Comparative study of Arduino Types and Raspberry Pi with Programming Languages

Shajan Mohammed Mahdi; Mohanad Ali Meteab Al-Obaidi; Reyadh Hazim Mahdi

doi:10.37899/journallamultiapp.v3i5.740

Shajan Mohammed Mahdi Department of Information Technology, AL-ESRAA University College, Baghdad, Iraq
Mohanad Ali Meteab Al-Obaidi Department of Computer Science, College of Science, Mustansiriya University, Baghdad, Iraq
Reyadh Hazim Mahdi Department of Computer Science, College of Science, Mustansiriya University, Baghdad, Iraq

DOI: https://doi.org/10.37899/journallamultiapp.v3i5.740

Keywords: Arduino, Arduino Leonardo, ATmega, Raspberry Pi

Abstract

The world is developing at an amazing speed through modern technologies to control things and microcontrollers have become a preoccupation of most developers of remote and proximity control devices in various industrial, household, and educational sectors, so it is necessary to study them in-depth and know the differences between Arduino and Raspberry in terms of hardware and software so that the developer is aware of what they can use it to build his project. Both Arduino and Raspberry are microcontrollers, but the first works without the need to connect to a computer, and works through an open source program as it is a single board and deals with a simple program every time and can connect to the Internet, while Raspberry connects to a computer via USB It deals with the language of Linux and Ruby and can perform mathematical and arithmetic operations and encrypt Bitcoin currencies, for these reasons, all these concepts will be explained in this paper, and that any technician or programmer can choose the best electronic parts Arduino or Raspberry in order to get the project done better.

References

Anderson S., (2019). 3 popular programming languages you can learn with Raspberry Pi”, 2019, available at https://opensource.com/article/19/3/programming-languages-raspberry-pi

Anene, E. C., Ibrahim, A. M., & Abdulhameed, M. (n.d) Microcontroller Prototyping Platform with expanded and flexible hardwired I/O resources. www.questjournals.org.

Arduino Team. (2021). One board to rule them all: History of the Arduino UNO”, 2021, Available at https://blog.arduino.cc/2021/12/09/one-board-to-rule-them-all-history-of-the-arduino-uno/.

Ashwini., M. U.(2016). Implementation of Ac Power Stand By Switch-Off Outlets Using Arduino Mega2560”, International Journal of Scientific & Engineering Research, Volume 7, Issue 5, May-2016, ISSN 2229-5518.

Buechley, L., Eisenberg, M., Catchen, J., & Crockett, A. (2008, April). The LilyPad Arduino: using computational textiles to investigate engagement, aesthetics, and diversity in computer science education. In Proceedings of the SIGCHI conference on Human factors in computing systems (pp. 423-432).

Costa, D. G., & Duran-Faundez, C. (2018). Open-source electronics platforms as enabling technologies for smart cities: Recent developments and perspectives. Electronics, 7(12), 404.

Ghael, H. D., Solanki, L., & Sahu, G. (2021). A Review Paper on Raspberry Pi and its Applications. Int. J. Adv. Eng. Manag, 2(12), 225-227.

Hussien, N. M., Al-Obaidi, M. A. M., Abtan, R. A., Al-Saleh, A. H., & Al-Zuky, A. A. D. (2021). Smart System for Detecting the Entry of Authority People in the Security Facilities Based IoT using SURF Recognition and Viola-Jones Algorithms. In Journal of Physics: Conference Series (Vol. 1963, No. 1, p. 012075). IOP Publishing.

Isizoh, A. N., Ejimofor, I. A., Alagbu, E. E., Obianyo, O. R., & Ebih, U. J. (2022). Design and Construction of Arduino-Based Experimental Training Kit. Journal homepage: www. ijrpr. com ISSN, 2582, 7421.

Ismailov, A. S., & Jo‘Rayev, Z. B. (2022). Study of arduino microcontroller board. Science and Education, 3(3), 172-179.

Johnston, S. J., & Cox, S. J. (2017). The raspberry Pi: A technology disrupter, and the enabler of dreams. Electronics, 6(3), 51.

Jolles, J. W. (2021). Broad‐scale applications of the Raspberry Pi: A review and guide for biologists. Methods in Ecology and Evolution, 12(9), 1562-1579.

Kaswan, K. S., Singh, S. P., & Sagar, S. (2020). Role of Arduino in real world applications. Int. J. Sci. Technol. Res, 9(1), 1113-1116.

Kim, S. M., Choi, Y., & Suh, J. (2020). Applications of the open-source hardware Arduino platform in the mining industry: A review. Applied Sciences, 10(14), 5018.

Langbridge, J. A. (2015). Arduino sketches: tools and techniques for programming wizardry. John Wiley & Sons.

Louis, L. (2016). working principle of Arduino and u sing it. International Journal of Control, Automation, Communication and Systems (IJCACS), 1(2), 21-29.

Rajan, C., Megala, B., Nandhini, A., & Priya, C. R. (2015). A Review: Comparative Analysis of Arduino Micro Controllers in Robotic Car. International Journal of Mechanical and Materials Engineering, 9(2), 371-380.

Verma, M. (2017). Working, operation and types of arduino microcontroller. International Journal of Engineering Sciences & Research Technology, 6(6), 155-158.