47
Technology guide
association.media-and-learning.eu www.rec-all.info
Mathy Vanbuel
How to move beyond lecture capture:
Except where otherwise noted, this work is licensed under theCreative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-nd/4.0.
This report has been funded with support from the European Commission. This document re�ects the views only of the author and the Commission cannot be held responsible for any use which may be made of the information contained therein.
Technology guide
association.media-and-learning.eu www.rec-all.info
Mathy Vanbuel
How to move beyond lecture capture:
Except where otherwise noted, this work is licensed under theCreative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-nd/4.0.
This report has been funded with support from the European Commission. This document re�ects the views only of the author and the Commission cannot be held responsible for any use which may be made of the information contained therein.
1. Table of contents
1. Table of contents ......................................................................................................................................... 1-2
2. The REC:all project ...................................................................................................................................... 2-4
2.1 Aims of REC:all .................................................................................................................................... 2-4
2.2 Partnership ......................................................................................................................................... 2-4
2.3 Background Information ..................................................................................................................... 2-4
3. Introduction to Lecture Capture as a technology........................................................................................ 3-6
3.1 History ................................................................................................................................................ 3-6
3.2 The definition of lecture capture ........................................................................................................ 3-6
4. Current state-of-the-art and types of LC – introduction to the LC Descriptive framework ........................ 4-8
4.1 Components ....................................................................................................................................... 4-8
4.1.1 Recording ....................................................................................................................................... 4-8
4.1.2 Archival ......................................................................................................................................... 4-12
4.1.3 Retrieval ....................................................................................................................................... 4-13
4.2 Types of systems ............................................................................................................................... 4-13
5. Functionalities ........................................................................................................................................... 5-14
5.1 Integration ........................................................................................................................................ 5-14
5.2 Scalability .......................................................................................................................................... 5-14
5.3 Customisation ................................................................................................................................... 5-14
5.4 Interactivity....................................................................................................................................... 5-14
5.5 Mobility, mobile production and delivery platforms........................................................................ 5-14
5.6 Close captioning, subtitling and accessibility features ..................................................................... 5-15
5.7 Voice recognition .............................................................................................................................. 5-15
5.8 Automatic translation ....................................................................................................................... 5-16
5.9 Social mark-up (commenting) and networking features .................................................................. 5-16
5.10 Automated indexing and metadata .................................................................................................. 5-16
5.11 Integration with VLE platforms (Virtual Learning Environments) .................................................... 5-17
6. Technical trends and development ........................................................................................................... 6-19
6.1 Common trends ................................................................................................................................ 6-19
6.2 Future developments ....................................................................................................................... 6-19
6.2.1 Attendance certification ............................................................................................................... 6-19
6.2.2 Automated camera tracking ......................................................................................................... 6-19
6.2.3 Other developments .................................................................................................................... 6-20
7. Technical guide and advice, tips and suggestions ..................................................................................... 7-22
7.1 What is Lecture Capture? ................................................................................................................. 7-22
7.2 Common Fears .................................................................................................................................. 7-22
8. References and further reading ................................................................................................................ 8-24
9. ANNEX: index of suppliers ......................................................................................................................... 9-25
9.1 Accordent Classroom Recording ....................................................................................................... 9-25
9.2 Adobe Connect ................................................................................................................................. 9-25
9.3 AutoTrain .......................................................................................................................................... 9-25
9.4 BigBlueButton ................................................................................................................................... 9-25
9.5 Blackboard Collaborate .................................................................................................................... 9-25
9.6 Camtasia ........................................................................................................................................... 9-25
9.7 Capturer Lecture Video Recording System - Tel Aviv University (Tau), Israel .................................. 9-26
9.8 Cisco Lecture Vision - Cisco Systems. ............................................................................................... 9-26
9.9 Echo360 ............................................................................................................................................ 9-26
9.10 Epiphan ............................................................................................................................................. 9-26
9.11 Galicaster .......................................................................................................................................... 9-26
9.12 L2l (Live To E-Learning) - Cineca, Italy .............................................................................................. 9-26
9.13 Opencast Matterhorn ....................................................................................................................... 9-27
9.14 Openeya............................................................................................................................................ 9-27
9.15 Panopto ............................................................................................................................................ 9-27
9.16 Polycom ............................................................................................................................................ 9-27
9.17 Presentations 2go ............................................................................................................................. 9-27
9.18 Recordingbox by Fontys Hogeschool ................................................................................................ 9-28
9.19 Sonic Foundry Mediasite .................................................................................................................. 9-28
9.20 Switchcast Video Management System - Switch, Switzerland ......................................................... 9-28
9.21 Tegrity Campus ................................................................................................................................. 9-28
9.22 Telestream ........................................................................................................................................ 9-28
9.23 Vbrick Systems .................................................................................................................................. 9-28
9.24 Video Furnace Haivision ................................................................................................................... 9-29
9.25 Videolab by K.U.Leuven .................................................................................................................... 9-29
9.26 Videotorium - Niif, Hungary .............................................................................................................. 9-29
9.27 Vips - Kaunas University Of Technology, Lithuania .......................................................................... 9-29
9.28 Webex ............................................................................................................................................... 9-29
10. Annex: Comparison between lecture capture systems and services .................................................. 10-30
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2. The REC:all project
REC:all is a transnational learning technology project (2011-2014) supported by the European Commission
under the Life Long Learning Programme. It aims to explore new ways in which lecture capture can become
more pedagogically valuable and engaging, and is investigating a variety of learning design, technical and legal
issues.
2.1 Aims of REC:all
REC:all researched how lectures are currently being captured and used, exploring learning designs for flexible
and off-campus delivery, reviewing technical, pedagogical and legal issues with an aim to producing practical
guidelines such as this one to help teachers. The project has developed an active community of practitioners in
this exciting area [www.rec-all.info] working with existing academic communities such as ViTAL (UK) and
Special Interest Group (SIG) Web lectures (Netherlands).
As part of the project REC:all tested a range of lecture capture ‘cases’ as carefully selected mini-projects. The
projects were fully evaluated with a focus on student feedback. The aim was to develop transferable and
tested pedagogical models, reference descriptions and benchmarks of good practice. These were released in
2013 as a set of REC:all guidelines –technological/pedagogical guidance fully supported by web resources
including examples of use which will be released via the REC:all web site above.
2.2 Partnership
The REC:all partnership consists of:
University College London (UK) - Project Leader
ATiT (Belgium)
Université de Lorraine (France)
Vrije Universiteit Amsterdam (Netherlands)
Universitat Politecnica de Valencia (Spain)
2.3 Background Information
More and more universities across Europe are recording their live lectures (and other events) and then putting
them online as a way to support both on and off campus students. This is linked to a renewed interest in using
digital video as an educational resource to support more open models of learning. We are therefore now
seeing significant investment throughout the sector in video-based technology such as lecture capture,
podcasts, multimedia lecture theatres, i-Tunes and internal YouTube-like services. The rationale is clearly to
enhance the student experience on and off campus by providing better access to teaching events.
In most situations this recorded material is still presented in very traditional linear formats which do not
support significant re-use and re-purposing in a pedagogically innovative manner. However there is a growing
interest in identifying active patterns of student usage of these resources, the potential of feedback to teachers
on the original event and the linking in of social networking tools to identify and discuss educational ‘hot spots’
in the video resource. Lecture capture can also be used to develop rich media podcasts for mobile learners and
integrate seamlessly with institutional virtual learning environments. As mobile capture tools evolve we are
beginning to see students themselves sharing video clips, bringing 'social' video into the educational
mainstream. Eventually we may see a convergence of institutionally and student generated resources.
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Lecture capture is therefore increasingly emerging as a core technology for generating open educational
resources for virtual campuses. REC:all aimed to challenge the prevailing view of lecture capture as a passive
recording method. Lecture capture can offer unprecedented opportunities for reflective educational practice
and development as previously ephemeral events can be shared, analysed and linked quantitatively to student
engagement.
There are further important areas of innovation identified by the REC:all team. Hardly any of the existing
literature address the next generation of lecture capture technologies that will emerge during the lifetime of
REC:all. New systems will certainly include 'social video' aspects. There are already models for this, Young and
Meldgaard (2006) proposed a participatory model of educational video use that foreshadowed current Web 2.0
notions of ‘social video’. Another interesting pedagogical redesign to emerge recently is the use of pre-
recorded lecture content to radically reformat the learning process. This is known as ‘mastery learning’
(Bergmann and Sams 2010) or, more colloquially ‘flipping’ and is growing in popularity in the US secondary
schools. In this model, students watch pre-recorded lecture content or ‘vodcasts’ at home and class time is
spent in engaging hands-on activities and directed problem solving. UCL has been discussing the use of
pervious year and bespoke web lectures to provide a hybrid model where the reliance on face-to-face lectures
is gradually reduced.
REC:all was therefore particularly interested in exploring these exciting ideas and filling in some of the large
gaps in evidence. Our main aim was to overturn the view of lecture capture as a passive recording method and
take advantage of the affordances of the newer systems have encouraged interest in identifying active patterns
of student usage, the potential of feedback to teachers on the original event and the linking in of social
networking tools to identify and discuss educational ‘hot spots’ in the video resource.
Through a number of projects since 2003 the REC:all team established itself as the core of a community of
experts stretching across the EU. All the partners have worked together in various projects, with a particular
mention to VideoAktiv and the various MEDEA initiatives that arose from it and the recognition that there was
the need to build a broader community of practice which should meet regularly through conferences and
recognise its own quality practice through awards. The REC:all project is very much part of this broader
initiative as we believe that in addition to being a ground-breaking learning technology in itself, lecture capture
will bring in a new generation of media practitioners and users.
The REC:all community is active on www.rec-all.info and http://association.media-and-learning.eu.
