177 HULTI-GEN & Max & \cite{hulti-gen}\\
nicholas@886	178 MUSHRAM & MATLAB & \cite{mushram}\\ % type: mushra
nicholas@886	179 Scale & MATLAB & \cite{scale} \\
nicholas@886	180 WhisPER & MATLAB & \cite{whisper}\\
nicholas@886	181 \hline
nicholas@886	182 \end{tabular}
nicholas@886	183 \end{center}
nicholas@886	184 \label{tab:interfaces}
nicholas@886	185 \end{table}%
nicholas@886	186
nicholas@886	187 Various listening test design tools are already available, see Table \ref{tab:interfaces}. A few other listening test tools, such as OPAQUE \cite{opaque} and GuineaPig \cite{guineapig}, are described but not available to the public at the time of writing.
nicholas@886	188
nicholas@886	189 Many are MATLAB-based, useful for easily processing and visualising the data produced by the listening tests, but requiring MATLAB to be installed to run or - in the case of an executable created with MATLAB - at least create the test.
nicholas@886	190 Furthermore, compatibility is usually limited across different versions of MATLAB.
nicholas@886	191 Similarly, Max requires little or no programming background but it is proprietary software as well, which is especially undesirable when tests need to be deployed at different sites.
nicholas@886	192 More recently, BeaqleJS \cite{beaqlejs} makes use of the HTML5 audio capabilities and comes with a number of predefined, established test interfaces such as ABX and MUSHRA \cite{mushra}. %
nicholas@886	193
nicholas@886	194 A browser-based perceptual evaluation tool for audio has a number of advantages. First of all, it doesn't need any other software than a browser, meaning deployment is very easy and cheap. As such, it can also run on a variety of devices and platforms. The test can be hosted on a central server with subjects all over the world, who can simply go to a webpage. This means that multiple participants can take the test simultaneously, potentially in their usual listening environment if this is beneficial for the test. Naturally, the constraints on the listening environment and other variables still need to be controlled if they are important to the experiment. Depending on the requirements a survey or a variety of tests preceding the experiment could establish whether remote participants and their environments are adequate for the experiment at hand.
nicholas@886	195
nicholas@886	196 The Web Audio API is a high-level JavaScript Application Programming Interface (API) designed for real-time processing of audio inside the browser through various processing nodes\footnote{http://webaudio.github.io/web-audio-api/}. Various web sites have used the Web Audio API for creative purposes, such as drum machines and score creation tools\footnote{http://webaudio.github.io/demo-list/},
nicholas@886	197 others from the list show real-time captured audio processing such as room reverberation tools and a phase vocoder from the system microphone. The BBC Radiophonic Workshop shows effects used on famous TV shows such as Doctor Who, being simulated inside the browser\footnote{http://webaudio.prototyping.bbc.co.uk/}.
nicholas@886	198 Another example is the BBC R\&D personalised compressor which applies a dynamic range compressor on a radio station that dynamically adjusts the compressor settings to match the listener's environment \cite{mason2015compression}.
nicholas@886	199
nicholas@886	200
nicholas@886	201
nicholas@886	202 % [How is this one different from all these?] improve
nicholas@886	203
nicholas@886	204 % FLEXIBLE (reference (not) appropriate)
nicholas@886	205 In contrast with the tools listed above, we aim to provide an environment in which a variety of multi-stimulus tests can be designed, with a wide range of configurability, while keeping setup and collecting results as straightforward as possible. For instance, the option to provide free-text comment fields allows for tests with individual vocabulary methods, as opposed to only allowing quantitative scales associated to a fixed set of descriptors.
nicholas@886	206 % EASE OF USE: no need to go in the code
nicholas@886	207 To make the tool accessible to a wide range of researchers, we aim to offer maximum functionality even to those with little or no programming background. The tool we present can set up a listening test without reading or adjusting any code, provided no new types of interfaces need to be created.
