Teaching low-power design with an FPGA-based hands-on and remote lab

AbuShanab, Shatha; Winzker, Marco; Brück, Rainer

doi:10.1109/educon.2015.7095962

Cited by 9 publications

(3 citation statements)

References 11 publications

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“…In the field of automatic control, a structure for rapid implementation of remote experiments based on a digital signal processor (DSP) control system's hardware is presented in Albiol et al 18 An interesting example of remote laboratory based on FPGA board for semi-automatic engineering courses is shown in Toyoda et al 19 They present a remote FPGA laboratory that provides semi-automatic experiment services. AbuShanab et al 20 and Fujii and Koike 21 show similar approaches based on FPGA. They use a standard personal computer (PC) server to provide communication between user and experimental devices.…”

Section: Related Workmentioning

confidence: 90%

Remote web-based control laboratories using embedded Linux and field-programmable gate array

Jaziri

Charaabi

Jelassi

2018

Proceedings of the Institution of Mechanical Engineers, Part I:

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In this article, the authors present a new approach based on the hardware and software architecture using embedded Linux and field-programmable gate array for implementation of remote laboratories. It combines a set of software and hardware resources in the interest of offering a multidisciplinary low-cost open platform for engineering education. Thus, the proposed approach allows students to develop low-cost and easily programmable prototypes of electrical systems control, robotics, and other embedded devices that feature Internet connectivity, Input/output, networking, and operating systems. In the proposed work, the authors present a codesign solution with flexible hardware devices, providing characteristics of multipurpose use with many experimental devices, and fully configurable graphical user interface. The physical setup and communication principles of hardware architecture are based on two types of devices: the Beaglebone running embedded Linux operating system and the field-programmable logic gate array. The graphical user interface is designed as a web page based on HTML and PHP programming languages; this allows the teachers/students to control the system easily, parameterize, and observe the behavior of the controller/system remotely.

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Section: Related Workmentioning

confidence: 90%

Remote web-based control laboratories using embedded Linux and field-programmable gate array

Jaziri

Charaabi

Jelassi

2018

Proceedings of the Institution of Mechanical Engineers, Part I:

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“…The flexibility of FPGA-based platforms is enormous, and these types of remote experimentation facilities can address several application domains for exercising the design of digital systems. Examples are control of DC motors [67], teaching low-power electronics [68], image processing [69], computer architecture [70], microprocessor design [71], or applications in the domain of the Internet of Things [72]. In this technology field, we can see that the RRL is used like a hardware-as-a-service platform (HaaS).…”

Section: The Case Of Digital Electronic Systemsmentioning

confidence: 99%

Integrating Internationalization and Online Collaborative Strategies in Digital Electronics Education: Exploring IaH, COIL, PBL, and RRL Approaches for Enhanced Learning

Zambelli,

Favalli,

Olivo

et al. 2024

Preprint

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This document is intended to present a benchmark of multiple good practices in the context of internationalization studies, particularly focused on digital electronics and programmable devices, yet is not limited to them. This paper will start with a comprehensive paper desk analysis together with an in-depth research process that should lead to the selection of innovative tools applied to digital systems. International initiatives are oriented towards increasing the quality of higher education by motivating teachers of STEM disciplines to use a multidisciplinary approach and teach with the massive support of technologies like Classroom, MS-Teams, Blackboard, etc. The central goal is to suggest and recommend a model for integrating intermediate and advanced digital electronics subjects (e.g., FPGA, microcontrollers, etc.) and ICT in international teaching approaches such as Collaborative Online International Learning (COIL), Project-based Learning (PBL) and Real Remote Labs (RRL). This is the approach sought by the European Project DECEL.

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“…The conclusions of the student project are incorporated in the plan of the newly designed hands-on labs. A detailed discussion of the evaluation and results of the project are presented in [5].…”

Section: Introductionmentioning

confidence: 99%

Design of lab exercises for teaching energy-efficient digital design

Schwandt

Winzker

Shanab

2015

2015 IEEE Global Engineering Education Conference (EDUCON)

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To meet the demands for education, engineering curricula intend go beyond teaching technical knowledge. In addition to classic modules, our department considers sustainability subjects such as energy awareness. This paper describes the implementation of a teaching plan for energy-efficient design in hands-on labs and visualizes the possibilities to bring the methods of reducing power consumption closer to students and observe the size of the effects.

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Teaching low-power design with an FPGA-based hands-on and remote lab

Cited by 9 publications

References 11 publications

Remote web-based control laboratories using embedded Linux and field-programmable gate array

Remote web-based control laboratories using embedded Linux and field-programmable gate array

Integrating Internationalization and Online Collaborative Strategies in Digital Electronics Education: Exploring IaH, COIL, PBL, and RRL Approaches for Enhanced Learning

Design of lab exercises for teaching energy-efficient digital design

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