Page 3-6 | How to move beyond lecture capture: Technology guide
3. Introduction to Lecture Capture as a
technology
3.1 History
Lecture capturing is much older than we may think initially . Let’s not forget that learners ages ago started to
record what was said in class (or part of it) by means of pen and paper. Then, as technology developed, early
examples of video recording appeared at Iowa State University in the 1932, the teleclasses of the Open
University UK, and videoconferencing experiments live in classroom. These were all forms of captured lectures,
most often with the students present in the classroom.
Iowa State University TV (by Special Collections Department / Iowa State University Library)
In the 1980s, when video and audio recorders came available for the prosumer market, people started
recording classes for the first time on videocassettes and more recently students began to record the lecturer’s
voice from the front row on their audio-recorder, to take it home for later review. These were all early forms of
‘capturing’ lectures. The wish to capture is very old but the technologies that help us to automate this have
developed tremendously in the last 10 years. When digital video recording technology made its way into the
prosumer market lecture capture really started to take off. Being able to put recordings directly on a computer
opened a range of new options for these recordings, mainly enabling editing, adaptation and distribution.
Then, with the emergence of the internet and faster computer processors, these recordings could then be
distributed without hardly any constraints of time and place, and streamed live, uploaded for later review on
sites like youtube.com and vimeo.com or integrated in for example a Virtual Learning Environment. Simple
step- by- step processes have been introduced so that non-technical people such as students, teachers and
school administrators can also now record, manage and distribute captured lectures.
Meanwhile lecture capture systems have developed into advanced and sophisticated services that allow for
split screens, picture in/over picture, side by side pictures etc. to show the talking head of the lecturer besides
a computer screen or white board. User-friendly editing programs that are integrated inside the lecture
capture system enable almost everyone to transform long recordings into manageable content, which may be
annotated, subtitled, tagged etc.
3.2 The definition of lecture capture
Lecture capture refers to the process using classroom-based hardware and software components often
installed for (digitally) recording, archiving and distributing all audio and visual content of a lecture, conference,
or seminar. It is the recording of live events such as a live lecture, presentation, seminar, conference or
workshop. Not only the person who is presenting is recorded, but also the slides, screens, applications or
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drawings ad graphs he or she is showing. Via a web browser these recordings can then be viewed in a single
screen on PCs or other internet connected devices. The terms "web lectures “ /“lecture capture” and "video
lectures" refer to the same approach and are commonly used in education, while in business the term "online
presentation" is more usual. (Filius, 2008)
In a recent Wainhouse report, Alan Greenberg1 writes that lecture capture was an outgrowth of the video
streaming business, which tended to focus on audio and video delivery. Some streaming companies recognised
that adding other forms of content (PowerPoint presentations, Flash animations, video clips, quizzes, polls and
surveys, simulations and screen recordings etc.) would serve colleges and universities very well.
The lecture capture system records and archives content delivered in the classroom, including audio (such as
the lecturer's voice), computer feeds (the presentation), and sometimes video (the talking head of the lecturer,
or the writing on the white- or blackboard). The student can then immediately or afterwards view the class and
search its contents via a browser on a computer or as a file downloaded to some other kind of device.
Increasingly students are using mobile devices such as iPods, iPads, other smartphones or tablets etc. With the
emergence of social networks like Facebook, YouTube, Vimeo, iTunesU etc. new forms of lecture capture
distribution are emerging beside the often closed Virtual Learning Environments, making distribution and
sharing content worldwide easier than ever.
Even though the technology is only less than 10 years old, the definition of lecture capture above is already
starting to blur. At its base, lecture capture is a solution that captures classroom-based activities (including
whole class sessions on line as well as off line) in a digital format that is then available for download or
consumption over the internet. But also beyond the physical constraints of the classroom, teachers start to use
(web based or off line) lecture capture systems to record their own home produced short learning material
videos or “knowledge-clips”. It seems now that lecture capture is becoming a collective name for all that has to
do with video recordings of teaching materials (lectures) in education settings.
In this review we try to outline some of the existing and emerging techniques that can change the way
education is experienced. In this first version we will describe the technology in general based on commonly
accepted definitions. The objective of this is to come to a descriptive matrix of lecture capture systems which
will help us to collect data and experiences from users as well as descriptions and specifications of systems by
lecture capture system providers. Such matrix eventually may help organisations to assess, compare and
possibly select a lecture capture system that suits their particular needs and requirements. In this first version,
we lay the foundation for this comparison, which will be published in spring 2013.
1 Greenberg, A., “Distance Education and e-Learning Landscape”, Wainhouse Research 2010
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4. Current state-of-the-art and types of LC –
introduction to the LC Descriptive framework
4.1 Components
Lecture capture consists of three distinct elements: the recording (or capture itself), the storage and
management of the recorded lecture, and the retrieval and display (or playback) of the recorded lecture. These
3 components can run concurrently or at the same time, and then we speak of live viewing of lecture capturing,
or one after the other, and then we speak of on demand viewing of lecture capture. To describe the technology
more in detail, in this chapter we make a distinction of the technologies used for each of the three
components, but it is important to keep in mind that many lecture capture solutions do not make the same
clear distinction because they integrate recording, storage, retrieval and playback and both synchronous (live)
as well as asynchronous (on demand) viewing within a single service or application.
Moreover, lecture capture systems almost always integrate with technologies that are already available or
installed at the classroom or lecture hall or in whatever place where the lecture capture recording takes place.
This is the case mostly for end user equipment such as the PCs on which the software runs, or cameras and
microphones etc. but also for the operation of projector and screen, lights and blinds for example by means of
a lecture automation system such as AMX, Crestron or Cue. This flexibility allows for the installation of lecture
capture recording especially in almost any room where the lecture can take place and the requirements for
such room are minimal: must have sufficient space to accommodate the “actor(s)2” and the equipment, must
have sufficient light to produce good quality video images of the “actor(s)” and their attributes (Blackboard?
Demonstrations?) and finally must be sufficiently quiet to allow good quality voice recordings. This is really
most important as on average 80% of the essential information transfer in a lecture is by audio (voice).
4.1.1 Recording
The lecture can be recorded in several ways: it can start automatically (with programmed equipment that starts
recording for example set by a timer or by a programme schedule), with an operator (this can be a student who
operates the capture equipment) or by the teacher (who starts the recording). All recording equipment
(cameras, recorder, and audio) can also be controlled with some degree of automation or manual operation:
note however that camera and sound operators are an important additional cost that can be minimised by
allowing students to carry out these functions.
2 With “actor(s)” we mean all persons that are essentially involved in the delivery of the lecture (this could be the following: lecturer, student, assistant, lab assistant etc.) and in the capture of the lecture (recording technician, assistant…).
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a) Hardware
Hardware is used to capture and record the lecturer's voice along with a video of the lecturer and most often
also with visual aids to support their presentation: slide shows or simulations or PC screen capture videos.
These captured lectures are then presented to the audience with some connected projector or display.
The recording of a lecture or presentation may use any combination of the following tools:
Microphone(s)
Lecturer microphone
It is advised to use a microphone that is close to the mouth of the speaker: the further away the more
unwanted noise can be picked up by the microphone. We suggest using clip on or lapel type microphones or
headband or headset microphones, certainly when the speaker moves around in the classroom, and then in
combination with a wireless transmitter so that the speaker can wander around without limitations (but see
reference to cameras below).
When the speaker does not move around, one can consider table microphones, in that case it is worthwhile to
also look at PZM (Pressure Zone) microphones or boundary type microphones as they are effective in
prioritising voice over surround noises. Again a headset or headband microphone is an excellent solution here.
Note also that in a very noisy environment even the best or most expensive microphone will not be able to
record good sound, it is therefore always more effective to invest more in getting the microphone closer to the
speaker rather than to buy a more expensive microphone.
Page 4-10 | How to move beyond lecture capture: Technology guide
Student or room microphone
When it is necessary to also record the voice of the students attending the lecture in the same classroom, the
situation can become more complex. A simple solution is the use of a wireless handheld microphone that is
passed around in the auditorium, a complex solution is the installation of a conference system with push
button activated microphones on every desk. Room microphones that cover the whole auditorium to record
the voice of individual students can be disappointing. They require expert research and installation. Note also
that using more than one microphone will make the application of some kind of mixing device necessary: such
audio mixer allows selecting or prioritising one audio source over the other. Although that there are
“intelligent” automatic mixing desks, this may require manual operation and therefore become expensive and
difficult to deploy on a large scale.
Camera(s)
Presenter’s or lecturer ’s camera
Depending on the classroom dynamics or their teaching style, the lecturer will be moving around in front of the
class or throughout the whole classroom, or be seated at his/her desk without moving around. This affects not
only the way that the voice will be recorded (and thus the choice of microphone) but also how the lecturer will
be captured on camera. When sitting or standing at the desk, a simple fixed camera, even a webcam, can be
employed. This is the most cost effective solution.
When moving around it may be necessary to use a wide fixed angle camera that covers the whole area of
movement, or a range of cameras that are covering parts of that area. With a wide angle camera the view of
the lecturer may be so distant that there is limited capture of lecturer presence and body language. With
multiple cameras however, some method of switching will be necessary: built in floor sensors can trigger the
appropriate camera to be switched. This type of solutions can become quite expensive and difficult to install in
auditoria.
A better solution is the use of a movable camera that zooms in on the lecturer and that follows him/her
wherever they go. The so called Pan Tilt Zoom camera (PTZ camera) is used already for many years in
videoconferencing: the camera can be adjusted by means of a remote control, or can be set up with a number
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of pre-sets that can be recalled easily. PTZ cameras can be mounted in the room on furniture or on special
tripods or can be even mounted upside down on the ceiling.
Some PTZ cameras can be made to “track” the speaker by following a tracker or marker that is fixed to for
example the clothing or the microphone of the speaker. Research is being done on intelligent automated
tracking of the speaker.
Alternatively it is also possible to install a manually operated camera in the room, but having a permanent
camera operator will have a serious cost implication.