nicholas@886	208
nicholas@886	209 % ENVIRONMENT %In this paper, we provide a listening test back end that allows for easy set up of a wide variety of listening tests, highly flexible yet very simple and not requiring any programming skills.
nicholas@886	210 Specifically, we present a browser-based perceptual evaluation tool from which any kind of multiple stimulus audio evaluation tool where subjects need to rank, rate, select, or comment on different audio samples can be built.
nicholas@886	211 We also include an example of the multiple stimulus user interface included with the APE tool \cite{deman2014b}, which presents the subject with a number of axes on which a number of markers, corresponding to audio samples, can be moved to reflect any subjective quality, as well as corresponding comment boxes.
nicholas@886	212 However, other graphical user interfaces can be put on top of the engine that we provide with minimal or no modifications. Examples of this are the MUSHRA test \cite{mushra}, single or multiple stimulus evaluation with a two-dimensional interface (such as valence and arousal dimensions), or simple annotation (using free-form text, check boxes, radio buttons or drop-down menus) of one or more audio samples at a time.
nicholas@886	213 In some cases, such as method of adjustment, where the audio is processed by the user, or AB test, where the interface does not show all audio samples to be evaluated at once \cite{bech}, the back end of the tool needs to be modified as well.
nicholas@886	214
nicholas@886	215 In the following sections, we describe the included interface in more detail, discuss the implementation, and cover considerations that were made in the design process of this tool.
nicholas@886	216
nicholas@886	217 %\section{Requirements}\label{sec:requirements}
nicholas@886	218 %???
nicholas@886	219 %
nicholas@886	220 %\begin{itemize}
nicholas@886	221 %\item
nicholas@886	222 %\end{itemize}
nicholas@886	223
nicholas@886	224
nicholas@886	225 \section{Interface}\label{sec:interface}
nicholas@886	226
nicholas@886	227 At this point, we have implemented the interface of the MATLAB-based APE (Audio Perceptual Evaluation) toolbox \cite{deman2014b}. This shows one marker for each simultaneously evaluated audio fragment on one or more horizontal axes, that can be moved to rate or rank the respective fragments in terms of any subjective property, as well as a comment box for every marker, and any extra text boxes for extra comments.
nicholas@886	228 The reason for such an interface, where all stimuli are presented on a single rating axis (or multiple axes if multiple subjective qualities need to be evaluated), is that it urges the subject to consider the rating and/or ranking of the stimuli relative to one another, as opposed to comparing each individual stimulus to a given reference, as is the case with e.g. a MUSHRA test \cite{mushra}. As such, it is ideal for any type of test where the goal is to carefully compare samples against each other, like perceptual evaluation of different mixes of music recordings \cite{deman2015a} or sound synthesis models \cite{durr2015implementation}, as opposed to comparing results of source separation algorithms \cite{mushram} or audio with lower data rate \cite{mushra} to a high quality reference signal.
nicholas@886	229
nicholas@886	230 The markers on the slider at the top of the page are positioned randomly, to minimise the bias that may be introduced when the initial positions are near the beginning, end or middle of the slider. Another approach is to place the markers outside of the slider bar at first and have the subject drag them in, but the authors believe this doesn't encourage careful consideration and comparison of the different fragments as the implicit goal of the test becomes to audition and drag each fragment in just once, rather than to compare all fragments rigorously.
nicholas@886	231
nicholas@886	232 See Figure \ref{fig:interface} for an example of the interface, with six fragments and one axis. %? change if a new interface is shown
nicholas@886	233
nicholas@886	234 %Most of these functions are specific to the APE interface design, for instance the AB test will need a different structure for the audio engine and loading of files, since multiple instances of the same file are required. % more generally these pertain to any typeof multi-stimulus test - not quite useful for AB tests, method of adjustment, ABX, and so on.
nicholas@886	235 %There are some areas of the design where certain design choices had to be made such as with the markers.
