Authors :
Rakshith S; Syed Hassan Quadri; Dr. S K Harisha
Volume/Issue :
Volume 9 - 2024, Issue 5 - May
Google Scholar :
https://tinyurl.com/3aa4e74t
Scribd :
https://tinyurl.com/24wcc3bj
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24MAY1802
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
This project introduces a sophisticated system
designed to streamline lighting management in seminar
halls, effectively addressing the diverse needs of both
stage activities and audience engagement. Leveraging the
Arduino Uno R3 microcontroller, alongside infrared (IR)
sensors, a toggle switch, jumper wires, and an LED
display, this system offers a comprehensive solution for
dynamically adjusting lighting levels based on real-time
occupancy data. By integrating sensor technology at
strategic entry and exit points within the seminar hall, the
system accurately detects the flow of attendees, enabling
precise control over both stage and audience lights. The
innovative use of a toggle switch provides manual control
over stage lighting, granting presenters and event
organizers the flexibility to tailor the lighting
environment to suit specific presentation styles and event
dynamics. Through seamless automation and intuitive
user interface design, this system enhances energy
efficiency, optimizes attendee comfort, and facilitates
smooth event management processes. This abstract
provides a succinct overview of the project's objectives,
components, and anticipated benefits, setting the stage for
a detailed exploration of its design, implementation, and
potential applications in seminar hall environments.
Keywords :
Smart Lighting, Seminar Halls, IR Sensors, Arduino, Automation, Energy Efficiency, User Experience, LED Control.
References :
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- S Chaitanya Chaduvula, A Dachowicz, M J. Atallah and J H. Panchal (2018). Security in cyber-enabled design and manufacturing: A survey, Journal of Computing and Information Science in Engineering, 18(4), Available at: https://doi.org/10.1115/1. 4040341.
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- A Araújo de Souza, J Luiz de Souza Pio, J Cunha Fonseca, et al (2021). The state of cybersecurity in smart manufacturing systems: A systematic review, European Journal of Business and Management Research, 6(6), 188-194, Available at: https://doi.org/10.24018/ejbmr.2021.6.6.11 73.
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- F Cremer, B Sheehan, M Fortmann, et al (2022). Cyber risk and cybersecurity: a systematic review of data availability, Geneva Papers on Risk and Insurance: Issues and Practice, 47(3), 698-736, Available at: https://doi.org/10.1057/s41288-022-00266- 6.
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- R. K. Mantha Bharadwaj and B García de Soto (2021). Cybersecurity in construction: Where do we stand and how do we get better prepared, Frontiers in Built Environment, 7, Available at: https://doi.org/10.3389/fbuil.2021.612668.
- R Jorge Raimundo and A Travassos Rosário (2022). Cybersecurity in the internet of things in industrial management, Applied Sciences, 12(3), Available at: https://doi.org/10.3390/app12031598.
- D Faquir, N Chouliaras, V Sofia, et al (2020). Cybersecurity in smart grids, challenges and solutions, AIMS Electronics and Electrical Engineering, 5(1), 24-37, Available at: https://www.aimspress.com/ aimspressdata/electreng/2021/1/PDF/ElectronEng-05- 01-002.pdf.
- D Wu, A Ren, W Zhang, et al (2018). Cybersecurity for digital manufacturing, Journal of Manufacturing Systems, 48(C), 3-12, Available at: https://doi.org/ 10.1016/j.jmsy.2018.03.006.
- L Mohd Nasrulddin Abd, A Nurul Ashykin Abd, H Nik Syuhailah Nik and A Zuraimi Abdul (2021). Cyber security in supply chain management: A systematic review, LogForum, 17(1), 49-57, Available at: http://dx.doi.org/10.17270/J.LOG. 2021.555 .
- P Theron (2018). Through-life cyber resilience in future smart manufacturing environments. A research programme, Procedia Manufacturing, 16, 193-207, Available at: https://doi.org/10.1016/j.promfg.2018. 10.15 7.
- J-Paul A. Yaacoub, H N. Noura, O Salman and A Chehab (2022). Robotics cyber security: vulnerabilities, attacks, countermeasures, and recommendations, International Journal of Information Security, 21, 115-158, Available at: https://doi.org/10.1007/s10207-021-00545- 8.
- A Zarreha, C Saygin, H Da Wan, et al (2018). Cybersecurity analysis of smart manufacturing system using game theory approach and quantal response equilibrium, Procedia Manufacturing, 17, 1001-1008, Available at: https://doi.org/10.1016/j.promfg.2018. 10.08 7.
- V. Alcácer and V. Cruz-Machado (2019). Scanning the industry 4.0: A literature review on technologies for manufacturing systems, Engineering Science and Technology, an International Journal, 22(3), 899-919, Available at: https://doi.org/10.1016/j.jestch.2019. 01.006 .
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- Anand E, Panneerselvam R. (2016). A study of crossover operators for genetic algorithm and proposal of a new crossover operator to solve open shop scheduling problem, American Journal of Industrial and Business Management, 6(6),774-789, Available at: https://www.scirp.org/journal/paperinformation. aspx?paperid=67660
This project introduces a sophisticated system
designed to streamline lighting management in seminar
halls, effectively addressing the diverse needs of both
stage activities and audience engagement. Leveraging the
Arduino Uno R3 microcontroller, alongside infrared (IR)
sensors, a toggle switch, jumper wires, and an LED
display, this system offers a comprehensive solution for
dynamically adjusting lighting levels based on real-time
occupancy data. By integrating sensor technology at
strategic entry and exit points within the seminar hall, the
system accurately detects the flow of attendees, enabling
precise control over both stage and audience lights. The
innovative use of a toggle switch provides manual control
over stage lighting, granting presenters and event
organizers the flexibility to tailor the lighting
environment to suit specific presentation styles and event
dynamics. Through seamless automation and intuitive
user interface design, this system enhances energy
efficiency, optimizes attendee comfort, and facilitates
smooth event management processes. This abstract
provides a succinct overview of the project's objectives,
components, and anticipated benefits, setting the stage for
a detailed exploration of its design, implementation, and
potential applications in seminar hall environments.
Keywords :
Smart Lighting, Seminar Halls, IR Sensors, Arduino, Automation, Energy Efficiency, User Experience, LED Control.