Whiteboard/blackboard camera
Similar cameras can be used to record the writings on the white or blackboard, when the lecturer makes use of
this. To do so, it is important to carefully decide where to position the camera with regard to the board.
Room camera and student camera
Again similar cameras can be used to capture the activity in the whole auditorium, of groups of students or of
individual students. To be able to adjust the camera to the specific part of the room or to the student(s) that
need to be recorded, this camera needs to be adjustable or (remotely) operated.
Document camera
Lecturers that prefer to draw on paper or show small objects, can use a document or overhead camera, also
known as visual presenters or visualizers. These are video cameras mounted on vertical brackets so that they
can be placed over a document or object. When a paper is positioned underneath, the lecturer or presenter
can write or draw on it while the viewers watch it on their own screen or on a projection screen. Small objects
such as electronic boards can also easily be visualised in the same way.
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Screen capture
The screencast or video screen capture is the digital recording of computer screen output, often accompanied
with simultaneous audio narration. Screen capture can help demonstrate and teach the use of for example
software features. Screen captures are basic and easy ways of integrating technology into learning content.
Screen captures provide high quality and easily readable recordings of screen contents, which is not so easy to
achieve by recording the computer display with a video camera.
Presentation capture
Last but not least is the recording of the presentation, this is somewhat similar to the screen capture recording.
The PowerPoint or other presentations that the lecturer gives during the lesson, is recorded together with its
interactions (pointer, clicks and moves) and with the voice of the presenter. This recording is than plaid back
together with the voice (and image) of the lecturer, making what is most often the basic core element of a
captured lecture.
b) Software
Software is used on the capture hardware, on the production or distribution server, and on the viewer’s
computer. Software ranges from simple web browsers and video players to stand-alone software programs
made specifically for recording, managing and viewing lectures. In some cases the whole workflow of the
lecture capture is managed inside a single software platform, and is the browser the only interface with the
user that is independent of and not provided by the lecture capture system provider.
The presenter's software (sometimes as a browser plug in or as a web based application or web service) as well
as the viewers’ player must be compatible with the software on the server which receives the content from the
capture hardware, produces it, and sends it live (synchronous) or on-demand (asynchronous) to the viewers’
computers. Lecture capture software suites in many cases also allow for editing and adapting the content.
Recording technology: there are different ways to produce (record) lectures:
Using specialist software and/or hardware for recording lectures (Echo 360, Panopto, Sonic Foundry...)
Using a video conferencing system (Polycom, Cisco) or web conferencing tool (Adobe Connect,
Spreed, WebEx, Big Blue Button, Skype, FlashMeeting, OpenMeetings...)
Using screen capture software (e.g. Camtasia Studio, Microsoft Expression, Adobe Captivate, Movavi
Suite, Jing, Screencast-o-Matic...)
The different systems are described in further detail under each of the lecture capture provider descriptions in
the annex.
4.1.2 Archival
Once recorded, the video, images and sound are then automatically combined into a single asset and either
stored directly on the capture hardware or sent to a server over a LAN or the Internet. The video is processed
to adapt it (encode) to the desired distribution mechanism and to enable the viewers to remotely access the
recording, either in real time or in delayed viewing over the Internet. Lecture recording software increasingly
supports advanced features such as indexing (through OCR or voice recognition), closed captioning, instant
search, chapterisation, real-time video editing and annotation, metadata attribution etc.
Storage of media assets requires large capacity: depending on the format (coding and compression) of the
video, audio, presentations and other source elements, one minute of course programme uncompressed
containing live video, slides and audio, can easily take as much as 1 GB. This is of course unmanageable and not
scalable when all lectures within the institution have to be recorded. Therefore and because it will be
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impossible for networks to handle the bandwidth required to transport such large files, management of the
compression and encoding is essential from the recording stage to the distribution stage, including the storage.
Archival also needs to meet the increasingly diversified demands of the students to access the media on the
various devices they own.
4.1.3 Retrieval
The most common method of retrieval of lecture recordings is on the PC that is accessing the web based media
by means of a browser with a common media player and/or plug in such as Flash or Windows Media Player or
other web based client.
Students own different devices with different players, and different functionalities. Some students want to use
their mp3-players, for example an iPod, where they upload audio-only files from lectures to listen again on a
later moment. Podcasting (audio only) and Vodcasting (downloadable video playback) are now also available
on tablets or Smartphones, connected to the campus network or the internet access allowing audio and video
playback. Due to the emergence of mobile systems that do not support Flash (e.g. the popular Apple iPad and
Android based mobile devices) a new standard for playback and display is emerging: HTML5.
Note these same devices can also work as cheap capturing devices as they can act as audio or video recorders
with the built in camera and microphone, acting as audio-visual note taking apparatus. Livestream is now
introducing fast mobile broadcasting with its Producers iOS app from any Android or iOS based smartphone
over 3G, 4G/LTE or Wi-Fi.
A similarly smart and mobile device is the pen scanner, with which it is possible to audio record a lecture in
sync with handwritten lecture notes, and then for example searches the same text and audio in a captured
lecture.
4.2 Types of systems
Lecture capturing can be done in many different ways: with large permanent recording systems that are small
studio implementations, over personal systems that are desktop based to mobile systems that are individual
small systems or roll about systems that can be set up with ease in every classroom. In the classification of
systems that we developed in the REC:all project, we will indicate what category each of the systems we
identified and described belong to:
1. Large room/auditorium
2. Desktop
3. Mobile
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5. Functionalities
The following is a non-exhaustive list of key functionalities of lecture capture systems that we came across in
installations and uses in various institutions.
5.1 Integration
The possibility to embed (integrate) the access to the lecture entirely within the own site, and preferably within
the institution or university’s virtual learning environment, or if that is impossible in other sites (for example
provided by the lecture capture provider).
5.2 Scalability
Scalability is an issue on different levels: on a purely technological level scaling up the network solution for
example can help overcoming buffering and video quality issues to ensure a good user experience. Reliable
delivery is essential to ensure that all students have equal access to and similar experience of the learning
content.
Scalability is also an issue related to operation and management of the lecture capture: for example when the
recording, editing and storage of the lecture recording require a lot of human interaction (e.g. camera
operation or audio control by a dedicated camera or sound person, editing by expert etc.) Automatic lecture
capture receives increasing attention: tracking techniques keep the camera focused on the lecturer and zoom
in on audience members when they talk, making expensive video production teams unnecessary. Automatic
synchronization of slides with video, teacher's annotations and other non-digital contents do not require post
production by professional staff. Automation and self-operation allow thus for up scaling of the solution and
larger deployments.
5.3 Customisation
Customisation allows the users (lecturers as well as students) enough freedom to customize the display and its
layout, particularly as multiple image or content sources are brought into the lecture stream.
5.4 Interactivity
Some lecture players allow students to interact with the content and with each other using their webcams,
text, and social networking sites, rather than simply viewing the lecture. Interactive elements such as the ability
to submit written questions to lecturers in real-time, offer the lecturers an additional opportunity to address
the questions of learners attending a live lecture.
During the project students of the Hogeschool Utrecht experimented with live tagging of web lectures: during
and after the lectures students could use their notebook or smartphone to add comments, links and other
information on the timeline of the lecture. The complete web lecture is then made available online, including
the students annotations.
5.5 Mobility, mobile production and delivery platforms
Today’s students expect the content to be available on any device, whether it’s a PC in the student’s dorm, a
tablet, or a smartphone. Lecturers are equally keen on mobility and want to be able to create their lectures in
the auditorium in front of a live student audience, or at home in front of their desktop PC.
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Small and portable lecture capture systems consist of a “black box” that needs to be connected with camera,
audio device, presentation device (PC) and the network allow for fast and easy deployment at a very low cost
of installation and operation.
Example of a mobile live streaming device (by Epiphan)
5.6 Close captioning, subtitling and accessibility features
There are important benefits of captioning and subtitling of videos and of lecture capture programmes in
particular: captions make these programmes accessible for viewers who are deaf or have reduced hearing,
translating and subtitling make it possible to follow programmes in languages that the students don't speak, or
to distribute learning programmes beyond linguistic boundaries. Learning materials can be accessed by a
bigger, international and multilingual audience providing a global outreach to the institution.
Transcription, translation and subtitling are laborious jobs that take a lot of time and effort and need to be
done by competent people in order to be reliable. Media production techniques in video editing exist to do
this, but these tools are very hard to scale up or to justify in an education context. Besides commercial
organisations that do transcription, captioning, translation and subtitling (largely manually), there are also
initiatives that try to bring subtitling more in reach of the end users.
Amara is the organisation behind the free and open source tools are that can make the work of subtitling and
translating video collaborative and simpler. These tools are a subtitle creation and viewing tool, a collaborative
subtitling website and an open protocol for subtitle search and delivery. The result is www.amara.org. This site
does not allow yet direct integration of subtitles or captions in the lecture capture but it is a first step in sharing
subtitling projects.
In the UK there are some experiments with the use of Twitter to add subtitles or captions to lecture recordings.
More elaborate techniques are based on voice recognition e.g. YouTube.
5.7 Voice recognition
Speech recognition can be used as a transcription solution by students and teachers that need to capture
lecture content in writing for close captioning or subtitling. But speech recognition is highly speaker dependent,
it can only accurately transcribe the voice of a single speaker who has “trained” the system. So in theory each
lecturer should use his or her own speech recognition while lecturing to the class, to have an immediate
transcript of the lecture.
Voice recognition software can also be used to transcribe lectures using a technique called parroting. When
playing back the recording of the lecture through the headphones of the student can repeat the recorded text
as he or she hears it played back in the microphone, and in that way transcribing the audio. Research is
currently underway to see if in that way real-time captioning and transcription of class lectures can be made
possible. The whole process requires a high level of quality assurance to guarantee acceptable quality content.