nicholas@886	236
nicholas@886	237 %For instance, the option to provide free-text comment fields allows for tests with individual vocabulary methods, as opposed to only allowing quantitative scales associated to a fixed set of descriptors.
nicholas@886	238
nicholas@886	239 \begin{figure*}[ht]
nicholas@886	240 \begin{center}
nicholas@886	241 \includegraphics[width=1.0\textwidth]{interface2.png}
nicholas@886	242 \caption{Example of interface, with 1 axis, 6 fragments and 1 extra comment in Chrome browser}
nicholas@886	243 \label{fig:interface}
nicholas@886	244 \end{center}
nicholas@886	245 \end{figure*}
nicholas@886	246
nicholas@886	247
nicholas@886	248 \section{Architecture}\label{sec:architecture} % or implementation?
nicholas@886	249
nicholas@886	250 The tool uses entirely client side processing utilising the new HTML5 Web Audio API, supported by most major web browsers. The API allows for constructing audio processing elements and connecting them together to produce a high quality, real time signal process to manipulate audio streams. The API supports multichannel processing and has an accurate playback timer for precise, scheduled playback control. The API is controlled through the browser JavaScript engine and is therefore highly configurable. Processing is all performed in a low latency thread separate from the main JavaScript thread, so there is no blocking due to real time processing.
nicholas@886	251
nicholas@886	252 The web tool itself is split into several files to operate:
nicholas@886	253 \begin{itemize}
nicholas@886	254 \item \texttt{index.html}: The main index file to load the scripts, this is the file the browser must request to load.
nicholas@886	255 \item \texttt{core.js}: Contains global functions and object prototypes to define the audio playback engine, audio objects and loading media files
nicholas@886	256 \item \texttt{ape.js}: Parses setup files to create the interface as instructed, following the same style chain as the MATLAB APE Tool \cite{deman2014b}.
nicholas@886	257 \end{itemize}
nicholas@886	258
nicholas@886	259 The HTML file loads the \texttt{core.js} file along with a few other ancillary files (such as the jQuery JavaScript extensions\footnote{http://jquery.com/}), at which point the browser JavaScript begins to execute the on-page instructions, which gives the URL of the test setup XML document (outlined in Section \ref{sec:setupresultsformats}). \texttt{core.js} parses this document and executes the functions in \texttt{ape.js} to build the web page. The reason for separating these two files is to allow for further interface designs (such as MUSHRA \cite{mushra} or AB tests \cite{bech}) to be used, which would still require the same underlying core functions outlined in \texttt{core.js}.
nicholas@886	260
nicholas@886	261 The \texttt{ape.js} file has several main functions but the most important are documented here. \textit{loadInterface(xmlDoc)} is called to decode the supplied project document in respect for the interface specified and define any global structures (such as the slider interface). It also identifies the number of pages in the test and randomises the order, if specified to do so. This is the only mandatory function in any of the interface files as this is called by \texttt{core.js} when the document is ready. \texttt{core.js} cannot 'see' any interface specific functions and therefore cannot assume any are available. Therefore \textit{loadInterface(xmlDoc)} is essential to set up the entire test environment. Because the interface files are loaded by \texttt{core.js} and because the functions in \texttt{core.js} are global, the interface files can `see' the \texttt{core.js} file and can therefore not only interact with it, but also modify it.
nicholas@886	262
nicholas@886	263 Each test page is loaded using \textit{loadTest(id)} which performs two major tasks: to populate the interface with the slider elements and comment boxes; and secondly to instruct the \textit{audioEngine} to load the audio fragments and construct the backend audio graph. \textit{loadTest(id)} also instructs the audio engine in \texttt{core.js} to create the \textit{audioObject}.
nicholas@886	264 These are custom audio nodes, one representing each audio element specified in each page.
