Cyber-Physical Laboratories in Engineering and Science Education
-15%
portes grátis
Cyber-Physical Laboratories in Engineering and Science Education
Azad, Abul K.M.; Edwards, Arthur; Auer, Michael E.; de Jong, Ton
Springer International Publishing AG
05/2018
434
Dura
Inglês
9783319769349
15 a 20 dias
7981
Descrição não disponível.
Section Intro, Ian Grout.- Online Laboratory Architectures and Technical Considerations, Zutin, Danilo.- The WebLab-Deusto Remote Laboratory Management System architecture: achieving scalability, interoperability, and federation of remote experimentation, Orduna, Pablo; Garcia-Zubia, Javier; Rodriguez-Gil, Luis; Angulo, Ignacio; Hernandez-Jayo, Unai; Dziabenko, Olga; Lopez-de-Ipina, Diego.- Deploying Large Scale Online Labs with Smart Devices Salzmann, Christophe; Halimi, Wissam; Gillet, Denis; Govaerts, Sten.- Augmented Reality and Natural User Interface Applications for Remote Laboratories, Maiti, Ananda; Smith, Mark; Maxwell, Andrew; Kist, Alexander A.- Designing Cyber-Physical Systems with Evolutionary Algorithms, Schranz, Melanie; Elmenreich, Wilfried; Rappaport, Micha.- Section 2: Pedagogy of Cyber-Physical Experimentation.- Section Intro, C. Zacharia, Zacharias; de Jong, Ton.- Advances in PhET Interactive Simulations: Interoperable and accessible, Moore, Emily B; Perkins, Katherine K.- Designing Virtual Laboratories to Foster Knowledge Integration: Buoyancy and Density, Vitale, Jonathan Michael; Linn, Marcia C.- Real Time Scaffolding of Students' On-line Data Interpretation During Inquiry with Inq-ITS Using Educational Data-mining, Gobert, Janice D.; Moussavi, Raha; Li, Haiying; Pedro, Michael Sao; Dickler, Rachel.- Providing Pedagogical Support for Collaborative Development of Virtual and Remote Labs: Amrita VLCAP, Nedungadi, Prema; Ramesh, Maneesha; Pradeep, Preeja; Raman, Raghu.- Model-based inquiry in computer-supported learning environments: The case of Go-Lab.- Hovardas, Tasos; Pedaste, Margus; Zacharia, Zacharias; De Jong, Ton.- Section 3: Cyber-Physical Laboratories: Best Practices and Case Studies.- Section Intro, Azad, Abul K. M.- Life-science Experiments Online: Technological Frameworks and Educational Use Cases, Riedel-Kruse, Ingmar.- A CPS Integration platform as a Framework for Generic Remote Labs in Automation Engineering, Langmann, Reinhard.-The Development and Implementation of Instruction and Remote-access Components of Additive Manufacturing, Fidan, Ismail; Elliott, Amy; Cossette, Mel; Singer, Thomas; Tackett, Ed.- Design and Implementation of a Remote Laboratory for Heat Transfer Experiments, Ennetta, Ridha; Nasri, Ibrahim; Bouallegue, Sofiene; Tsiatsos, Thrasyvoulos .- Collaborative Virtual Laboratory Environments with Hardware in the Loop, Aziz, El-Sayed; Zhang, Zhou; Zhang, Mingshao; Chang, Yizhe; Esche, Sven K.; Chassapis, Constantin.- Mobile Cyber-Physical Labs: On the Integration of Mobile Devices with Laboratory Test-beds to Teach Dynamic Systems and Control Concepts, Frank, Jared; Brill, Anthony; Kapila, Vikram.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
remote laboratories;STEM education;laboratory courses;virtual laboratories;online experimentation;mobile learning;gamification;blended learning;teach dynamic systems;collaborative virtual laboratory;computer-supported learning environments;cyberphysical system;online laboratory architectures;engineering education;internet based work;laboratory management system;augmented reality;natural user interface;PhET Interactive Simulations
Section Intro, Ian Grout.- Online Laboratory Architectures and Technical Considerations, Zutin, Danilo.- The WebLab-Deusto Remote Laboratory Management System architecture: achieving scalability, interoperability, and federation of remote experimentation, Orduna, Pablo; Garcia-Zubia, Javier; Rodriguez-Gil, Luis; Angulo, Ignacio; Hernandez-Jayo, Unai; Dziabenko, Olga; Lopez-de-Ipina, Diego.- Deploying Large Scale Online Labs with Smart Devices Salzmann, Christophe; Halimi, Wissam; Gillet, Denis; Govaerts, Sten.- Augmented Reality and Natural User Interface Applications for Remote Laboratories, Maiti, Ananda; Smith, Mark; Maxwell, Andrew; Kist, Alexander A.- Designing Cyber-Physical Systems with Evolutionary Algorithms, Schranz, Melanie; Elmenreich, Wilfried; Rappaport, Micha.- Section 2: Pedagogy of Cyber-Physical Experimentation.- Section Intro, C. Zacharia, Zacharias; de Jong, Ton.- Advances in PhET Interactive Simulations: Interoperable and accessible, Moore, Emily B; Perkins, Katherine K.- Designing Virtual Laboratories to Foster Knowledge Integration: Buoyancy and Density, Vitale, Jonathan Michael; Linn, Marcia C.- Real Time Scaffolding of Students' On-line Data Interpretation During Inquiry with Inq-ITS Using Educational Data-mining, Gobert, Janice D.; Moussavi, Raha; Li, Haiying; Pedro, Michael Sao; Dickler, Rachel.- Providing Pedagogical Support for Collaborative Development of Virtual and Remote Labs: Amrita VLCAP, Nedungadi, Prema; Ramesh, Maneesha; Pradeep, Preeja; Raman, Raghu.- Model-based inquiry in computer-supported learning environments: The case of Go-Lab.- Hovardas, Tasos; Pedaste, Margus; Zacharia, Zacharias; De Jong, Ton.- Section 3: Cyber-Physical Laboratories: Best Practices and Case Studies.- Section Intro, Azad, Abul K. M.- Life-science Experiments Online: Technological Frameworks and Educational Use Cases, Riedel-Kruse, Ingmar.- A CPS Integration platform as a Framework for Generic Remote Labs in Automation Engineering, Langmann, Reinhard.-The Development and Implementation of Instruction and Remote-access Components of Additive Manufacturing, Fidan, Ismail; Elliott, Amy; Cossette, Mel; Singer, Thomas; Tackett, Ed.- Design and Implementation of a Remote Laboratory for Heat Transfer Experiments, Ennetta, Ridha; Nasri, Ibrahim; Bouallegue, Sofiene; Tsiatsos, Thrasyvoulos .- Collaborative Virtual Laboratory Environments with Hardware in the Loop, Aziz, El-Sayed; Zhang, Zhou; Zhang, Mingshao; Chang, Yizhe; Esche, Sven K.; Chassapis, Constantin.- Mobile Cyber-Physical Labs: On the Integration of Mobile Devices with Laboratory Test-beds to Teach Dynamic Systems and Control Concepts, Frank, Jared; Brill, Anthony; Kapila, Vikram.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
remote laboratories;STEM education;laboratory courses;virtual laboratories;online experimentation;mobile learning;gamification;blended learning;teach dynamic systems;collaborative virtual laboratory;computer-supported learning environments;cyberphysical system;online laboratory architectures;engineering education;internet based work;laboratory management system;augmented reality;natural user interface;PhET Interactive Simulations