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5.8 Automatic translation
A next step when lectures are transcribed is text based automatic translation. Translectures
(http://translectures.eu/) is a EU funded research project that wants to research how to make transcription
and translation of captured lectures easier, both by the current technology on automatic speech recognition
(ASR) and machine translation (MT), but also with the development of more user-friendly user models for
transcription and translation. Tests with this new methods are published on videolectures.net.
5.9 Social mark-up (commenting) and networking features
Lecture captures can become the hub of the multimedia learning experience in which social media as well as
traditional media all have their own place: such ecology can consist of syllabus material such as slide sets
(posted on Slideshare), lecture recordings, course notes but also searchable transcripts and subtitles (on
Scribd), lists of related URLs (Delicious), student annotations and recorded discussions, social media discussions
(Twitter), and finally a Wiki for frequently asked questions, class based note taking, group work and content
development.
5.10 Automated indexing and metadata
It is essential to search and find lectures after they have been recorded. In order to do so lecture recordings can
be stored on media servers accompanied by their own (learning object) metadata. Learning Object Metadata or
LOM is a data model (usually in XML) that describes learning objects or resources for their identification,
discoverability, reusability and interoperability. The IEEE 1484.12.1 – 2002 Standard for Learning Object
Metadata is an internationally-recognised open standard used by many learning content creators and providers
as the basis for the description of their learning objects. Relevant attributes of learning objects to be described
can include amongst others: type of object; author; owner; terms of distribution; format; and pedagogical
attributes, such as teaching style.
The example of learning object metadata below follows the IEEE LOM standard as it is applied by the LOREnet,
a tool developed by the Dutch SURF foundation for sharing knowledge within and between different
universities. By registering captured lectures with LOREnet, they can be found, accessed and reused by
students and lectures of all Dutch universities. The list of metadata specifications below is only partially
compulsory.
Name Explanation
Subject area: General This category groups the general information that describes this learning object as a whole
Identifier A globally unique label that identifies this learning object.
Catalogue The name or designator of the identification or cataloguing scheme for this entry.
Entry The value of the identifier within the identification or cataloguing scheme that designates or identifies this learning object.
Title Name given to this learning object.
Language The primary human language or languages used within this learning object to communicate to the intended user.
Description A textual description of the content of this learning object.
Keyword A keyword or phrase describing the topic of this learning object.
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Name Explanation
Coverage The time, culture, geography or region to which this learning object applies.
The extent or scope of the content of the learning object. Coverage will typically include spatial location (a place name or geographic coordinates), temporal period (a period label, date, or date range) or jurisdiction (such as a named administrative entity).
Role and Contribute
Life Cycle This category describes the history and current state of this learning object and those entities that have affected this learning object during its evolution.
Version The version or edition of this learning object.
Status The completion status or condition of this learning object.
Contribute Those entities (i.e., people, organizations) that have contributed to the state of this learning object during its life cycle (e.g., creation, edits, publication).
Role Kind of contribution (author, editor...).
Entity The identification of and information about entities (i.e., people, organizations) contributing to this learning object.
Date The date of the contribution.
Language Language of this metadata instance.
Technical This category describes the technical requirements and characteristics of this learning object.
Format Technical data type(s) of (all the components of) this learning object.
This data element shall be used to identify the software, player or viewer needed to access the learning object.
Size The size of the digital learning object in bytes.
Location A string that is used to access this learning object. It may be a location (e.g., Universal Resource Locator), or a method that resolves to a location (e.g., Universal Resource Identifier).
Duration Duration of a continuous learning object when played at intended speed.
Educational This category describes the key educational or pedagogic characteristics of this learning object. This metadata is aimed at teachers, managers, authors, and learners.
Learning Resource Type Specific kind of learning object. The most dominant kind shall be first.
Rights This category describes the intellectual property rights and conditions of use for this learning object.
Cost Whether use of this learning object requires payment.
Copyright and Other Restrictions Whether copyright or other restrictions apply to the use of this learning object.
Description Comments on the conditions of use of this learning object.
5.11 Integration with VLE platforms (Virtual Learning
Environments)
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Lecture recordings in short time have started to play an important role in higher education, integrated into
specific VLEs or in generic forms of eLearning. Lecture capture systems are quickly becoming an emerging tool
in VLEs to generate didactic material directly inside the learning platform, embedded in the classroom schedule
and accompanied with other course materials and classroom or individual activities. Some VLEs have their own
tool integrated (Blackboard and Elluminate, Moodle and AutoTrain…). Non VLE based lecture capture systems
offer ways to integrate (embed) the captured lectures immediately in whatever VLE the institution may be
using.
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6. Technical trends and development
6.1 Common trends
In “How to move beyond lecture capture: pedagogical guide” Clive Young and Sylvia Moes predict that “...the
technology of lecture recording is evolving rapidly offering new opportunities to use recorded material. For
example we can now identify active patterns of student usage of video recordings, offering the potential of
feedback to teachers on the original event. Modern systems enable the linking in of social networking tools to
identify and discuss educational ‘hot spots’ in the video resource. Lecture capture can also be used to develop
rich media podcasts and ‘knowledge clips’ which integrate seamlessly with institutional virtual learning
environments and can be downloaded for mobile learners.”
Thanks to lecture capturing, students can view the lecture online before they arrive in the classroom, so they
can spend the largest part of the contact hours in class to discuss the topic with the lecturer or to begin
practical work individually or in group. In that way captured lectures in combination with tutoring, classroom
practise and discussion form the pathway to the deployment of the flipped classroom.
Mobile and desktop capture tools, web video, social media also empower students to share, re-use and mash
up video clips, annotate and recommend them, leading possibly to a convergence of institutional and student
generated resources. Cloud computing will enable lecturers, students and learners to share knowledge and to
exchange information within secure and safe environments without the risk of breaching their privacy.
Augmented reality may soon take advantage of knowledge clips that are distilled from lecture capture that can
be called to overlay and enhance real world situations in order to allow for just in time and just in place
learning.
6.2 Future developments
6.2.1 Attendance certification
Personal identification is an important issue in (e-)learning: the distance between learner and teacher
sometimes does not allow for verification of the identity of each student with the option of earning a certificate
or diploma of completion after attending a programme of study. Several techniques are being developed:
complex and error prone systems using tokens, passwords or identity cards have been received with
scepticism. Developments of mobile identification using QR Code or on-line certification using number by voice
could guarantee in the future that students have followed (listened to and watched), a complete recorded
lecture. Number by voice is based on the automated injection of unique, randomly selected and pre-recorded
integer numbers within the audio trace of a video stream, which need to be identified by students. Such
systems can of course only verify attendance of students and not their understanding or acquisition of the
knowledge, skills, attitudes or competences. MOOC provider Coursera uses facial and typing characteristic
identifier to verify users identity on some programmes.
6.2.2 Automated camera tracking
LectureSight, automated camera tracking to be integrated with Opencast Matterhorn, but an open system that
can be integrated in other systems, an automated camera control system in a lecture room, stable tracking of
the lecturer throughout the whole presentation.
The part of the system that controls the PTZ-camera is split into two separate modules for this reason: The first
module, the so called 'camera steering worker', deals with moving the camera, while the second module
decides about the targets for the camera movement based on data provided by the scene analysis. The actual
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strategy this 'virtual director' uses is defined via a JavaScript API. The idea is to provide maximum flexibility
when it comes to customizing LectureSight for an individual class room.
Most of the lecture recordings in Tel Aviv University (TAU) are made by students sitting behind the camera and
tracing the lecturer. Though the staff cost is not so high, there is quite a problem finding students to keep on
working at least for a whole semester long. The most difficult problem in lecturer tracking system, is not the
processes of tracking the lecturer or identify him from others crossing the camera frame but to make the
intelligent decision whether to keep on tracking the lecturer while he moves away after writing something on
the board or stop the tracking and remain on the written content on the blackboard previously written by the
lecturer. The "LectureSight" tracking system could be integrated with video management systems other than
Opencast Matterhorn. The module provides a solution to automatically track speakers in a classroom situation,
thus providing a more convenient shot of the instructor when compared to a fixed overview camera. The goal
is to come to a subjective quality close to a human-controlled camera in a standard setting, thus reducing the
staffing cost for lecture recording significantly.
Parts of an automated system:
1. a scene analysis that discovers and tracks the positions of moving objects in the scene
2. a plug-in mechanism for object analysis modules
3. a facility for communicating with PTZ cameras (currently supports Sony VISCA protocol)
4. a module that controls the movement of the PTZ camera
5. a virtual camera operator that executes camera control strategies defined in JavaScript
6. a GUI for tuning the system for individual class rooms
Player interface of the automatic camera tracking system LectureSight
6.2.3 Other developments
Further developments that are expected to trickle through in education applications are coming from the world
of corporate and commercial media streaming. Amongst them are:
Event notification systems that notify registered invitees that an online meeting such as a live lecture capture is
starting can help boost attendance and effectiveness for students.
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Peer-to-peer networking solutions help spread the workload in peak distribution situations to minimise
bandwidth strain when very large groups of students are following the same presentation at the same time,
which can causes high levels of video data traffic that can cause problems on corporate networks.
Integration of attendee identification and registration to collect information from students and in addition
analysis of viewer’s trends. Analytics can help to keep track of who followed lectures and for how long.
Systems that allow for image, motion and sound recognition, and in that way can help for example extract
automatic metadata, or help chapterise, index and slice long recordings. Content recognition can also help with
the deeper analysis of image, motion and sound and be the first step to analysis based assessment and quality
assurance of lecture capture content from both the lecturer and the student’s point of view.
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7. Technical guide and advice, tips and
suggestions
Lecture capture has recently emerged as a must have technology for the future. It’s no longer a tool confined
to education as IT professionals across industries are beginning to recognize its ability to increase access to
information, save money and reduce downtime.
7.1 What is Lecture Capture?
Lecture capture is any platform that records a meeting, lesson or presentation in a digital format. The video is
then either posted online for later viewing or set up for on-demand screening. In most cases, content can be
integrated with a pre-existing learning management or content management system.
