Electronic resources, that is eContent, produced for education ‘’travels well’’ when it can be reused across national borders and in different curricular frameworks. In this talk, we discuss what features of mathematical eContent contribute to making it travel well. In particular, we will talk about semantic markup such as Content MathML and OpenMath, and about metadata descriptions of the learning resources. We will look into ways of producing mathematical eContent and how it can be converted to ad-hoc formats, including those that are accessible.
Read more at http://www.jem-thematic.net/en/node/1298
Publication_details: ICTCM 2009, New Orleans.
Author(s): O. Caprotti, M. Seppälä, M. Pauna
Type: Slide presentation
Date: 2009/03/14
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How to make mathematical eContent travel well
1. How to make
mathematical
eContent travel well
Olga Caprotti*, Matti Pauna*, Mika Seppälä
University of Helsinki
*Work funded by the JEM Thematic Network ECP-038208
2. travelling eContent
Electronic resources and, more in general, eContent
produced for education
‘’travel well’’
when they can be reused across national borders and in
different curricular frameworks
...on a variety of devices
3. In this talk
features of mathematical eContent that make it
travel well:
semantic markup such as Content MathML
and OpenMath,
metadata for learning resources
producing mathematical eContent and convert it
to ad-hoc formats
multilingual mathematics
4. JEM-Joining Educational Mathematics
EU-funded thematic network of 20 nodes
in 10 countries
http://www.jem-thematic.net
promote eContent in mathematics education
eContent from the partners HAS to travel
well
5. Characteristics of the traveling resource
Learning resources travel well if they are high quality and
in addition if they
do not rely on written or spoken language,
use alternative representations,
avoid jargon used in country of origin,
are highly visual,
are modular,
clearly state the IPR
6. Mathematics is universal but
not all formats are created equal
may or may not support localization of notation to
place and subject (communities of practice)
may or may not support alternative modalities:
e.g. aural or braille presentations
even font scaling can become an issue
8. Comparative Chart
Format Server Interactivity Notation Authoring Alternative
support Formulae GUI representation
SWiM, STeX,
OpenMath/
OMDoc pantha-rei, Y Y OQMath, XHTML+MathML
C-MathML
ActiveMath jEditOQMath
OpenMath/
mathdox- limited, via XHTML+MathML,
MathDox Y LaTeX/ -
player xslt PDF, LaTeX
MathML
XHTML+MathML,
CNXML cnx.org N Y C-MathML LaTeX, Word
PDF
PDF, PPTX?, DOCX,
OOXML N N N OMML MS Office
DOC
12. Editors
MathDox formula editor jEditOQMath LaTeXML
web-based produces for OMDoc documents for those familiar with LaTeX
OpenMath used in ActiveMath
faithful emulation of TeX's
integrated into HTML easy input syntax of behaviour
pages mathematical
formulae extensibility by packages
intended for
interactive pages preservation of both semantic
and presentation cues
WIRIS OpenMath toolS
support good Presentation
java applet MathML, in future Content
MathML and OpenMath.
moodle integration
sTeX
conversion CNX, C-MathML,
OMDoc, Dublin-Core, and
PhysML
13. Making eContent known
Once produced, such material is very valuable.
Learning repositories allow to share resources.
Use standards
for describing learning resources, e.g. LOM
(IEEE learning object metadata, 70 fields in
9 categories)
for federated searches across repositories (OAI)
14. Metadata descriptions
Entered manually by author in a form
e.g. interactivity type (active,expositive,mixed),
e.g. learning resource type (exercise, simulation,
lecture, graph, questionnaire, diagram, figure, index, slide, table, narrative
text, exam, experiment, problem statement, self assessment)
Automatically produced by online services
SAmgI (Simple AMG Interface)
18. Course-ware development occurs during years:
lecture notes, slides, podcasts, mobile-maths
OUR CASE: interactive exercises
Electronic archival issues:
no one knows anymore what is there
multiple authors, locations, versions
non-uniform naming
tailored for several specific use cases
19. MapleTA Exercise Collection
Organized into
classes
Poor metadata
support
Poor search support
Ad hoc
classification
(depends on the
author)
20. Reorganize!
agree on a meaningful
naming scheme:
e.g. Topic information
encoded in the QB name:
010202 for Fractions
easier to locate questions
topics are smaller
maintain one version
21. Metadata
generation
Structure: Atomic
Format: application/
mapleta
Interactivity type:
Active
Learning resource
type: Exercise
Intended end user
role: Learner
25. Summary
Choice of format for eContent will impact
how well the material can travel to places,
and through time
The richer the format, the more involved the
authoring process
Choosing to author using a semantic
markup now is possible