Interdisciplinary training on instructional design using robots and IoT objects: A case study on undergraduates from different disciplines

Lin, Vivien; Chen, Nian‐Shing

doi:10.1002/cae.22601

Cited by 5 publications

(2 citation statements)

References 41 publications

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“…Through the application of these technologies in instructional design for language education, the study not only addresses challenges such as cross-disciplinary expertise and knowledge gaps but also provides a framework for future instructional design. The identified factors influencing designer perspectives contribute to the development of targeted training programs, enhancing the overall educational landscape by fostering innovative approaches that align with the evolving demands of Industry 4.0 [12,26].…”

Section: Related Workmentioning

confidence: 99%

Insights 4.0: Transformative learning in industrial engineering through problem‐based learning and project‐based learning

Rodriguez‐Sanchez,

Orellana,

Fernandez Barbosa

et al. 2024

Comp Applic In Engineering

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This paper describes a methodological study carried out between 2018 and 2022, at Rey Juan Carlos University, focused on the subject monitoring and control systems within a master's program in Industrial Engineering. The study proposes an innovative teaching strategy using problem‐based learning and project‐based learning methodologies. The projects undertaken are based on Internet of Things (IoT) systems aimed at enhancing weather stations, services and facilitating real‐time decision‐making. Inspired by our experience in the development of Industry 4.0 projects, we have designed a methodological strategy for this subject that focuses on providing students with the necessary knowledge and skills in the field of Control and Monitoring Systems and the IoT to develop real monitoring and control systems. The approach emphasizes interdisciplinary problem‐solving, with students working collaboratively in stable teams. Throughout the 16‐week course, tasks of increasing complexity are completed, resulting in the development of a complete system. The practical approach of the course and its relation to real applications motivates students, resulting in better performance. The acquired techniques and skills from the course are broadly applicable across engineering disciplines.

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Section: Related Workmentioning

confidence: 99%

Insights 4.0: Transformative learning in industrial engineering through problem‐based learning and project‐based learning

Rodriguez‐Sanchez,

Orellana,

Fernandez Barbosa

et al. 2024

Comp Applic In Engineering

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“…By applying conveniences in daily life together with technological design, problem-based learning can promote both progressive thinking and scientific progress. If learners can practice and learn through projectbased learning (PBL), it will lead to better learning outcomes (Lin & Chen, 2023). Using problem-based learning techniques can promote collaborative learning, exchanging ideas between learners, and receiving instructor guidance, resulting in better learning effectiveness than traditional learning methods.…”

Section: Introductionmentioning

confidence: 99%

Enhancing Information Communication Technology Competency in Thai University Student Computer Education Courses

Chardnarumarn,

Kantathanawat,

Sukkamart

2023

JHETP

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This study’s objectives were to: 1) develop an integrated teaching approach using problem-based learning (PBL) to enhance information communication technology competency (ICTC) in 3 rd -year Thai university Computer Science Studies students, 2) to evaluate the teaching approach, and 3) to compare learning outcomes before and after implementing the approach. The teaching approach comprised eight steps, including 1. Creating a brain-stimulating learning environment, 2. Dividing learners into small groups, 3. Integrating students into groups based on their abilities, 4. Defining problem situations, 5. Structuring the problem-solving processes, 6. Problem linkage, 7. Confronting problems, and 8. Checking for correctness. The learning effectiveness of the ICTC Model’s course implementation had a pre-test mean = 16.70, SD = 1.78, and a post-test mean = 23.00, SD = 2.64, with a statistical t-test value of 8.81. These results indicated that learning outcomes significantly improved after implementing the teaching approach (p<.05) with 20 students. This research contributes to developing an effective instructional method to enhance ICT competencies in Computer Science education.

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Teaching approach for deep reinforcement learning of robotic strategies

Podobnik,

Udir,

Munih

et al. 2024

Comp Applic In Engineering

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This paper presents the development of a teaching approach for Reinforcement Learning (RL) for students at the Faculty of Electrical Engineering, University of Ljubljana. The approach is designed to introduce students to the basic concepts, approaches, and algorithms of RL through examples and experiments in both simulation environments and on a real robot. The approach includes practical programs written in Python and presents various RL algorithms. The Q‐learning algorithm is introduced and a deep Q network is implemented to introduce the use of neural networks in deep RL. The software is user‐friendly and allows easy modification of learning parameters, reward functions, and algorithms. The approach was tested successfully on a Franka Emika Panda robot, where the robot manipulator learned to move to a randomly generated target position, shoot a real ball into the goal, and push various objects into target position. The goal of the presented teaching approach is to serve as a study aid for future generations of students of robotics to help them better understand the basic concepts of RL and apply them to a wide variety of problems.

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Interdisciplinary training on instructional design using robots and IoT objects: A case study on undergraduates from different disciplines

Cited by 5 publications

References 41 publications

Insights 4.0: Transformative learning in industrial engineering through problem‐based learning and project‐based learning

Insights 4.0: Transformative learning in industrial engineering through problem‐based learning and project‐based learning

Enhancing Information Communication Technology Competency in Thai University Student Computer Education Courses

Teaching approach for deep reinforcement learning of robotic strategies

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