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Multimedia Mathematical Communication in a Diverse Group of Students

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Języki publikacji
EN
Abstrakty
EN
The article tackles the problem of improving mathematical communication in a group of students with different visual impairment levels, under the guidance of a group leader or a teacher. Visually impaired persons face a problem while learning mathematics. The said problem results from the specific nature in which mathematical content (formulas, function graphs, geometrical figures and projections of solids) is recorded and presented. The effectiveness of learning mathematics is boosted when students work in a group moderated by a leader. This requires them to share documents, with the leader being able to keep track of the individual work of each participant, and with the group discussing specific solutions. In order for a visually impaired student to be able to participate in and contribute to the work of the group, either remotely or locally, all participants must use universal IT tools that support visually impaired students without complicating the work of others. This paper presents interactive multimedia solutions developed under two research projects carried out by the author. The said solutions support communication in mathematics. Results of qualitative surveys on new solutions are presented, confirming their usefulness and the measurable impact they exert on the efficiency of the group’s work concerning mathematical problems.
Rocznik
Tom
Strony
92--103
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
  • Research and Academic Computer Network (NASK), Kolska 12, 01-045 Warsaw, Poland
Bibliografia
  • [1] D. S. Sari, K. Kusnandi, and S. Suhendra, “A cognitive analysis of students’ mathematical communication ability on geometry”, J. of Phys. Conf. Series, vol. 895, no. 1, 012083, 2017 (doi: 10.1088/1742-6596/895/1/012083).
  • [2] G. M. Tinungki, “The role of cooperative learning type team assisted individualization to improve the students’ mathematics communication ability in the subject of probability theory”, J. of Educ. and Pract., vol. 6, no. 32, pp. 27–31, 2015 [Online]. Available: https://www.iiste.org/Journals/index.php/JEP/article/ view/27313/27996
  • [3] D. Mikułowski, G. Terlikowski, and J. Brzostek-Pawłowska, “Virtual cubarithms – innovative assistive technology for teaching the blind and visually impaired students traditional columnar layout operations”, Studia Inform., vol. 1–2, no. 20, pp. 17–25, 2016.
  • [4] LaTeX notation [Online]. Available: https://www.latex-project.org/ (accessed Feb. 3, 2019).
  • [5] ASCII-Mathematikschrift AMS – Anleitung zur Umsetzung mathematischer Formeln [Online]. Available: http://chezdom.net/ wp-content/uploads/2008/11/ams.pdf (accessed Feb. 1, 2019).
  • [6] A. Van Leendert, “WND Wiskunde Notatie Dedicon, Voortgezet Onderwijs” [Online]. Available: https://www.eduvip.nl/cms/files/ WND VO juni 2016.pdf (accessed Dec. 10, 2018).
  • [7] Lambda notation [Online]. Available: http://www.lambdaproject.org/ the lambda code (accessed 04.02.2019).
  • [8] J. Świerczek, Ed., Brajlowska notacja matematyczna fizyczna i chemiczna. Krakow, Laski, Łódź, 2011 [Online]. Available: http://pzn.org.pl/wp-content/uploads/2016/07/brajlowska notacja matematyczna fizyczna chemiczna.pdf [in Polish].
  • [9] J. Brzostek-Pawłowska and D. Mikułowski, “Research on improving communication between the blind and the sighted in the area of mathematics, and related requirements”, in Proc. of the Federated Conf. on Comp. Sci. and Inform. Syst. FedCSIS 2012, Wrocław, Poland, 2012, pp. 1065–1069 [Online]. Available: https://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=6354311
  • [10] Research project “EuroMath – increasing support for teachers and vision-impaired students with innovative ICT in inclusive education”, co-financed by the Erasmus+ program, no. 2017-1-PL01-KA201- 038548, implementation period 2017–2020, coordinator NASK PIB.
  • [11] Google Classroom System [Online]. Available: https://classroom.google.com (accessed Feb. 13, 2019).
  • [12] Impero System [Online]. Available: https://www.imperosoftware.com/uk/ (accessed Feb. 10, 2019).
  • [13] Desmos Classroom Activities System [Online]. Available: https://teacher.desmos.com/ (accessed Feb. 10, 2019).
  • [14] J. Brzostek-Pawłowska, M. Rubin, and D. Mikułowski, “Technologie informacyjno-komunikacyjne zwiększające dostępność treści matematycznych”, Wydawnictwo Adam Marszałek (published in the first half of 2019) [in Polish].
  • [15] K. Miesenberger et al., “MathInBraille online converter”, in Proc. of the 13th Int. Conf. on Comp. Helping People with Special Needs ICCHP 2012, Linz, Austria, 2012, pp. 196–203 (doi: 10.1007/978-3-642-31522-0 29).
  • [16] L. B. Christensen, S. J. Keegan, and T. Stevns, “SCRIBe: A model for implementing robobraille in a higher education institution”, in Proc. of the 13th Int. Conf. on Comp. Helping People with Special Needs ICCHP 2012, Linz, Austria, 2012, pp. 77–83 (doi: 10.1007/978-3-642-31522-0 12).
  • [17] D. Archambault and F. Guyon, “UMCL transcription tools: Universal Maths Conversion Library”, Assist. Technol. Res. Series, vol. 29, pp. 416–423, 2011 (doi: 10.3233/978-1-60750-814-4-416).
  • [18] F. Alonsoi et al., “SBT: A translator from Spanish mathematical braille to MathML”, in Proc. of the 10th Int. Conf. on Comp. Helping People with Special Needs ICCHP 2006, Linz, Austria, 2006, pp. 1207–1214 (doi: 10.1007/11788713 174).
  • [19] MathML specification, version 3.0 [Online]. Available: https://www.w3.org/TR/MathML3/ (accessed Feb. 3, 2019).
  • [20] Specification of EPUB 3 electronic publication standard [Online]. Available: http://idpf.org/epub/30 (accessed Feb. 10, 2019).
  • [21] A. Salamończyk and J. Brzostek-Pawłowska, “Translation of MathML Formulas to Polish Text, Example Applications in Teaching the Blind”, in Proc. of the 2nd IEEE Int. Conf. on Cybernetics CYBCONF 2015, Gdynia, Poland, 2015, pp. 240–244 (doi: 10.1109/UBConf.2015.7175939).
  • [22] M. Rubin, “Raport z badań o potrzebach i informatycznych technikach ich zaspokojenia w zakresie wspomagania niewidomych i słabowidzących w edukacji i nabywaniu kompetencji kluczowych (matematyka) prowadzonych w 2016 r. – 2017 r. w ramach projektu badawczego “OPTY: Badania efektywności informatyzacji edukacji matematycznej uczniów z dysfunkcjami wzroku z zastosowaniem zoptymalizowanych narzędzi PlatMat” dofinansowanego przez PFRON”, Mathematical Machines Institute, 2017, access: NASK NRI Projects Archive.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e34fb257-6189-4cf1-80ce-44ecebf54b6d
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