Smarsh: development of an iot-enabled smart shelf with real-time protection, monitoring, and tracking system using rfid technology and mobile application/ Jovan G. Cañaveral, John Lawrence B. Gallo, Jan Alvern Chloe Garcia, Dale M. Peñalosa, and Johnver S. Urcia.--

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Cañaveral, Jovan G [author]

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Material type: Text

TextPublication details: Manila: Technological University of the Philippines, 2025.Description: xiii, 197pages: 29cmContent type:

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BTH TK 870 C36 2025

Dissertation note: College Of Engineering.-- Bachelor of science in electronics engineering: Technological University of the Philippines, 2025. Summary: Universities such as the Technological University of the Philippines - Manila find it difficult to ensure that the laboratory equipment needed for experiential learning remains safe and secure. This is mainly because the university does not have a proper protection and monitoring system in place. To tackle this problem, the work aimed to create an IoT-based smart shelf system named SMARSH for real-time protection, tracking, and monitoring of laboratory equipment. The system utilizes RFID technology and a mobile platform to grant access only to authenticated users. SMARSH is designed to follow a few basic principles. It will trace equipment location and status between rooms and on the shelf itself via UHF RFID readers. It will use a web and mobile platform to grant access to status and location information, and to send alerts and warnings to users. The design of the experiment was an applied prototype project. The prototype was built using the following components: microcontroller ESP32, fingerprint scanner, facial recognition module, solenoid lock, laser/sensor combination, and RFID tracking components. Once assembled, the system was tested for three types of operation: normal functionality, security accuracy in lab conditions, and the ability to track in real time on several different floors in somewhat simulated real-world conditions. Data showed that SMARSH proved to be a reliable and scalable solution for securing and managing laboratory equipment in educational institutions as it significantly enhanced inventory management, accountability, and equipment protection.

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Item type	Current library	Shelving location	Call number	Copy number	Status	Date due	Barcode
Bachelor's Thesis COE	TUP Manila Library	Thesis Section-2nd floor	BTH TK 870 C36 2025 (Browse shelf(Opens below))	c.1	Not for loan		BTH0006423

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Bachelor's thesis

College Of Engineering.--
Bachelor of science in electronics engineering: Technological University of the Philippines,
2025.

Includes bibliographic references and index.

Universities such as the Technological University of the Philippines - Manila find
it difficult to ensure that the laboratory equipment needed for experiential learning remains
safe and secure. This is mainly because the university does not have a proper protection
and monitoring system in place.
To tackle this problem, the work aimed to create an IoT-based smart shelf system
named SMARSH for real-time protection, tracking, and monitoring of laboratory
equipment. The system utilizes RFID technology and a mobile platform to grant access
only to authenticated users. SMARSH is designed to follow a few basic principles. It will
trace equipment location and status between rooms and on the shelf itself via UHF RFID
readers. It will use a web and mobile platform to grant access to status and location
information, and to send alerts and warnings to users.
The design of the experiment was an applied prototype project. The prototype was
built using the following components: microcontroller ESP32, fingerprint scanner, facial
recognition module, solenoid lock, laser/sensor combination, and RFID tracking
components. Once assembled, the system was tested for three types of operation: normal
functionality, security accuracy in lab conditions, and the ability to track in real time on
several different floors in somewhat simulated real-world conditions.
Data showed that SMARSH proved to be a reliable and scalable solution for
securing and managing laboratory equipment in educational institutions as it significantly
enhanced inventory management, accountability, and equipment protection.

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