There are different types of lecture capture solutions available. Some are appliance based and require the
purchase of company-specific hardware. For example, Sonic Foundry’s Mediasite requires the user to purchase
the Mediasite recorder. The recorder is available in a small mobile size or a larger room-based size. The
recorder captures video that can then be streamed or downloaded to any device as an mp3 or mp4 file. In this
case, the video content can also be burned to a CD or saved to a USB drive audio recording. Other times an
external camera or microphone can be connected as well.
Most lecture capture solutions include basic editing functions and may come with a closed captioning option. A
few like Mediasite and Tegrity offer custom branding which allows the user to add a company or institution’s
logo to the video as well as change a graphic’s colour and appearance.
7.2 Common Fears
The most common fears associated with lecture capture are security and copyright issues. Security concerns
generally arise around hosting. Some users are not comfortable hosting content on the cloud or outside their
own firewalls. The fear is that a hacker or a virus could potentially exploit vulnerabilities in a company’s
security measures. Some users prefer to host content on their own servers, relying on their own antivirus
protection and firewalls which are maintained by the end users own IT department. Fortunately, solutions like
Panopto Focus provide multiple options for hosting, which allows the end user to choose the method that
makes them most comfortable. A user can choose to host content on-site, have content hosted by the lecture
capture company or store content in the cloud.
Copyright issues usually appear in two forms. The first is when viewers use your content without attribution or
consent. For example, you post a video of a meeting or a speech and a viewer re-posts it on their own site
without attribution. If the recording you made is posted online it’s easy for someone else to copy the link or
embed the video somewhere else. The second way copyright issues emerge is when you may be using
someone else’s information. For example, you include a graphic in your PowerPoint presentation or a quote
from a third party source. If the material isn’t properly attributed it is considered plagiarism.
Other solutions are software based. For example, McGraw Hill’s Tegrity is a Web-based software application
that allows users to store content on the cloud or locally. These solutions often use the built-in camera and
microphone on a desktop or laptop computer for video and
Unlike most technology applications, lecture capture solutions are likely to enjoy a relatively barrier-free path
to widespread adoption. Over the last few years, many institutions have invested in outfitting their classrooms
and lecture halls with significant audio-visual (AV) technology, including whiteboards, projectors, wireless
Internet connectivity and laptop computers. As a result, a significant percentage of classrooms are already
prepared for the introduction of a lecture capture solution and require little additional investment in hardware.
As institutions implement lecture capture, they often find that the rate of adoption is determined not by the
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need to obtain faculty and student acceptance but by how quickly additional classrooms can be equipped with
the necessary AV equipment.
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8. References and further reading - Erasmus Recording and Augmenting Lectures for Learning (REC:all) project
http://www.rec-all.info/
- REC:all's collection of resources associated with the new pedagogies of lecture capture
http://www.scoop.it/t/rec-all/
- Oasis/OASE project
http://www.weblectures.nl/ (in Dutch)
- ViTAL Video in Teaching and Learning (UK-based educational special interest group linked to REC:all)
http://vital-sig.ning.com/
- http://www.universitybusiness.com/article/lecture-capture-fresh-look
- Mobile learning:
o http://www.kenniswiki.nl/Mobile_learning#Welke_systemen_zijn_in_gebruik
o http://www.surfnetkennisnetproject.nl/publicaties
- Different methods:
o http://curve.coventry.ac.uk/open/items/7b94c9db-fb17-fbee-43af-
a11fb4249a9c/1/What%20About%20different%20methods%20of%20lecture%20capture.pdf
o http://www.atimod.com/podcasting/2-mobile.shtml
o http://www.atimod.com/podcasting/3-enhanced.shtml
o http://www.impala.ac.uk/
o http://www.weblectures.nl/
o http://www.indiana.edu/~mdpiub/CTS/CCUMC.html
o http://www.alt.ac.uk/events/lecture-capture-conference
o http://newsletter.alt.ac.uk/2011/08/highlights-from-%e2%80%98lecture-capture-doing-it-
well-and-at-scale%e2%80%99/
o http://www.educause.edu/ero/article/lecture-capture-what-can-be-automated
o http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=6123405&abstractAccess=no&user
Type=inst
o http://video2.virtuos.uni-osnabrueck.de:8080/engage/ui/watch.html?id=6dba66d9-0a53-
45ed-bc67-7ab3bf50b31c
o http://lecturesight.org/
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9. ANNEX: index of suppliers
In this annex you can find a short description of the most common or well-known lecture capture systems.
These are selected amongst those systems that are self-built, as is the case in a large number of universities,
systems that are often based on existing hardware and software components, complemented with own
developed tools and services. Furthermore we will list the systems that are available on the market as
commercial or free and open source products. This is a non-exhaustive list of systems, the list will be updated
online via the REC:all website:
9.1 Accordent Classroom Recording
Accordent Classroom Recording is based on Accordent’s multimedia asset management system that enables
organisations such as HEIs to manage, search and secure online multimedia presentations created with
Accordent presentation tools, as well as archived versions of content from videoconferences, web conferences
and video clips. Accordent is part of Polycom since 2011.
9.2 Adobe Connect
Adobe Connect is a web conferencing platform that can be used for eLearning and webinars. It is a rapidly
deployed, saleable service that support multiple media and content formats. Persistent virtual classrooms
allow for playback at all times. The system allows for a great deal of flexibility and interaction, mobility as well
as multi party ingestion of content and real time learner tracking to maximize participation. Adobe can function
as a Learning Management System (LMS) or be integrated with existing LMSs.
9.3 AutoTrain
AutoView is a cloud like lecture capture, an easy to manage, centralised service that can be almost seamlessly
integrated with Moodle and operated entirely from within the web browser. Teachers and students can stay
within the VLE to watch video courses or participate in live lecture broadcasts. AutoTrain is the result of a
successful, long running European Social Fund project of a spin off of the University of Birmingham. The
company builds paid bespoke new features or or provides support upon request.
9.4 BigBlueButton
BigBlueButton is an Open Source Web Conferencing system for on-line learning. Its latest version features a
simple users interface, APIs for integration with 3rd party applications, record and playback of whiteboard and
webcams, IMS LTI support, desktop sharing, integrated Voice over IP, various presentation formats that can be
screened dynamically etc.
9.5 Blackboard Collaborate
Collaborate is Blackboard’s integrated live web conference solution. It combines a high degree of usability with
mobility in any LMS, VoIP audio, chat with embedded HTML, multimedia playback (.wmv) and flexibility
regarding ingested content. Many more tools allow for a high degree of flexibility: setting up break out rooms,
pre- and post lecture support etc.
9.6 Camtasia
TechSmith Camtasia is in the first place a popular and powerful screen recording and video editing application,
which is easy-to-use. Screen activity can be recorded and combined with imported HD/camera video, edited
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and augmented with audio (live or pre-recorded) content, and distributed on nearly any device. Video can be
made interactive.
9.7 Capturer Lecture Video Recording System - Tel Aviv
University (Tau), Israel
Capturer is a low-cost solution that works on PC. It integrates lecturer video with his computer desktop
activities (VGA signal) in real time and within a single image. The lecture captured can be broadcast live,
including both VGA and video signals. The recording output is a single video file (.wmv). A special simple laptop
version of Capturer is also available.
9.8 Cisco Lecture Vision - Cisco Systems.
Cisco Lecture Vision is a lecture capture solution which takes its input from a Tandberg Video Codec, which
typically takes three inputs: speaker audio, speaker video and the presentation video. The codec combines
these into a single Audio/Video stream which is passed to a Telepresence Content Server and recorded.
Because the system is videoconferencing based it is possible to combine with or interact between various
lectures. Various picture in picture layouts with the lecturer video and slides are possible. The server platform
(Cisco’s Show and Share video portal) features Cisco Pulse Analytics, which takes the audio track and analyses it
to produce a voice profile of the speaker ( or multiple speakers ) and in addition produces a key word index
which is displayed on the user interface. Users can then click on the key word index to jump to the point in the
video where the indexed word is spoken.
9.9 Echo360
ECHO360 is probably one of the most advanced and comprehensive lecture capture solutions, which goes
beyond traditional classroom recording and adds flipped classroom functionalities, student engagement (polls,
quizzes and other activities) and so on to traditional lectures. It provides various forms of learning analytics and
indicators (who’s participating, identify weak points and students) and so on.
9.10 Epiphan
Epiphan Systems builds a variety of low-cost image and video capture solutions that capture any VGA and DVI
signals. The hardware is easily combined with other tools and products like recorders and broadcasters to form
a low-cost system for lecture recording and broadcasting.
9.11 Galicaster
Galicaster is an open source project that builds units for multistream recording. It is based on and developed as
Open source with a high degree of adaptability to various distribution platforms. The lecture capture system is
a lecturer-driven class-based or mobile recording system, that is easily adapted to a variety of teaching
scenarios, according to the technical capacity of the lecturer and his support team. The system can work in
total autonomy, both online and offline, and even separate from the lecturer's computer. It is adaptable to
various recording devices, in both automatic and manual modes, with media replay and export capacity to
other systems.
9.12 L2l (Live To E-Learning) - Cineca, Italy
The L2L service provides a semi-automatic transformation of live lectures into e-learning activities ready to be
published and delivered on e-Learning platforms. It is a system developed by a consortium of Italian
universities which combines a number of elements: the L2L recorder and player, that allow for both on- and off
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–line delivery, allowing at the same time for different usage scenarios. A Mediamosa-Moodle integration
handles the storage and media management. The player delivers the media in Adobe Flash and in multiformat
also for podcasting.
