Unlocking Communication Wonders: Exploring Transmitter and Receiver Concepts with p5.js

Main Article Content

Firza Septian

Abstract

This research presents comprehensive results in various forms such as images, graphs, tables, etc., to facilitate a profound understanding of the developed transmitter-receiver simulation using p5.js. Each component, including setting the canvas, dynamic display, user interaction, binary conversion, transmitter and receiver objects, simulation reset, and testing and evaluation, is thoroughly discussed in separate subsections. A comparative analysis with previous studies is incorporated for enhanced context. The testing phase not only validates the simulation's functionality and accuracy but also emphasizes its role as a potent educational tool. The successful execution of the experiment attests to the codebase's robustness, confirming its ability to effectively illustrate digital communication fundamentals. The visualization of binary signals enhances the project's educational dimension, transforming intricate concepts into an accessible, interactive learning experience. Future testing and refinements present exciting opportunities to augment user experience and extend simulation capabilities. This positive outcome establishes a solid foundation for the program's educational utility, making it a valuable resource for imparting digital communication knowledge. In conclusion, the validated transmitter-receiver simulation marks a significant milestone, combining functionality, visual representation, and potential enhancements. Positioned as an innovative educational technology, it fosters curiosity and understanding in learners exploring digital communication nuances.

Article Details

Section
Art Jun

References

G. Vial, "Understanding digital transformation: A review and a research agenda," Journal of Strategic Information Systems, pp. 1-71, 2023.

E. Sandberg, Creative Coding on the Web in p5.js A Librart Where JavaScript Meets Processing, 06: 06, 2019.

T. Bintoro, Fahrurrozi, Y. Sari, U. Hasanah and A. Syahdan, "THE IMPLEMENTATION OF EXPERIMENTAL METHODS TO STUDENTS' CRITICAL THINKING SKILLS IN ELEMENTARY SCIENCE LEARNING: LITERATURE REVIEW," EduHumaniora: Jurnal Pendidikan Dasar, pp. 190-199, 2022.

C. J. Millera, S. N. Smith and M. Pugatch, "Experimental and Quasi-Experimental Designs in Implementation Research," HHS Public Access, pp. 1-17, 2020.

R. J. Ormerod, "PUTTING SYSTEMS THEORY TO WORK - THE SYNERGY BETWEEN THEORY AND PRACTICE," Synergy Matters, pp. 19-24, 1999.

A. K. Akhadalievich and G. Nozimakhon, "The role of needs analysis in language teaching," International Multidisciplinary Conference "Innovative Research on Modern Scientific World", pp. 67-71, 2022.

M. Cinelli, M. Kadzinski, M. Gonzalez and R. Słowinski, "How to support the application of multiple criteria decision analysis? Let us start with a comprehensive taxonomy," Omega, pp. 1-22, 2020.

M. Alutbi, WORK BREAKDOWN STRUCTURE (WBS), Iraq: University of Thi-Qar, 2020.

L. Myllyaho, M. Raatikainen, T. Männistö, T. Mikkonen and J. K. Nurminen, "Systematic literature review of validation methods for AI systems," The Journal of Systems & Software, pp. 1-22, 2021.

D. L. Wanzer, "What is evaluation? Perspectives of how evaluation differs (or not) from research," University of Wisconsin-Stout, pp. 1-35, 2018.