0 Contact Us

Embedded Systems for the Internet of ThingsIn Product Design Education

Tom Page*
Senior Lecturer, Department of Electronic Product Design, Loughborough University, UK.
Periodicity:February - April'2015
DOI : https://doi.org/10.26634/jes.4.1.3690

Abstract

The objective of this work identified whether there is a need to incorporate the Internet of Things (IoT) into the product design curriculum at the Loughborough Design School. Initial research into the subject area comprised an extensive literature review into the origins, growth, challenges and enabling technologies for the IoT. Furthermore, this work explored literature around IoT within the current curriculum and for product designers and graduates, however. Whilst this work considers the possibilities and capabilities through various visions and methods of application, the fundamentals of the technical side are considered in order to understand these possibilities for the IoT as a subject. A mixed-method research approach was design which used a structured questionnaire survey for product design students and interviews with design lecturers. The results revealed a majority agreement into the need and interest for the Loughborough Design School to incorporate IoT subject matter, however, with much debate (Ruhini, 2012) and discussion into how this may be envisioned. The work conclude with implementation through a mixed approach between basic technical teaching of microcontroller design applications combined with project-led problem based learning allowing students to combine their design skills into product concepts and prototypes in order to realise and develop the future Internet of Things. (Engk, 2014) (Hamblen, 2013).

Keywords

 Internet of Things, Product Design Education.

How to Cite this Article?

 Page,T. (2015). Embedded Systems for the Internet of Things In Product Design Education. i-manager’s Journal on Embedded Systems, 4(1), 1-13. https://doi.org/10.26634/jes.4.1.3690

