Research Article
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Effects of Robots on Engineering Students' Attitude

Year 2019, Volume: 7 Number: ICOAEF’ 19, 69 - 73, 05.11.2019
https://doi.org/10.18506/anemon.577920

Abstract

Robotic
allows engineering students to understand to do analysis, design, and
implementation while working. The usage of robotic for engineering education
aims to increase student understanding with real practices. The Computer
programming course is the main course of engineering faculty. Generally,
students get difficulties to understand the logic of programming course and
they have a negative bias about that course. This study attempts to examine the
effect of the robots on students' attitude in the programming course. With this
aim, a hundred students are divided into two groups as experimental and control
groups. Students who are in the experimental group used computer and robots and
control group students used a computer. Computer Programming Attitude Scale was
applied to both groups to determine students' attitudes. The statistical
results showed that robot usage has affected positively the experimental group
of students’ attitude in the computer programming course. 

References

  • Aras,B. (2009). “Wireless and Mobile Robotics Application”. (Master Thesis). İstanbul Üniversitesi, İstanbul.
  • Çetin, I., Ozden Y. (2014). "Development of Computer Programming Attitude Scale for University Students” Wiley Periodicals, Inc.
  • Cruz, M., Fernandez-Madrigal, J.A, Galindo, C., Gonzalez-Jimenez, J., Stockmans-Daou, C., Blanco-Claraco, J.L., (2012). "A Legorobotic approach for teaching at Data Acquisition, Control Systems Engineering and Real-Time Systems undergraduate courses". Computer &Education.Vol. 59, pages 974-988.
  • Garcia, A. C. Gomez-de, G. J. Fernandez-Lozano, J., Mandow, A. , Munoz, V.F. , Vidal, F. ve Janschek, K. (2008). Using Lego robots with labview for summer school on mechatronics. IEEE International conference Mechatronics, 1-6.
  • Gura, M., Copyright 2011, ISTE ® (International Society for Technology in Education), Getting Started with Robotics: A Guide for K–12 Educators.
  • Koç, A., Böyük, U. (2013). "Technology based learning in science and technology education: Robotic Application". Journal of Turkish Science Education, Vol. 10, No 1, pages 139-155.
  • Kim, S. H. ve Jeon, J. W. (2006). Education C language using Legomindstorms robotic invention system 2,0. Proceeding 2006 IEEE International conferences on Robotics and Automation, 715-720.
  • Mcgill, M. M. (2012). "Learning to Program with Personal Robots: Influences on Student Motivation." Acm Transactions on Computer Education, Vol. 12, No. 1, Article 4.
  • Uzunboylu, H., Tugun, V. (2016). "Validity and Reliability of Tablet Supported Education Attitude and Usability Scale". Journal of Universal Computer Science, Vol. 22, no. 1, pages 82-93
  • Wilson, B. C., Shrock, S. (2001). Contributing to success inan introductory computer science course : A study of twelve factors. ACM SIGCSE, 33(1) pages 184-188.
  • Yucel, O., Karahoca, D., Karahoca, A. (2016). "The effects of problem-based learning on cognitive flexibility, self regulation skills, and students' achievements". Journal of Information Technology, Vol.6, no. 1, pages 86-93

Robotların Mühendislik Öğrencilerinin Tutumlarına Etkisi

Year 2019, Volume: 7 Number: ICOAEF’ 19, 69 - 73, 05.11.2019
https://doi.org/10.18506/anemon.577920