9.13 Opencast Matterhorn
Matterhorn is a free, open-source platform to support the management of educational audio and video
content. Institutions (mainly for Higher Education) use Matterhorn to produce lecture recordings, manage
existing video, serve designated distribution channels, and provide user interfaces to engage students with the
recorded and distributed educational videos. The system allows for capturing and administration: it provides
specifications for building a capture agent to automatically record audio, video and VGA signal. Furthermore a
set of administration tools can be created on the basis of the open source tools to manage the recordings and
to process the media in a highly configurable workflow which includes video encoding, metadata generation,
scene detection, preview image generation, trimming, captioning and text analysis. Matterhorn publishes
recordings in various modes and formats. The Matterhorn player allows slide segmentation and in-video text
search across multiple platforms.
9.14 Openeya
openEyA is a Linux-based automated lecture capture system developed by the Science Dissemination Unit
(SDU) of the Abdus Salam International Centre for Theoretical Physics (ICTP). openEyA functions under Linux
and integrates video in Flash format with presentation slides from screen captures or any USB webcam (to also
record classroom podium, blackboard and/or projector screen) and classroom audio. openEyA allows to archive
and share traditional (scientific) lectures combining chalkboard and/or presentations (PPT, PDF, animations,
etc.) without any intervention during recording and post-processing. It promises a scalable architecture and
portability, all for a low cost of hardware implementation.
9.15 Panopto
Panopto is a comprehensive media solution that includes software for (remote controlled) recording and live
broadcasting of presentations, lectures, training videos, screencasts, etc. It includes a video content
management system for importing and editing videos, searching inside them, and viewing them on any device,
including iPhone and iPad. Students can record Panopto sessions and take notes during a presentation, pause,
search, review, and add notes based on their individual learning needs. Panopto can work with available
equipment in any environment and it is easy to scale. It furthermore allows for student recording and LMS
Integration.
9.16 Polycom
Polycom is not by definition a lecture capture solution provider but its solutions (codecs, media recorder and
server, media asset management and distribution services) allow the user to construct a high quality lecture
capture solution around its hardware, software and services.
9.17 Presentations 2go
Presentations 2Go provides complete lecture recording systems, from standalone recordings with a webcam to
automated campus wide lecture capture installations including solutions for live and on-demand streaming
with live tagging, rating, statistics and optional integration options for LMSs. Standalone recording software can
be installed on a notebook, workstation or dedicated capture station for classroom deployment. This solution
works with existing hardware and most audio/video equipment, making automated capture, webcast and
publishing possible. Presentations 2Go enables students to make online notes while following a lecture or
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presentation on mobile devices. Teachers and students can also add public or private notes retrospectively
when viewing a web lecture.
9.18 Recordingbox by Fontys Hogeschool
The Recording Box is a low cost solutions for smaller implementations, it records lessons and converts these
directly to online content. The lecturer can record with this easy to use both his or herself and the information
transmitted by his/her computer. The Recording Box automates the process so that the teacher can lecture
without any further interventions. When the recording is finished, it will automatically be sent to a website
using the built in computer. The content will then become available online to be played back or integrated in a
VLE, a blog or website.
9.19 Sonic Foundry Mediasite
Mediasite is an integrated solution for the full cycle of web lecture. It allows for capture, upload and storage of
video, to manage all video assets with a powerful suite of tools to archive, index, customize, secure, search and
analyse the content, and to deliver interactive webcasts, lectures and rich media, streamed live and on-demand
to any screen and learning platform.
9.20 Switchcast Video Management System - Switch,
Switzerland
SWITCHcast is a simple-to-use integrated video management platform where one can upload videos to a
central Server, post process them, which comprises editing, tagging, chaptering, publishing via a LMS. The
management interface is simple and self-explanatory. It gives the administrator control over the whole process.
SWITCHcast supports several recording formats and use cases (presenter and slides, slides and voice,
screencasts, clips). The audience can be defined by simple means from world-wide to very case-specific and can
annotate the videos they see.
9.21 Tegrity Campus
Tegrity Campus is a fully automated lecture capture solution used to record lectures in various set ups for
distribution as 'flipped classes" as well as for online courses. Its personalized learning features comprise search
and real-time LMS integration. Students can view recordings on PC, Mac or mobile devices using a standard
web-browser, with timeline and thumbnail views. The Search Anything technology automatically captures any
text presented on screen, and provides search results across entire courses.
9.22 Telestream
Telestream is a suite of media tools and workflow solutions to capture lectures, teaching sessions and any
other educational media and publishes these to any audience in a variety of digital formats. Conversion is
possible to virtually any format for viewing on any screen, including TVs, PCs, tablets and smart phones. Live
webcasts can combine multiple video cameras, pre-recorded videos, computer desktops, audio tracks, images
and titles. Screencasts and video tutorials with screen capture videos, combined with camera images,
microphone and computer audio can be recorded, edited, transmitted and published to the web.
9.23 Vbrick Systems
VBrick provides hardware and software system that allows building of system for the creation and distribution
of media content. It contains a video management and distribution platform for capturing and broadcasting
video across any network, using any device, both through cloud-based or on-premises management of video
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content. It supports storage and delivery of video-on-demand content, including high-definition video and
other rich media, managed on premises, in the cloud, or in a hybrid solution.
9.24 Video Furnace Haivision
Haivision’s portfolio of solutions support learning with video recording, review and distribution: it provides
different combinations of all-in-one capture, stream, record and video on-demand appliances with dual stream
synchronized HD, with video systems providing complete infrastructure for delivering secure video to desktops,
displays, and mobile devices within an organization.
9.25 Videolab by K.U.Leuven
Videolab is the online multimedia management service for education and research at the Association KU
Leuven. Teachers and researchers can share and manage recordings of classroom sessions and their own
multimedia files. These materials can be shared on their own websites or inside the online learning platform
Toledo. News recordings, interesting documentaries, self-created movies, web lectures, sound recordings,
interviews... Videolab is more than an online media player: users can also interact with the available
multimedia. Users can easily insert Videolab content in courses or communities.
9.26 Videotorium - Niif, Hungary
Videotorium is a video/audio sharing portal created for research and education. Videotorium provides
professional presentation of video content recorded at higher education institutions. Videotorium was
launched in 2010 by the Hungarian research and education computer network infrastructure National
Information Infrastructure Development (NIIF) Institute. Videotorium is freely available for all NIIF member
institutions, but any non-profit research and education activity can be supported.
9.27 Vips - Kaunas University Of Technology, Lithuania
ViPS – Video Presentation System – is a system for online streaming of video lectures, conferences, seminars,
etc. It includes capacity for storing and sharing recordings and for managing broadcasts. It allows for advanced
editing and management of recordings, combined with their description and data annotation. Flexible user and
user groups access rights management is possible. The system stores recordings in Windows Media and Flash
video streaming formats.
9.28 Webex
WebEx is a platform for delivery of interactive classes and training online, with video, breakout sessions, and
hands-on learning possibilities. It has facilities built in for e-commerce, testing, tracking, and grading. It is in the
first place a web conferencing platform but it can be used to record classes and deliver them in real time or
recorded. It is highly saleable in numbers of participants and quality of media. Interactivity allows for sharing of
multimedia, application or whiteboard, as well as for threaded Q&A, chat, polling, and quizzes. WebEx can
integrate with an LMS, and build an on-demand training library.
Page 10-30 | How to move beyond lecture capture: Technology guide
10. Annex: Comparison between lecture capture
systems and services
In the following tables we have tried to provide a comprehensive overview of lecture capture (LC) services and
systems that to our knowledge are currently available. We did not include the (many) systems that are custom
built within institutions or organisations and which may be very interesting and innovative but which are not
available to interested parties outside the organisation. In case you are interested to find out more about that
group of systems, please check the previous part 9. ANNEX: index of suppliers, where some of them are briefly
described.
Creating a comparative list and overview of systems and services for lecture capture is not an easy task. The
difficulties are many. First of all, this technology is rather new and a final definition of what is understood by
lecture capturing is still under development. We take the definition we found on Wikipedia, which uses the
term lecture recording: “Lecture recording refers to the process of recording and archiving the content of a
lecture, conference, or seminar. It consists of hardware and software components that work in synergy to
record audio and visual components of the lecture.” Under “audio and visual components of the lecture” we
understand the image and/or sound from the lecturer as well as the audiovisual materials (slides, screens…) the
lecturer is using during his lecture.
When looking at the systems that institutions and organisations are using for lecture capturing, we see also
that quite a few of them are (still) using systems or services that are not designed specifically for lecture
capture, they use for example web conferencing systems. For that reason we included some of these in the
table as well, even though there are of course some functional differences.
Creating a comparative table is also difficult because there is a continuous and fast-paced development and
innovation in this domain. Almost weekly there are announcements of new features added to existing systems
or companies (suppliers) stepping into (or out of) this field.
To create an in-depth and fully representative table of features and functions, it would have been necessary to
implement and test all the different systems and services in depth. That was beyond our possibilities, we had to
limit our research to desk research, consulting the documentation provided by the suppliers, enhanced with
information from reviews and publications or interviews with users. We do not have hands on experience with
all the systems or services that we have included. This means that there may be shortcomings in the
comparative table, and we invite readers (including suppliers) to send their comments, additions and
corrections to [email protected] so that we can update and upgrade this table in future versions, which we
intend to publish in the same way.
We also did not include pricing information: price setting is complex in most cases and not very transparent.
This would have required first of all a lot of further research and secondly extensive additional explanations.
For that reason and also because prices vary over time and by location, we decided not to include price
information.
Finally we want to provide some clarification to the table and the terminology used in it. In the following
legend we have included some further explanation on how to interpret the classification and terms used in the
tables, where we think it is necessary. Where - from our reading of the documentation or research - the
functionality seems not present or not integrated as such in the standard version of the product or service,
then we have left the qualification in the final table blank.
Note that the authors have no interest in or commercial relationship with any of the suppliers mentioned in
this report, all information is provided as accurately as possible and to the best of our knowledge.
Page 10-31 | How to move beyond lecture capture: Technology guide
Name Explanation
Main LC functionalities These are considered the main functionalities a lecture capture should have:
Capture Accept a video, audio and presentation input,
Record Record the incoming video, audio and presentation,
Stream/broadcast Retransmit this immediately or with some delay,
Manage Archive and organise recordings,
Publish/integrate Make the recordings available when, where and as required.
