Trike pasabay: development of transportation kiosk for tup community/ Ruffa Mae G. Barayoga, Jay Nicole B. Bundalian, Rovic C. Reyna, Maria Del Cielo A. Sacristia, John Howell S. Valeros, and Ricky Rey R. Villanueva.--

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Barayoga, Ruffa Mae G [author]

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Material type: Text

TextPublication details: Manila: Technological University of the Philippines, 2025.Description: xvi, 189pages: 29cmContent type:

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BTH QA 76.9 B37 2025

Dissertation note: College of Industrial Technology.-- Bachelor of engineering technology major in computer engineering technology: Technological University of the Philippines, 2025. Summary: Transportation is crucial for societal, individual, and national functionality, development, and sustainability. Limited access to public transport or expensive transport options makes it difficult for people to access economic opportunities, educational facilities, and other crucial services, especially in underprivileged urban communities. This study focused on the design, fabrication, assembly, evaluation, and testing of transportation kiosks for the TUP community. The prototype is an innovative transportation kiosk compiled with the TUP community's transportation inefficiency. Viable inputs were used to formulate the electrical diagrams, process flow, and prototype assembly. The transportation kiosk was fabricated using Raspberry Pi 3b, Webcamera, LM2596 module, Battery Protection Board BMS, 18650 3.7 Lithium Battery, 7” Inches Touchscreen Display, DC female Jack, Switch, and Battery Indicator. Its primary function is to provide a platform for booking rides and facilitating safe and convenient transportation within the Tup community. Testing revealed excellent data speed, reliable QR code scanning, all lighting conditions, and accurate battery indicators. The lithium battery performed well with good heat dissipation but slightly below its rated capacity. Notifications were clear and timely, and the touchscreen ensured precise operation. The respondents are computer engineering students, faculty members, IT specialists, and Tricycle drivers . Give the kiosk a mean rating of 4.72, indicating a high acceptability in accuracy, functionality, durability, efficiency, workability, aesthetics, and safety.

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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 B37 2025 (Browse shelf(Opens below))	c.1	Not for loan		BTH0005824

Bachelor's thesis

College of Industrial Technology.-- Bachelor of engineering technology major in computer engineering technology: Technological University of the Philippines, 2025.

Includes bibliographic references and index.

Transportation is crucial for societal, individual, and national functionality, development,
and sustainability. Limited access to public transport or expensive transport options makes
it difficult for people to access economic opportunities, educational facilities, and other
crucial services, especially in underprivileged urban communities. This study focused on
the design, fabrication, assembly, evaluation, and testing of transportation kiosks for the
TUP community. The prototype is an innovative transportation kiosk compiled with the
TUP community's transportation inefficiency. Viable inputs were used to formulate the
electrical diagrams, process flow, and prototype assembly. The transportation kiosk was
fabricated using Raspberry Pi 3b, Webcamera, LM2596 module, Battery Protection Board
BMS, 18650 3.7 Lithium Battery, 7” Inches Touchscreen Display, DC female Jack, Switch,
and Battery Indicator. Its primary function is to provide a platform for booking rides and
facilitating safe and convenient transportation within the Tup community. Testing revealed
excellent data speed, reliable QR code scanning, all lighting conditions, and accurate
battery indicators. The lithium battery performed well with good heat dissipation but
slightly below its rated capacity. Notifications were clear and timely, and the touchscreen
ensured precise operation. The respondents are computer engineering students, faculty
members, IT specialists, and Tricycle drivers
. Give the kiosk a mean rating of 4.72, indicating a high acceptability in accuracy,
functionality, durability, efficiency, workability, aesthetics, and safety.

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