nicholas@886	265 They consist of a \textit{bufferSourceNode} (a node which holds a buffer of audio samples for playback) and a \textit{gainNode}, both of which are Web Audio API Nodes. Various functions are applied, depending on which metrics are enabled, to record the interaction with the audio element. These nodes are then connected to the \textit{audioEngine} (itself a custom web audio node) containing a \textit{gainNode} (where the various \textit{audioObject}s connect to) for summation before passing the output to the \textit{destinationNode}, a permanent node of the Web Audio API created as the master output. Here, the browser then passes the audio information to the system sound device. % Does this now make sense?
nicholas@886	266 % audio object/audioObject/Audio Object: -- should always be audioObject if talking about the JavaScript object, otherwise should say audio element or audio fragment.
nicholas@886	267
nicholas@886	268 When an \textit{audioObject} is created, it is given the URL of the audio sample to load. This is downloaded into the browser asynchronously using the \textit{XMLHttpRequest} object, which downloads any file into the JavaScript environment for further processing. This is particularly useful for the Web Audio API because it supports downloading of files in their binary form for decoding. Once downloaded the file is decoded using the Web Audio API offline decoder. This uses the browser available decoding schemes to decode the audio files into raw float32 arrays, which are in turn passed to the relevant \textit{audioObject} for playback.
nicholas@886	269
nicholas@886	270 Once each page of the test is completed, identified by pressing the Submit button, the \textit{pageXMLSave(testId)} is called to store all of the collected data until all pages of the test are completed. After the final test and any post-test questions are completed, the \textit{interfaceXMLSave()} function is called. This function generates the final XML file for submission as outlined in Section \ref{sec:setupresultsformats}.
nicholas@886	271
nicholas@886	272 \section{Support and limitations}\label{sec:support}
nicholas@886	273
nicholas@886	274 Browsers support various audio file formats and are not consistent in any format. Currently the Web Audio API is best supported in Chrome, Firefox, Opera and Safari. All of these support the use of the uncompressed WAV format. Although not a compact, web friendly format, most transport systems are of a high enough bandwidth this should not be a problem. Ogg Vorbis is another well supported format across the four supported major desktop browsers, as well as MP3 (although Firefox may not support all MP3 types) \footnote{https://developer.mozilla.org/en-US/docs/Web/HTML/\\Supported\_media\_formats}. %https://developer.mozilla.org/en-US/docs/Web/HTML/Supported_media_formats
nicholas@886	275 One issue of the Web Audio API is that the sample rate is assigned by the system sound device, rather than requested and does not have the ability to request a different one. % Does this make sense? The problem is across all audio files.
nicholas@886	276 As the sampling rate and the effect of resampling may be critical for some listening tests, the default operation when an audio file is loaded with a different sample rate to that of the system is to convert the sample rate. To provide a check for this, the desired sample rate can be supplied with the setup XML and checked against. If the sample rates do not match, a browser alert window is shown asking for the sample rate to be correctly adjusted.
nicholas@886	277 This happens before any loading or decoding of audio files so the browser will only be instructed to fetch files if the system sample rate meets the requirements, avoiding multiple requests for large files until they are actually needed.
nicholas@886	278
nicholas@886	279 %During playback, the playback nodes loop indefinitely until playback is stopped. The gain nodes in the \textit{audioObject}s enable dynamic muting of nodes. When a bar in the sliding ranking is clicked, the audio engine mutes all \textit{audioObject}s and un-mutes the clicked one. Therefore, if the audio samples are perfectly aligned up and of the same sample length, they will remain perfectly aligned with each other.
nicholas@886	280 % Don't think this is relevant anymore
nicholas@886	281
nicholas@886	282
nicholas@886	283 \section{Input and result files}\label{sec:setupresultsformats}
nicholas@886	284
nicholas@886	285 The setup and result files both use the common XML document format to outline the various parameters. The setup file determines the interface to use, the location of audio files, the number of pages and other parameters to define the testing environment. Having one document to modify allows for quick manipulation in a `human readable' form to create new tests, or adjust current ones, without needing to edit multiple web files. Furthermore, we also provide a simple web page to enter all these settings without needing to manipulate the raw XML. An example of this XML document is presented in Figure~\ref{fig:xmlIn}. % I mean the .js and .html files, though not sure if any better.