System-type (HW, SW, web based, hosted, SaaS...) How the system or product is supplied: hosted in house (servers, HW, SW implementations) or outside. The latter (increasingly) includes cloud-based solutions.
OS Compatibility Host Some systems or products require a host and have limited OS requirements.
Works with existing, available hardware: cameras, audio etc.? All systems integrate capturing hardware such as cameras and microphones, only very few add proprietary hardware appliances (mostly the capture/record/streaming device).
System Integrations (in VLE, web…) Does the LC system or service integrate directly with learning management systems?
Type/nature How? (This is often described superficially).
Simultaneous recordings, channels Can the system handle multiple LC sessions concurrently?
Scalability Does the system provide options for extension?
Interactive Features Can the end user interact easily with the content, for example tag, annotate, create own archives etc. Different functionalities can be present in different systems.
Editing Can the content be edited within the LC system (without having to call upon an external editor?)
Scheduling Can the system be programmed to operate without hands on operator control (automated recording according to prescheduled times)?
User generated content recording Can learners contribute their own media to the LC system (for example to share, comment, and submit)?
Recording format(s) What is the recommended recording format? (Note: this is not always documented)
Streaming format(s)/Output format(s) What are the output formats offered? (Note: this too is not always documented)
Videoconference integration? Can a videoconference terminal (ITU standard H32x equipment) be integrated in the solutions as a capture station?
White board Is electronic white board an integrated function?
Customisable interface Can the learner modify the interface to change his way of viewing the content?
Collaboration Does the LC system provide integrated tools for the users to collaborate (communicate, co-create, share etc.) on materials?
Break out rooms Can the learner group easily be broken up into different groups working independently on the same of different content?
Page 10-32 | How to move beyond lecture capture: Technology guide
Name Explanation
Document and file upload and management Can documents other than media formats be uploaded, managed and shared (for example text, spreadsheet …)?
Quizzes Can the lecturer integrate quizzes and basic assessments easily in the system?
Polls/voting Can the lecturer integrate polls easily in the system?
Tasks Can the lecturer assign tasks to learners from within the system?
Discussions/Forum Can discussions or fora be held within the system?
Annotation Can users annotate content?
Community functionalities (recommend/share/like) Can users recommend/share/like content and share their opinion with each other from within the service itself?
Chat Is there a chat function for live online communication?
Publishing options on: Can the recorded lectures be published directly from the service or system onto:
iTunesU
YouTube
Vimeo
cloud-based solution
HW Room integration Does the service or system standard foresee in integration with room management hardware such as lights, curtains, PA systems etc.?
Meeting/materials persistence Do the lectures after the recording remain available without intervention?
Mobile clients Does the service provide in access through different mobile devices: is the output adaptive or are mobile clients available?
Accessibility (e.g. close captioning, screen reader) Are functionalities provided for users with hearing or seeing problems?
Hardware capture solution Is the service predominantly focused on capturing and recording?
Media management solution Is the service predominantly focused on management of recorded lectures?
Integration with Recommended products or services for integration (for example as Hardware capture solution or as Media management solution)
Contact info Web site of the supplier
The following two questions pertain only to the few Webinar/web conferencing systems that can be considered LC systems to, thanks to the way they are being used.
Web conference? 2-way Video/Audio Can you do a two way conference call?
Web conference? multi-way Video/Audio Can you hold multiparty conferencing sessions?
Page 10-33 | How to move beyond lecture capture: Technology guide
Main LC functionalities
capture record stream/broadcast manage publish/integrate
Lecture capture
Cattura x x x x x
Crestron CaptureLiveHD x x x x x
Echo360 x x x x x
Epiphan Lecture Recorder x x x
Galicaster x x x
Haivision Network Video x x x
Kaltura CaptureSpace x x x x x
MediaCore x x x x x
MediaPOINTE Studio/HD Portal x x x (x)
Panopto x x x x x
Presentations2go x x x x x
Sonic Foundry Mediasite x x x x x
TechSmith Camtasia/TechRelay x x (x) x x
Tegrity x x x x x
Vbrick Systems x x x (x)
Winnov Cbox x x x (x) x
Media management
Opencast Matterhorn *(with PuMuKit) x x *(x) x
Webinar/web conferencing
Adobe Connect x x (x) (x) (x)
Big Blue Button x x (x) (x) (x)
Blackboard Collaborate x x (x) (x) (x)
Cisco Lecture Vision - Cisco Systems. x x (x) (x) (x)
OpenMeetings x x (x)
Polycom x x (x) (x)
Skype *(with recorder function) x *(x) (x)
Spreed x x (x) (x)
Webex x x (x) (x)
Page 10-34 | How to move beyond lecture capture: Technology guide
System-type (HW, SW, web based, hosted, SaaS...) OS Compatibility Host
Lecture capture
Cattura HW/SW/appliance/web based/cloud Win/Mac
Crestron CaptureLiveHD HW
Echo360 Integrated system, SaaS Win/Mac
Epiphan Lecture Recorder HW
Galicaster HW Linux Ubuntu/(others)
Haivision Network Video HW Linux
Kaltura CaptureSpace SaaS All
MediaCore SaaS
MediaPOINTE Studio/HD Portal HW
Panopto Integrated system, SaaS Win/Mac
Presentations2go Integrated system, SaaS Win
Sonic Foundry Mediasite Integrated system, SaaS (proprietary hardware) Proprietary
TechSmith Camtasia/TechRelay SW, SaaS Win, Mac
Tegrity Cloud/SaaS Win/Mac
Vbrick Systems Integrated system, SaaS (proprietary hardware) Win
Winnov Cbox HW
Media management
Opencast Matterhorn *(with PuMuKit) web based
Webinar/web conferencing
Adobe Connect web based, hosted, SaaS Win
Big Blue Button web based, hosted Linux/(Win/Unix/Mac)
Blackboard Collaborate Web based, hosted Win/Unix/Linux
Cisco Lecture Vision - Cisco Systems. HW/SW, partially hosted Proprietary
OpenMeetings SW Linux/Win
Polycom HW Proprietary
Skype *(with recorder function) SaaS
Spreed SaaS
Webex SaaS
Page 10-35 | How to move beyond lecture capture: Technology guide
Works with existing, available hardware: cameras, audio etc?
System Integrations (in VLE, web…) Simultaneous recordings, channels
type/nature
Lecture capture
Cattura Yes Learning Engine Yes
Crestron CaptureLiveHD Yes
Echo360 Yes (recording appliance additional) LTI Yes
Epiphan Lecture Recorder Yes Yes
Galicaster Yes Option Yes
Haivision Network Video Yes Moodle/Blackboard Yes
Kaltura CaptureSpace Yes Building Blocks Yes
MediaCore Yes plug in Yes
MediaPOINTE Studio/HD Portal Yes Yes
Panopto Yes LTI/SCORM/APIs Yes
Presentations2go Yes OAI/IEEE-LOM Yes
Sonic Foundry Mediasite Yes (recording appliance additional) APIs/Modules Yes
TechSmith Camtasia/TechRelay Yes SCORM/Blackboard
Tegrity Yes web service Yes
Vbrick Systems Yes Yes
Winnov Cbox Yes Option Yes
Media management
Opencast Matterhorn *(with PuMuKit) DC/RSS Yes
Webinar/web conferencing
Adobe Connect SCORM Yes
Big Blue Button IMS LTI 1.0
Blackboard Collaborate Yes Blackboard/LTI Yes
Cisco Lecture Vision - Cisco Systems. Yes
OpenMeetings Yes various (APIs, plug ins)
Polycom Yes
Skype *(with recorder function) Yes
Spreed Yes
Webex Yes Option Option
Page 10-36 | How to move beyond lecture capture: Technology guide
Scalability Interactive Features Editing Scheduling User generated content recording
Lecture capture
Cattura Yes Yes Yes Yes
Crestron CaptureLiveHD Yes Yes
Echo360 Yes Yes Yes Yes Yes
Epiphan Lecture Recorder (depends on HW)
Galicaster Yes Option Option Yes
Haivision Network Video Yes Yes
Kaltura CaptureSpace Yes Option Option Yes Yes
MediaCore Yes Yes Yes
MediaPOINTE Studio/HD Portal Yes
Panopto Yes Yes Yes Yes
Presentations2go Yes Yes Yes Yes
Sonic Foundry Mediasite Yes Yes Yes Yes
TechSmith Camtasia/TechRelay Yes (TechRelay) Yes
Tegrity Yes Yes Yes Yes Yes
Vbrick Systems Yes Yes
Winnov Cbox Yes Yes
Media management
Opencast Matterhorn *(with PuMuKit) Yes Yes Limited Yes
Webinar/web conferencing
Adobe Connect Yes Yes Yes Yes
Big Blue Button Yes Yes Limited
Blackboard Collaborate Yes Yes Yes Yes
Cisco Lecture Vision - Cisco Systems. Yes Yes Yes
OpenMeetings Yes
Polycom Option
Skype *(with recorder function)
Spreed Yes Yes
Page 10-37 | How to move beyond lecture capture: Technology guide
Recording format(s) Streaming format(s)/Output format(s)
Lecture capture
Cattura H.264 various
Crestron CaptureLiveHD H.264 various
Echo360 various H.264
Epiphan Lecture Recorder various (AVI, MOV, mpeg, H.264) various
Galicaster
Haivision Network Video mpeg-4 mpeg-4
Kaltura CaptureSpace
MediaCore various various
MediaPOINTE Studio/HD Portal mpeg-4, H.264 mpeg-4
Panopto mpeg-4 mpeg-4, wmv
Presentations2go various various
Sonic Foundry Mediasite Proprietary various
TechSmith Camtasia/TechRelay native various (proprietary, mpeg-4, wmv, flash…)
Tegrity mpeg-4 mpeg-4
Vbrick Systems H.264 H.264
Winnov Cbox mpeg-4, wmv, mpeg-2, other
Media management
Opencast Matterhorn *(with PuMuKit) various various
Webinar/web conferencing Webconference? 2-way Video/Audio
Adobe Connect Flash Flash Yes
Big Blue Button Native Flash Yes
Blackboard Collaborate Native Flash Yes
Cisco Lecture Vision - Cisco Systems. H-264 Flash Yes
OpenMeetings Yes
Polycom avi, wmv, mapeg-4, H.264 wmv, mpeg-4 Yes
Skype *(with recorder function) Option mpeg-4 Yes
Spreed Proprietary Flash Yes
Webex Proprietary Yes
Page 10-38 | How to move beyond lecture capture: Technology guide
Videoconference integration? White board Customisable
interface
Lecture capture
Cattura Yes
Crestron CaptureLiveHD Yes
Echo360 Yes Yes
Epiphan Lecture Recorder
Galicaster Yes
Haivision Network Video Yes
Kaltura CaptureSpace Yes
MediaCore
MediaPOINTE Studio/HD Portal
Panopto Yes
Presentations2go Yes
Sonic Foundry Mediasite Yes Yes Yes
TechSmith Camtasia/TechRelay Yes
Tegrity Option Yes
Vbrick Systems Partially Yes
Winnov Cbox Yes
Media management
Opencast Matterhorn *(with PuMuKit) Yes
Webinar/web conferencing Webconference? multi-way Video/Audio Videoconference integration?
