Comparison between face-to-face and remote learning for teaching automatic control systems

被引:0
作者
Bravo Montenegro, Diego Alberto [1 ]
Rengifo Rodas, Carlos Felipe [2 ]
机构
[1] Univ Cauca, Ciencias Elect, Popayan, Colombia
[2] Univ Cauca, Ecole Cent Nantes, Popayan, Colombia
来源
ACADEMIA Y VIRTUALIDAD | 2022年 / 15卷 / 02期
关键词
control education; teaching tools; linear control systems; e-learning;
D O I
10.18359/ravi.5733
中图分类号
G40 [教育学];
学科分类号
040101 ; 120403 ;
摘要
This paper presents a comparison between face-to-face and remote teaching of a university level course on automatic control systems. A set of learning activities is proposed to teach and evaluate the course. These activities aim to strengthen problem solving, teamwork, communication and self-learning skills. The activities were developed using the interactive learning applications: Matlab Grader, Matlab Live Scripts, Google Classroom, Google Meet and Google Docs. A survey applied to students who took the course face- to-face in 2019 and remotely during 2020 showed the advantages of the remote approach for most aspects of each of the skills mentioned. However, students perceived that their contribution to teamwork was greater when they were in a physical classroom. Course grades improved by an average of 10 % for the remote modality.
引用
收藏
页码:77 / 87
页数:11
相关论文
共 13 条
  • [1] Efficient Practices on Teaching Modeling and Simulation for Engineers
    Al-khazraji, Ayman
    Ismaeel, Salam
    [J]. 2020 IEEE CANADIAN CONFERENCE ON ELECTRICAL AND COMPUTER ENGINEERING (CCECE), 2020,
  • [2] Minivideos tutorials to reinforce the learning of basic concepts for an Automatic Control course
    Arevalo, V
    Vicente-del-Rey, J. M.
    Garcia-Morales, I
    Rivas-Blanco, I
    [J]. REVISTA IBEROAMERICANA DE AUTOMATICA E INFORMATICA INDUSTRIAL, 2020, 17 (02): : 107 - 115
  • [3] Bravo M. D. A., 2014, Rev. mex. fís. E, V60, P111
  • [4] A TOOLBOX FOR POWER-SYSTEM DYNAMICS AND CONTROL ENGINEERING-EDUCATION AND RESEARCH
    CHOW, JH
    CHEUNG, KW
    [J]. IEEE TRANSACTIONS ON POWER SYSTEMS, 1992, 7 (04) : 1559 - 1564
  • [5] Fardoun H, 2020, Education in the Knowledge Society, V21, DOI [10.14201/eks.23437, DOI 10.14201/EKS.23437]
  • [6] Fernández-Samacá Liliana, 2012, Sba Controle & Automação, V23, P94, DOI 10.1590/S0103-17592012000100008
  • [7] UNIVERSITY STUDENT PERCEPTIONS OF COMPETENCES ACQUIRED THROUGH PROBLEM-BASED LEARNING
    Gil-Galvan, Rosario
    Martin-Espinosa, Inmaculada
    Javier Gil-Galvan, Francisco
    [J]. EDUCACION XX1, 2021, 24 (01): : 271 - 295
  • [8] Collaborative Learning in Computer Programming Courses That Adopted The Flipped Classroom
    Hayashi, Yasuhiro
    Fukamachi, Ken-ichi
    Komatsugawa, Hiroshi
    [J]. 2015 INTERNATIONAL CONFERENCE ON LEARNING AND TEACHING IN COMPUTING AND ENGINEERING, 2015, : 209 - 212
  • [9] Virtual and remote labs in control education: A survey
    Heradio, Ruben
    de la Torre, Luis
    Dormido, Sebastian
    [J]. ANNUAL REVIEWS IN CONTROL, 2016, 42 : 1 - 10
  • [10] Teaching Tool for a Control Systems Laboratory Using a Quadrotor as a Plant in MATLAB
    Khan, Subhan
    Jaffery, Mujtaba Hussain
    Hanif, Athar
    Asif, Muhammad Rizwan
    [J]. IEEE TRANSACTIONS ON EDUCATION, 2017, 60 (04) : 249 - 256
12