Abstract

Robotik, mühendislik öğrencilerinin çalışırken analiz,
tasarım ve uygulama yapmalarını sağlar. Robotik'in mühendislik eğitimi için
kullanımı, öğrencilerin gerçek uygulamalarla anlamalarını arttırmayı amaçlar.
Bilgisayar programlama dersi mühendislik fakültesinin ana dersidir. Genel
olarak, öğrenciler programlama dersinin mantığını anlamakta zorluk çekerler ve
bu ders hakkında olumsuz bir önyargıya sahiptirler. Bu çalışma, programlama
dersinde robotların öğrencilerin tutumları üzerindeki etkisini incelemeye
çalışmaktadır. Bu amaç doğrultusunda yüz öğrenci deney ve kontrol grubu olmak
üzere iki gruba ayrılmıştır. Deney grubundaki öğrenciler bilgisayar, robot ve
kontrol grubundaki öğrencileri bilgisayar kullandılar. Öğrencilerin tutumlarını
belirlemek için her iki gruba da Bilgisayar Programlama Tutum Ölçeği
uygulanmıştır. İstatistiksel sonuçlar, robot kullanımının deney grubundaki
öğrencilerin bilgisayar programlama dersindeki tutumunu olumlu yönde
etkilediğini göstermiştir.

References

  • Aras,B. (2009). “Wireless and Mobile Robotics Application”. (Master Thesis). İstanbul Üniversitesi, İstanbul.
  • Çetin, I., Ozden Y. (2014). "Development of Computer Programming Attitude Scale for University Students” Wiley Periodicals, Inc.
  • Cruz, M., Fernandez-Madrigal, J.A, Galindo, C., Gonzalez-Jimenez, J., Stockmans-Daou, C., Blanco-Claraco, J.L., (2012). "A Legorobotic approach for teaching at Data Acquisition, Control Systems Engineering and Real-Time Systems undergraduate courses". Computer &Education.Vol. 59, pages 974-988.
  • Garcia, A. C. Gomez-de, G. J. Fernandez-Lozano, J., Mandow, A. , Munoz, V.F. , Vidal, F. ve Janschek, K. (2008). Using Lego robots with labview for summer school on mechatronics. IEEE International conference Mechatronics, 1-6.
  • Gura, M., Copyright 2011, ISTE ® (International Society for Technology in Education), Getting Started with Robotics: A Guide for K–12 Educators.
  • Koç, A., Böyük, U. (2013). "Technology based learning in science and technology education: Robotic Application". Journal of Turkish Science Education, Vol. 10, No 1, pages 139-155.
  • Kim, S. H. ve Jeon, J. W. (2006). Education C language using Legomindstorms robotic invention system 2,0. Proceeding 2006 IEEE International conferences on Robotics and Automation, 715-720.
  • Mcgill, M. M. (2012). "Learning to Program with Personal Robots: Influences on Student Motivation." Acm Transactions on Computer Education, Vol. 12, No. 1, Article 4.
  • Uzunboylu, H., Tugun, V. (2016). "Validity and Reliability of Tablet Supported Education Attitude and Usability Scale". Journal of Universal Computer Science, Vol. 22, no. 1, pages 82-93
  • Wilson, B. C., Shrock, S. (2001). Contributing to success inan introductory computer science course : A study of twelve factors. ACM SIGCSE, 33(1) pages 184-188.
  • Yucel, O., Karahoca, D., Karahoca, A. (2016). "The effects of problem-based learning on cognitive flexibility, self regulation skills, and students' achievements". Journal of Information Technology, Vol.6, no. 1, pages 86-93
There are 11 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

Nilcan Çiftçi Özüorçun 0000-0001-7625-6959

Publication Date November 5, 2019
Acceptance Date November 1, 2019
Published in Issue Year 2019 Volume: 7 Number: ICOAEF’ 19

Cite

APA Çiftçi Özüorçun, N. (2019). Effects of Robots on Engineering Students’ Attitude. Anemon Muş Alparslan Üniversitesi Sosyal Bilimler Dergisi, 7, 69-73. https://doi.org/10.18506/anemon.577920

Anemon Muş Alparslan Üniversitesi Sosyal Bilimler Dergisi Creative Commons Atıf-GayriTicari 4.0 Uluslararası Lisansı (CC BY NC) ile lisanslanmıştır.