nicholas@886	286
nicholas@886	287 \subsection{Setup and configurability}
nicholas@886	288
nicholas@886	289 \begin{figure}[ht]
nicholas@886	290 \begin{center}
nicholas@886	291 \includegraphics[width=0.5\textwidth]{XMLInput2.png}
nicholas@886	292 \caption{An example input XML file}
nicholas@886	293 \label{fig:xmlIn}
nicholas@886	294 \end{center}
nicholas@886	295 \end{figure}
nicholas@886	296
nicholas@886	297 The setup document has several defined nodes and structure which are documented with the source code. For example, there is a section for general setup options where any pre-test and post-test questions and statements can be defined. Pre- and post-test dialogue boxes allow for comments or questions to be presented before or after the test, to convey listening test instructions, and gather information about the subject, listening environment, and overall experience of the test. In the example in Figure~\ref{fig:xmlIn}, a question box with the id `location' is added, which is set to be mandatory to answer. The question is in the PreTest node meaning it will appear before any testing will begin. When the result for the entire test is shown, the response will appear in the PreTest node with the id `location' allowing it to be found easily, provided the id values are meaningful.
nicholas@886	298
nicholas@886	299 We try to cater to a diverse audience with this toolbox, while ensuring it is simple, elegant and straightforward. To that end, we currently include the following options that can be easily switched on and off, by setting the value in the input XML file.
nicholas@886	300
nicholas@886	301 \begin{itemize} %Should have used a description list for this.
nicholas@886	302 \item \textbf{Snap to corresponding position}: When this is enabled, and a fragment is playing, the playhead skips to the same position in the next fragment that is clicked. If it is not enabled, every fragment is played from the start.
nicholas@886	303 \item \textbf{Loop fragments}: Repeat current fragment when end is reached, until the `Stop audio' or `Submit' button is clicked.
nicholas@886	304 \item \textbf{Comments}: Displays a separate comment box for each fragment in the page.
nicholas@886	305 \item \textbf{General comment}: One comment box, additional to the individual comment boxes, to comment on the test or a feature that some or all of the fragments share.
nicholas@886	306 \item \textbf{Resampling}: When this is enabled, tracks are resampled to match the subject's system's sample rate (a default feature of the Web Audio API). When it is not, an error is shown when the system does not match the requested sample rate.
nicholas@886	307 \item \textbf{Randomise page order}: Randomises the order in which different `pages' are presented. % are we calling this 'pages'?
nicholas@886	308 \item \textbf{Randomise fragment order}: Randomises the order and numbering of the markers and comment boxes corresponding to the fragments. This permutation is stored as well, to be able to interpret references to the numbers in the comments (such as `this is much [brighter] then 4').
nicholas@886	309 \item \textbf{Require playback}: Require that each fragment has been played at least once, if not in full.
nicholas@886	310 \item \textbf{Require full playback}: If `Require playback' is active, require that each fragment has been played in full.
nicholas@886	311 \item \textbf{Require moving}: Require that each marker is moved (dragged) at least once.
nicholas@886	312 \item \textbf{Require comments}: This option allows requiring the subject to require a comment for each track.
nicholas@886	313 \item \textbf{Repeat test}: Number of times each page in the test should be repeated (none by default), to allow familiarisation with the content and experiment, and to investigate consistency of user and variability due to familiarity. In the setup, each 'page' can be given a repeat count. These are all gathered before shuffling the order so repeated tests are not back-to-back if possible.
nicholas@886	314 \item \textbf{Returning to previous pages}: Indicates whether it is possible to go back to a previous `page' in the test.