References
[1]. Adele Botha, M. H. (2014). “Gamification beyond Badges”, IIMC International Information Management Corporation.
[2]. Atzori, L., Iera, A. and Morabito, G. (2010). “The internet of things: a survey”. Computer Networks, Vol. 54 No. 15, pp.2787-2805.
[3]. Katal, A., Wazid, M. and Goudar, R.H. (2013). “Big Data: Issues , Challenges , Tools and Good Practices”, The Sixth International Conference on Contemporary Computing. IEEE pp.404-409.
[4]. Charle Ume, M. T. (1995). “Mechatronics instruction in the Mechanical Engineering curriculum at Georgia Tech”, Mechatronics, Vol. 5, pp. 723-741.
[5]. Chen. P-Y. (2014). “Information Fusion to Defend Intentional Attack in Internet of Things. Internet of Things” Journal, Vol. 1, No. 4, pp.337-348.
[6]. D’Ausilio, A. (2011). Arduino: A low-cost multipurpose lab equipment. Psychonomic Society, pp. 305- 313.
[7]. Dalmaijer, E. S., Mathôt, S., and Van der Stigchel, S. (2013). PyGaze: “An open-source, cross-platform toolbox for minimal-effort programming of eyetracking experiments”, Behav Res, 46, pp. 913– 921.
[8]. Daniel Ernst, K. V. (2007). “Unmanned Vehicle Controller Design, Evaluation and Implementation”: From MATLAB to Printed Circuit Board, J Intell Robot Syst (2007), 85–108.
[9]. Eng, K. (2014). “What's Next for the Internet of Things”. Retrieved, from Ideas TED: http://ideas.ted.com/ 2014/10/02/whats-next-for-the-internet-of-things/
[10]. Enrico Rukzio, K. L. (2006). “An Experimental Comparison of Physical Mobile Interaction Techniques: Touching, Pointing and Scanning”. Research Group Embedded Interaction, Media Informatics Group.
[11]. Gildea, K. M., and Milburn, N. (2013). “Open-source products for a lighting experiment device”. Behav Res (2014) 46, 960–983.
[12]. Hamblen, J. O., and Bekkum, G. M. (2013). “An Embedded Systems Laboratory to Support Rapid Prototyping of Robotics and the Internet of Things”. IEEE Transactions on Education , Vol. 56.
[13]. Newnes. Ioannis Stamelos, L. A. (2002). “Code quality analysis in open source software development”. Information Systems Journel, Vol. 12, pp. 43-60.
[14]. Jens Ziegler, L. U. (2011). “Advanced Interaction Metaphors for RFID-Tagged Physical Artefacts”. IEEE International Conference on RFID-Technologies and Applications. Dresden, Germany: Technische Universit¨at Dresden, Institute of Automation.
[15]. Juho Hamari, J. K. (2014). Does Gamification Work? — “A Literature Review of Empirical Studies on Gamification”. 47th Hawaii International Conference on System Science.
[16]. K.Ousterhout, J. (1998). “Scripting: Higher- Level Programming for the 21st Century”, Cybersquare, 23-30.
[17]. Komarov, M. M., & Nemova, M. D. (2013). “Emerging of new service-oriented approach based on the Internet of Services and Internet of Things”, International Conference on e-Business Engineering, Moscow, Russia: IEEE .
[18]. Kortuem, G. (2007). “Sensor Networks or Smart Artifacts? An Exploration of Organizational Issues of an Industrial Health and Safety Monitoring System”, Proc. Int’l Conf. Ubiquitous Computing (Ubicomp 07), Springer, pp. 465–482.
[19]. Lee, D., Kim, S., Kim, H. and Park, N. (2010). “Mobile Platform for Networked RFID Applications”, Seventh International Conference on Information Technology.
[20]. Littlebits. (2014). “What is Littlebits? ” Retrieved from Littlebits: http://littlebits.cc/intro
[21]. Microchip. (2015). “PIC18F Product Family”. us/technology/motorcontrol/control/pic18Retrieved from Microchip: http://www.microchip.com/pagehandler/enf. html
[22]. Mokhtar A. and A. Mohamed, A. M. (2014). “Developing an Open Architecture and Intelligent System for Speed and Direction Controlling (PC-SDC) of DC Motors”, Arab J Sci Eng, 8793–8810.
[23]. Oh, S.E., Bang, H. and Hwang, J.O. (2010). “Lightweight RFID device interface for controlling RFID tag memory access”, The 12th International Conference on Advanced Communication Technology (ICACT) 2010, Vol. 2, pp.l516-1521.
[24]. Oluwagbemi, O. (2013). “An Analysis of Scripting Languages for Research in Applied Computing. 2013”, IEEE 16th International Conference on Computational Science and Engineering, Ota,
[25]. RaspberryPi, (2012). “RASPBERRY PI AND ARDUINO”. Retrieved, from RaspberryPi: http://www.raspberrypi.org/ raspberry-pi-and-arduino/
[26]. Rughini, R. (2012). “Gamification for Productive Interaction. Reading and Working with the Gamification Debate in Education”.
[27]. Schlett, M. (1998). “Trends in Embedded- Microprocessor Design. embedded systems”.
[28]. Sprinz, D. f., and Wolinsky-Nahmias, Y. (2004). Models, numbers and Cases. Michigen: Michigen Press.
[29]. Kaisler, S., Armour, F., Espinosa, J.A. and Money, W. (2013). “Big Data: Issues and Challenges Moving Forward”, 46th Hawaii International Conference on System Sciences, Wailea Maui, 7th-10th Jan, pp. 995- 1004.
[30]. Tan, L., and Wang, N. (2010). “Future Internet: The Internet of Things”, 3rd International Conference on Advanced Computer Theory and Engineering (ICACTE), Shanghai, China.
[31]. Tiobe. (2015, 03). TIOBE Index. Retrieved, from tiobe.com:http://www.tiobe.com/index.php/ content/paperinfo/tpci/index.html
[32]. Toyotaro Suzumura, S. T. (2008). “Performance Comparison of Web Service Engines in PHP, Java, and C”, International Conference on Web Services, Tokyo, Japan.
[33]. UK, B. (2015, March). “Mount on Metal RFID UHF Label/Tag”. Retrieved Marc h 24,2015,from www.barcode-uk.com:http://www.barcode - uk.com/mount-metal-rfid-labeltag-p-15038.html
[34]. Wiechert, T., and Michahelles, F. (2007). “Connecting the Mobile Phone with the Internet of Things – Benefits of EPC and NFC Compatibility”, University of St. Gallen –Alexandria Repository, Switzerland.
[35]. Wright, K. B. (2005). “Researching Internet- Based Populations: Advantages and Disadvantages of Online Survey Research, Online Questionnaire Authoring Software Packages, and Web Survey Services”, Computer Mediated Information, Vol. 10(3).
[36]. Xia, F. (2012). “Internet of Things”, International Journal of Communication Systems, Vol. 25(9), pp.1101- 1102.
[37]. Yin, R. K. (1981). “Case Study Crisis: Some Answers. Administrative Science Quarterly”, Vol. 26(1).
[38]. Huang, Y. and Li, G. (2010). “Descriptive Models for Internet of Things”. International Conference on Intelligent Control and Information Processing. (CICIP), 13th to 15th Aug, 2010, Dalian, China: IEEE, pp.483-486.
If you have access to this article please login to view the article or kindly login to purchase the article

Purchase Instant Access

Single Article

North Americas,UK,
Middle East,Europe 		India Rest of world
USD EUR INR USD-ROW
Pdf 35 35 200 20
Online 35 35 200 15
Pdf & Online 35 35 400 25
ADD TO CART

Options for accessing this content:
  • If you would like institutional access to this content, please recommend the title to your librarian.
    Library Recommendation Form
  • If you already have i-manager's user account: Login above and proceed to purchase the article.
  • New Users: Please register, then proceed to purchase the article.
Submit New Paper Track Paper Status Buy Journal Track Your Subscription Journal Archive
Authors Institutions/Librarians Agents Conferences
About Us Contact FAQ Terms and Conditions Privacy Policy Refund & cancellation Policy