Adobe Connect Yes SIP/H264 Yes Yes
Big Blue Button Yes Yes Yes
Blackboard Collaborate Yes Yes Yes
Cisco Lecture Vision - Cisco Systems. Option SIP/H264 Yes
OpenMeetings Yes Yes Yes
Polycom Option SIP/H264 Yes
Skype *(with recorder function) Yes Option Option
Spreed Yes Yes
Webex Yes Yes
Page 10-39 | How to move beyond lecture capture: Technology guide
Collaboration Break out rooms Document and file upload and management Quizzes
Lecture capture
Cattura
Crestron CaptureLiveHD
Echo360 Yes Yes
Epiphan Lecture Recorder
Galicaster
Haivision Network Video
Kaltura CaptureSpace Option
MediaCore
MediaPOINTE Studio/HD Portal
Panopto Yes Yes Option
Presentations2go Yes Yes
Sonic Foundry Mediasite
TechSmith Camtasia/TechRelay
Tegrity Yes
Vbrick Systems
Winnov Cbox
Media management
Opencast Matterhorn *(with PuMuKit)
Webinar/web conferencing
Adobe Connect Yes Yes Yes
Big Blue Button Yes
Blackboard Collaborate Yes Yes Yes
Cisco Lecture Vision - Cisco Systems.
OpenMeetings Yes
Polycom
Skype *(with recorder function) Yes
Spreed Yes
Webex Yes Yes Yes Yes
Page 10-40 | How to move beyond lecture capture: Technology guide
Polls/voting Tasks Discussions/Forum Annotation Community functionalities (recommend/share/like)
Lecture capture
Cattura Yes
Crestron CaptureLiveHD
Echo360 Yes Yes Yes Yes Yes
Epiphan Lecture Recorder
Galicaster
Haivision Network Video
Kaltura CaptureSpace Yes
MediaCore Yes
MediaPOINTE Studio/HD Portal
Panopto Option Yes Yes
Presentations2go Yes Yes
Sonic Foundry Mediasite
TechSmith Camtasia/TechRelay
Tegrity Yes Yes
Vbrick Systems
Winnov Cbox
Media management
Opencast Matterhorn *(with PuMuKit) Yes Yes
Webinar/web conferencing
Adobe Connect Yes Yes Yes Yes Yes
Big Blue Button Yes
Blackboard Collaborate Yes Yes Yes Yes Yes
Cisco Lecture Vision - Cisco Systems. Yes
OpenMeetings Yes
Polycom
Skype *(with recorder function)
Spreed Yes
Webex Yes
Page 10-41 | How to move beyond lecture capture: Technology guide
Chat Publishing options on: cloud-based solution
iTunesU YouTube Vimeo
Lecture capture
Cattura Yes Yes
Crestron CaptureLiveHD
Echo360 Yes Yes
Epiphan Lecture Recorder Yes Yes
Galicaster
Haivision Network Video Yes Yes Yes Yes
Kaltura CaptureSpace
MediaCore
MediaPOINTE Studio/HD Portal option option option option
Panopto Yes
Presentations2go Yes Yes Yes
Sonic Foundry Mediasite Yes Yes
TechSmith Camtasia/TechRelay Yes Yes Yes Yes (TechRelay)
Tegrity Yes Yes Yes Yes Yes
Vbrick Systems
Winnov Cbox Yes
Media management
Opencast Matterhorn *(with PuMuKit) Yes Yes
Webinar/web conferencing
Adobe Connect Yes
Big Blue Button Yes
Blackboard Collaborate Yes
Cisco Lecture Vision - Cisco Systems.
OpenMeetings
Polycom
Skype *(with recorder function) Yes
Spreed Yes
Webex Yes
Page 10-42 | How to move beyond lecture capture: Technology guide
HW Room integration Meeting/materials persistence Mobile clients
Lecture capture
Cattura Yes
Crestron CaptureLiveHD Yes Yes
Echo360 Yes Yes
Epiphan Lecture Recorder Yes Yes
Galicaster Yes Yes
Haivision Network Video Yes
Kaltura CaptureSpace Yes Yes Yes
MediaCore Yes Yes
MediaPOINTE Studio/HD Portal
Panopto Yes Yes
Presentations2go Yes Yes
Sonic Foundry Mediasite Yes Yes Yes
TechSmith Camtasia/TechRelay Yes
Tegrity Yes Yes
Vbrick Systems Yes Yes
Winnov Cbox Yes Yes
Media management
Opencast Matterhorn *(with PuMuKit) Yes Yes Yes
Webinar/web conferencing
Adobe Connect Yes Yes
Big Blue Button Yes
Blackboard Collaborate Yes Yes
Cisco Lecture Vision - Cisco Systems. Yes Yes Yes (iPad)
OpenMeetings Yes
Polycom Yes Yes
Skype *(with recorder function) Yes
Spreed Yes Yes
Webex Yes Yes
Page 10-43 | How to move beyond lecture capture: Technology guide
Accessibility (e.g. close captioning, screen reader) Hardware capture solution Media management solution
Lecture capture
Cattura Yes Yes
Crestron CaptureLiveHD Yes Option
Echo360 Yes Yes Yes
Epiphan Lecture Recorder Yes
Galicaster Yes
Haivision Network Video Yes
Kaltura CaptureSpace Yes
MediaCore Yes
MediaPOINTE Studio/HD Portal Yes Option
Panopto Yes Yes
Presentations2go Yes Yes
Sonic Foundry Mediasite Yes Yes Yes
TechSmith Camtasia/TechRelay Yes Yes
Tegrity Yes Yes
Vbrick Systems Yes Option
Winnov Cbox Yes Option
Media management
Opencast Matterhorn *(with PuMuKit) Yes Yes
Webinar/web conferencing
Adobe Connect Yes
Big Blue Button Yes
Blackboard Collaborate Yes
Cisco Lecture Vision - Cisco Systems. Yes Yes
OpenMeetings
Polycom Yes Option
Skype *(with recorder function) Yes
Spreed
Webex
Page 10-44 | How to move beyond lecture capture: Technology guide
Integration with Contact info
Lecture capture
Cattura Kaltura/MediaCore http://www.catturavideo.com/
Crestron CaptureLiveHD http://www.crestron.com
Echo360 http://echo360.com/
Epiphan Lecture Recorder http://www.epiphan.com/
Galicaster http://www.galicaster.org
Haivision Network Video http://www.haivision.com/
Kaltura CaptureSpace http://corp.kaltura.com
MediaCore http://www.mediacore.com/
MediaPOINTE Studio/HD Portal http://mediapointe.com
Panopto http://www.panopto.com
Presentations2go http://www.presentations2go.eu
Sonic Foundry Mediasite http://www.sonicfoundry.com/mediasite
TechSmith Camtasia/TechRelay Kaltura http://www.techsmith.com/camtasia.html
Tegrity http://www.tegrity.com
Vbrick Systems http://www.vbrick.com
Winnov Cbox http://www.winnov.com
Media management
Opencast Matterhorn *(with PuMuKit) PuMuKit (media management system) http://opencast.org/matterhorn/
Webinar/web conferencing
Adobe Connect http://www.adobe.com/products/adobeconnect.edu.html
Big Blue Button http://www.bigbluebutton.org/
Blackboard Collaborate https://www.blackboard.com/platforms/collaborate/overview.aspx
Cisco Lecture Vision - Cisco Systems. TCS http://www.cisco.com/web/strategy/education/enhanced_edu_capture.html
OpenMeetings http://openmeetings.apache.org/
Polycom http://www.polycom.com
Skype *(with recorder function) http://www.skype.com
Spreed http://www.spreed.com
Webex http://www.webex.com
Page 10-45 | How to move beyond lecture capture: Technology guide
IMAGE CREDITS
P6: Iowa State University TV (by Special Collections Department / Iowa State University Library)
P8: M. Vanbuel
P9: Beyerdynamic
P10: Beyerdynamic
P10: Panasonic
P11: Richard Bellomy
P15: Epiphan
P20: Benjamin Wulff, Universität Osnabrück
This report has been funded with support from the
European Commission. This document reflects the
views only of the author and the Commission cannot
be held responsible for any use which may be made
of the information contained therein.
Except where otherwise noted, this work is licensed
under the Creative Commons Attribution-
NonCommercial-NoDerivatives 4.0 International
License. To view a copy of this license, visit
http://creativecommons.org/licenses/by-nc-nd/4.0.