nicholas@886	315 \item \textbf{Lowest rating below [value]}: To enforce a certain use of the rating scale, it can be required to rate at least one sample below a specified value.
nicholas@886	316 \item \textbf{Highest rating above [value]}: To enforce a certain use of the rating scale, it can be required to rate at least one sample above a specified value.
nicholas@886	317 \item \textbf{Reference}: Allows for a separate sample (outside of the axis) to be the `reference', which the subject can play back during the test to help with the task at hand \cite{mushra}.
nicholas@886	318 \item \textbf{Hidden reference}: Whether or not an explicit `reference' is provided, the `hidden reference' should be rated above a certain value \cite{mushra} - this can be enforced.
nicholas@886	319 \item \textbf{Hidden anchor}: The `hidden anchor' should be rated lower than a certain value \cite{mushra} - this can be enforced.
nicholas@886	320 \item \textbf{Show scrub bar}: Display a playhead on a scrub bar to show the position in the current fragment.
nicholas@886	321 \item \textbf{Drag playhead}: If scrub bar is visible, allow dragging to move back or forward in a fragment.
nicholas@886	322 \end{itemize}
nicholas@886	323
nicholas@886	324 When one of these options is not included in the setup file, they assume a default value. As a result, the input file can be kept very compact if default values suffice for the test.
nicholas@886	325
nicholas@886	326 % loop, snap to corresponding position, comments, 'general' comment, require same sampling rate, different types of randomisation
nicholas@886	327
nicholas@886	328 \subsection{Results}
nicholas@886	329
nicholas@886	330 The results file is dynamically generated by the interface upon clicking the `Submit' button. This also executes checks, depending on the setup file, to ensure that all tracks have been played back, rated and commented on. The XML output returned contains a node per audioObject and contains both the corresponding marker's position and any comments written in the associated comment box. The rating returned is normalised to be a value between 0 and 1, normalising the pixel representation of different browser windows. An example output file is presented in Figure~\ref{fig:xmlOut}.
nicholas@886	331
nicholas@886	332 \begin{figure}[ht]
nicholas@886	333 \begin{center}
nicholas@886	334 \includegraphics[width=0.5\textwidth]{XMLOutput2.png}
nicholas@886	335 \caption{An example output XML file}
nicholas@886	336 \label{fig:xmlOut}
nicholas@886	337 \end{center}
nicholas@886	338 \end{figure}
nicholas@886	339
nicholas@886	340 The results also contain information collected by any defined pre/post questions. These are referenced against the setup XML by using the same ID so readable responses can be obtained. Taking from the earlier example of setting up a pre-test question, an example response can be seen in Figure \ref{fig:xmlOut}.
nicholas@886	341
nicholas@886	342 Each page of testing is returned with the results of the entire page included in the structure. One `audioElement' node is created per audio fragment per page, along with its ID. This includes several child nodes including the rating between 0 and 1, the comment, and any other collected metrics including how long the element was listened for, the initial position, boolean flags if the element was listened to, if the element was moved and if the element comment box had any comment. Furthermore, each user action (manipulation of any interface element, such as playback or moving a marker) can be logged along with a the corresponding time code.
nicholas@886	343 We also store session data such as the browser the tool was used in.
nicholas@886	344 We provide the option to store the results locally, and/or to have them sent to a server.
nicholas@886	345
nicholas@886	346 %Here is an example of the set up XML and the results XML: % perhaps best to refer to each XML after each section (set up <> results)
nicholas@886	347 % Should we include an Example of the input and output XML structure?? --> Sure.
nicholas@886	348
nicholas@886	349 %An example of the returned \textit{audioElement} node in the results XML file is as follows.
