Sven Seiler scite author profile

Sven Seiler

5Publications

26Citation Statements Received

50Citation Statements Given

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Affiliations

Bochum University of Applied Sciences

Publications

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Embedded System and Robotic Education in a Blended Learning Environment Utilizing Remote and Virtual Labs in the Cloud, Accompanied by 'Robotic HomeLab Kit'

Seiler

Sell

Ptasik

2012

Int. J. Emerg. Technol. Learn.

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It is impossible to imagine everyday life without embedded devices and robotic applications, as they are utilized in almost every nowadays technical product. And there is a frantic need of well-educated developers, designers and programmers to handle and further evolve this existing technology. The domain itself is in a big change because the borders of pure ICT and embedded system are fusing and according to this process new methods for teaching these disciplines are necessary. It is important that ICT education will become more and more to real systems education, instead of just computer software programming, but in most curricula these two domains are still separated. The paper addresses a novel and implemented solution for teaching and learning of Robotics and embedded systems, while setting in remote labs and modern Internet technology into overall learning process. The proposed concept builds the bridge for a simple and logical study process by utilizing ICT for controlling and understanding real word processes and situations. The introduced blended learning concept covers several educational levels, starting from first and second level education up to university education and life-long learning. The solution is covered with hands-on mobile hardware kits, collaborative e-tools and remote labs. The focus in this paper is on the integration of the overall concept and an evaluation of the given courses

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Current Trends in Remote and Virtual Lab Engineering. Where are we in 2013?

Seiler¹

2013

Int. J. Onl. Eng.

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Abstract-This article is introducing latest developments and trends in remote and virtual technologies and their application in engineering education. The author gives an overview about the potential of utilizing remote engineering in engineering research, education and professional training, focusing on different kinds of technological characteristics. In conclusion, possible ways of further advancement are presented.

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Inductive Teaching and Learning in Engineering Pedagogy on the Example of Remote Labs

2014

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Inductive principles in Engineering Pedagogy have been presented in the present paper on the example of remote labs. Inductive teaching is one way to help students learn to use the fundamental concepts for problem solving – focusing on cases that students could work on to help develop an understanding of the phenomenon. For effective inductive teaching and problem solving tasks a supportive technical concept is needed. Here remotely controlled and virtual labs, which have got into focus during last years, can help a lot and offer flexibility and freedom for students. In this paper we are presenting an Engineering Pedagogy programme and holistic technical solution based on remote labs for supporting the engineering studies.

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Holistic Web-based Virtual Micro Controller Framework for Research and Education

Seiler¹,

Sell

Ptasik

et al. 2012

Int. J. Onl. Eng.

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Education in the field of embedded system programming became an even more important aspect in the qualification of young engineers during the last decade. This development is accompanied by a rapidly increasing complexity of the software environments used with such devices. Therefore a qualified and solid teaching methodology is necessary, accompanied by industry driven technological innovation with an emphasis on programming. As part of three European projects regarding lifelong-learning a comprehensive blended learning concept for teaching embedded systems and robotics was developed by paper authors. It comprises basic exercises in micro controller programming up to high-level student robotic challenges. These implemented measures are supported by a distance learning environment. The programming of embedded systems and microcontroller technology has to be seen as the precursor for more complex robotic systems in this context, but with a high importance for later successfully working with the technology for further professional utilization with these technologies. Current paper introduces the most novel part; the online accessible Virtual Micro Controller Platform (VMCU) and its underlying simulation framework platform. This approach conquers the major existing problems in engineering education: outdated hardware and limited lab times. This paper answers the question about advantages of using virtual hardware in an educational environment

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Comprehensive Blended Learning Concept for Teaching Micro Controller Technology Utilising HomeLab Kits and Remote Labs in a Virtual Web Environment

Seiler

Sell

2013

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Sven Seiler

Embedded System and Robotic Education in a Blended Learning Environment Utilizing Remote and Virtual Labs in the Cloud, Accompanied by 'Robotic HomeLab Kit'

Current Trends in Remote and Virtual Lab Engineering. Where are we in 2013?

Inductive Teaching and Learning in Engineering Pedagogy on the Example of Remote Labs

Holistic Web-based Virtual Micro Controller Framework for Research and Education

Comprehensive Blended Learning Concept for Teaching Micro Controller Technology Utilising HomeLab Kits and Remote Labs in a Virtual Web Environment

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