Kiosk borrowing system/ Clarence P. Dionisio, Eduard Kent V. Galang, Jhoenel C. Sumayan and Mark Neil T. Vitto.--

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Dionisio, Clarence P [author]

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Material type: Text

TextPublication details: Technological University of the Philippines, Manila. 2023Description: xi, 117 pages. 29cmContent type:

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BTH QA 76.9 D56 2023

Dissertation note: College of Industrial Technology.-- Bachelor of Engineering Technology Major in Computer Engineering Technology: Technological University of the Philippines, Manila. 2023 Summary: Borrowing of items, tools, and equipment is a common procedure in a school and it produces students’ timely resources for laboratory activities and other academic purposes. However, due to limited manpower, too many students and other constraints, managing borrowing system consequently becomes slow and ineffectively monitored. Technologies such as computer, touchscreen monitors, and machines can be seen on school premises due to their simple process and benefits. This research project intends to solve the slow borrowing system resulting in a huge queue of students and provide a solution through the development of a "Kiosk Borrowing System". Besides, the researchers implemented a web application that enables the administrator to easily monitor the borrowing process. The researchers design, develop, test, and evaluate a machine with a prototyping approach using Raspberry Pi 4 as the main microprocessor and web app with software developing. Based on the Independent T-test results, the researchers found out that there is a significant difference in the timeliness between the kiosk borrowing system and traditional method, indicating that the kiosk borrowing system is significantly faster than the traditional method (p = <0.01). Furthermore, the study obtained a very good rating interpretation in all ISO25010:2011 quality standards, namely functional suitability, performance efficiency, compatibility, usability, and reliability for an overall rating of 4.442 and a descriptive interpretation of very good, the research project is aligned with the United Nations' Sustainable Development Goals (SDGs) for Industry, Innovation, and Infrastructure (SDG-9) and Sustainable Cities and Communities (SDG 11).

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Holdings
Item type	Current library	Shelving location	Call number	Copy number	Status	Date due	Barcode
Bachelor's Thesis CIT	TUP Manila Library	Thesis Section-2nd floor	BTH QA 76.9 D56 2023 (Browse shelf(Opens below))	c.1	Not for loan		BTH0005605

Bachelor's thesis

College of Industrial Technology.-- Bachelor of Engineering Technology Major in Computer Engineering Technology: Technological University of the Philippines, Manila. 2023

Includes bibliographic references and index.

Borrowing of items, tools, and equipment is a common procedure in a school and it
produces students’ timely resources for laboratory activities and other academic purposes.
However, due to limited manpower, too many students and other constraints, managing
borrowing system consequently becomes slow and ineffectively monitored. Technologies
such as computer, touchscreen monitors, and machines can be seen on school premises due
to their simple process and benefits. This research project intends to solve the slow
borrowing system resulting in a huge queue of students and provide a solution through the
development of a "Kiosk Borrowing System". Besides, the researchers implemented a web
application that enables the administrator to easily monitor the borrowing process. The
researchers design, develop, test, and evaluate a machine with a prototyping approach using
Raspberry Pi 4 as the main microprocessor and web app with software developing. Based
on the Independent T-test results, the researchers found out that there is a significant
difference in the timeliness between the kiosk borrowing system and traditional method,
indicating that the kiosk borrowing system is significantly faster than the traditional
method (p = <0.01). Furthermore, the study obtained a very good rating interpretation in
all ISO25010:2011 quality standards, namely functional suitability, performance
efficiency, compatibility, usability, and reliability for an overall rating of 4.442 and a
descriptive interpretation of very good, the research project is aligned with the United
Nations' Sustainable Development Goals (SDGs) for Industry, Innovation, and
Infrastructure (SDG-9) and Sustainable Cities and Communities (SDG 11).

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