nicholas@886	350 %
nicholas@886	351 %\texttt{<audioelement id="8"> \\
nicholas@886	352 %<comment> \\
nicholas@886	353 %<question>Comment on track 0</question> \\
nicholas@886	354 %<response> The drums were punchy </response> \\
nicholas@886	355 %</comment> \\
nicholas@886	356 %<value> 0.25169491525423726 </value> \\
nicholas@886	357 %<metric> \\
nicholas@886	358 %<metricresult id="elementTimer"> \\ 2.3278004535147385< /metricresult> \\
nicholas@886	359 %<metricresult id="elementTrackerFull"> \\
nicholas@886	360 %<timepos id="0"> \\
nicholas@886	361 %<time>1.7937414965986385</time> \\
nicholas@886	362 %<position>0.41694915254237286</position> \\
nicholas@886	363 %</timepos> \\
nicholas@886	364 %<timepos id="1"> \\
nicholas@886	365 %<time>2.6993197278911563</time> \\
nicholas@886	366 %<position>0.45847457627118643</position> \\
nicholas@886	367 %</timepos> \\</metricresult> \\
nicholas@886	368 %<metricresult id="elementInitialPosition"> 0.47796610169491527 </metricresult> \\
nicholas@886	369 %<metricresult id="elementFlagListenedTo"> true< /metricresult> \\
nicholas@886	370 %<metricresult id="elementFlagMoved"> true </metricresult> \\
nicholas@886	371 %</metric> \\
nicholas@886	372 %</audioelement>}
nicholas@886	373
nicholas@886	374 The parent tag \texttt{audioelement} holds the ID of the element passed in from the setup document. The first child element is \texttt{comment} and holds both the question shown and the response from the comment box inside.
nicholas@886	375 The child element \texttt{value} holds the normalised ranking value. Next comes the metric node structure, with one metric result node per metric event collected. The id of the node identifies the type of data it contains. For example, the first holds the id \textit{elementTimer} and the data contained represents how long, in seconds, the audio element was listened to. There is one \texttt{audioelement} tag per audio element on each test page.
nicholas@886	376
nicholas@886	377
nicholas@886	378 \section{Conclusions and future work}\label{sec:conclusions}
nicholas@886	379
nicholas@886	380 In this paper we have presented an approach to creating a browser-based listening test environment that can be used for a variety of types of perceptual evaluation of audio.
nicholas@886	381 Specifically, we discussed the use of the toolbox in the context of assessment of preference for different production practices, with identical source material.
nicholas@886	382 The purpose of this paper is to outline the design of this tool, to describe our implementation using basic HTML5 functionality, and to discuss design challenges and limitations of our approach. This tool differentiates itself from other perceptual audio tools by enabling web technologies for multiple participants to perform the test without the need for proprietary software such as MATLAB. The tool also allows for any interface to be built using HTML5 elements to create a variety of dynamic, multiple-stimulus listening test interfaces. It enables quick setup of simple tests with the ability to manage complex tests through a single file. Finally it uses the XML document format to store the results allowing for processing and analysis of results in various third party software such as MATLAB or Python.
nicholas@886	383
nicholas@886	384 % future work
nicholas@886	385 Further work may include the development of other common test designs, such as MUSHRA \cite{mushra}, 2D valence and arousal/activity \cite{ratingeerola2009prediction}, and others. We will add functionality to assist with setting up large-scale tests with remote subjects, so this becomes straightforward and intuitive.
nicholas@886	386 In addition, we will keep on improving and expanding the tool, and highly welcome feedback and contributions from the community.
nicholas@886	387
nicholas@886	388 The source code of this tool can be found on \\ \texttt{code.soundsoftware.ac.uk/projects/}\\ \texttt{webaudioevaluationtool}.
nicholas@886	389
nicholas@886	390
nicholas@886	391 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
nicholas@886	392 %bibliography here
nicholas@886	393 \bibliography{smc2015template}
nicholas@886	394
nicholas@886	395 \end{document}

Mercurial > hg > webaudioevaluationtool

annotate docs/SMC15/smc2015template.tex @ 886:a2ab04daf4c9