Matthias Bauer

Hasso-Plattner-Institut (HPI) für
Digital Engineering gGmbH
Universität Potsdam
Prof.-Dr.-Helmert-Str. 2-3
14482 Potsdam
Germany

office: H-1.21
phone: +49 (0)331-5509-385
fax: +49 (0)331-5509-325
e-mail: (firstname.lastname)@hpi.de

Find me on LinkedIn and on XING

Gremien/Councils

02-04/2017Erw. Mitglied im Gründungskommittee der Digital Engineering Fakultät
seit 04/2017Erw. Mitglied im Fakultätsrat Digital Engineering Fakultät
seit 06/2017Mitglied der Studienkommission Digital Engineering Fakultät

Teaching - openHPI

Teaching - IT Systems Engineering

Winter Semester 2017/2018

Summer Semester 2017

Winter Semester 2016/2017

Summer Semester 2016

  • Lecture Assistant: Internet- und WWW-Technologien
  • Tutorial: Internet- und WWW-Technologien
  • Seminar: Weiterführende Themen zu Internet- und WWW-Technologien

Winter Semester 2015/2016

  • Seminar: Web-Programmierung und Web-Frameworks

Summer Semester 2015

  • Lecture Assistant: Internet- und WWW-Technologien
  • Tutorial: Internet- und WWW-Technologien
  • Seminar: Weiterführende Themen zu Internet- und WWW-Technologien
  • Schülerkolleg: Internetsuche und Google Page-Rank

Winter Semester 2014/2015

  • Seminar: Web-Programmierung und Web-Frameworks

Summer Semester 2014

  • Lecture Assistant: Internet- und WWW-Technologien
  • Tutorial: Internet- und WWW-Technologien
  • Seminar: Weiterführende Themen zu Internet- und WWW-Technologien

Winter Semester 2013/2014

Summer Semester 2013

  • Lecture Assistant: Internet- und WWW-Technologien
  • Tutorial: Internet- und WWW-Technologien
  • Seminar: Weiterführende Themen zu Internet- und WWW-Technologien

Winter Semester 2012/2013

  • Seminar: Web-Programmierung und Web-Frameworks

Summer Semester 2012

Winter Semester 2011/2012

Summer Semester 2011

  • Tutorial: Internet- und WWW-Technologien
  • Seminar: Weiterführende Themen zu Internet- und WWW-Technologien

Lectures (stand-in) IT Systems Engineering

Bachelor - Internet- und WWW-Technologien

  • 15.06.2017 HTTP
  • 15.06.2017 URIs
  • 01.06.2017 Internetanwendungen 1
  • 24.05.2017 Internetworking mit IPv6
  • 17.05.2017 WAN-Technologien
  • 06.05.2015 Videokodierung und -Kompression

Teaching - Kids

Summer Semester 2015

  • Schülerkolleg: Internetsuche und Google Page-Rank

Publications

Enhance Embedded System E-learning Experience with Sensors

Malchow, Martin; Renz, Jan; Bauer, Matthias; Meinel, Christoph in 2016 IEEE Global Engineering Education Conference (EDUCON) Seite 175-183 . IEEE , 2016 .

Earlier research shows that using an embedded LED system motivates students to learn programming languages in massive open online courses (MOOCs) efficiently. Since this earlier approach was very successful the system should be improved to increase the learning experience for students during programming exercises. The problem of the current system is that only a static image was shown on the LED matrix controlled by students’ array programming over the embedded system. The idea of this paper to change this static behavior into a dynamic display of information on the LED matrix by the use of sensors which are connected with the embedded system. For this approach a light sensor and a temperature sensor are connected to an analog-to-digital converter (ADC) port of the embedded system. These sensors' values can be read by the students to compute the correct output for the LED matrix. The result is captured and sent back to the students for direct feedback. Furthermore, unit tests can be used to automatically evaluate the programming results. The system was evaluated during a MOOC course about web technologies using JavaScript. Evaluation results are taken from the student’s feedback and an evaluation of the students’ code executions on the system. The positive feedback and the evaluation of the students’ executions, which shows a higher amount of code executions compared to standard programming tasks and the fact that students solving these tasks have overall better course results, highlight the advantage of the approach. Due to the evaluation results, this approach should be used in e-learning e.g. MOOCs teaching programming languages to increase the learning experience and motivate students to learn programming.
Weitere Informationen
Tags Distance_Learning E-Learning Embedded_systems MOOC Sensor_systems Tele-Lecturing Teleteaching Virtual_Lab Web_technologies analog-to-digital_converter computer_aided_instruction computer_science_education educational_courses electronic_learning embedded_LED_system embedded_system_e-learning_experience embedded_systems its learning_experience light_sensor massive_open_online_courses programming_exercises programming_language_learning student_code_execution_evaluation student_feedback student_motivation temperature_sensor

Press

Wie digitale Weiterbildungsangebote kleinen und mittleren Unternehmen bei der Digitalisierung helfen können, Tatiana Gayvoronskaya, Matthias Bauer, Martin Talmeier, Christoph Meinel, in Wissenschaft trifft Praxis, Ausgabe 5, ISSN (Print) 2198-8544, November 2016

So wird das Haus schlauSaarbrücker Zeitung 03.06.2016

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