Smart contact tracing using internet of things/ John Creo Berdin, John Renell Boquiren, Jowelle Lazaro, Lee Merway Peradilla, Lester Santos, and Chris Adrian Evan Tan .--

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Berdin, John Creo [author ]

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Material type: Text

TextPublication details: Manila: Technological University of the Philippines, 2022.Description: xi, 90pages: 29cmContent type:

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BTH TK 870 B47 2022

Dissertation note: College of Industrial Technology .-- Bachelor of Engineering Technology major in Electronics Engineering Technology: Technological University of the Philippines, 2022. Summary: Manual contact tracing has been a practice to reduce the rapid spread of infected individuals inside the community during a pandemic. The manual tracing method often prolongs the tracking time, and aside from its strenuous working progress, safety and security are issued nowadays. An effective contact tracing requires a fast, safe, and reliable processing system. The researchers utilized Radio Frequency Identification (RFID) to facilitate the fast and effective transition of information gathering. The idea of RFID opens a solution to simplify the method of contact tracing with the application of internet servers and programming algorithms. This paper explains the design of a smart contact tracing device that enables quick, secure, and accurate data entry processing—using Arduino Uno as controller and Windows Server 2012 as the application allows for tracing innovatively and systematically. The hardware and software design of the contact tracing device is compiled and integrated with a small structure, recording every entry while providing a thoughtful response depending on the status of each individual to maintain the safety protocol inside the establishment. The testing result reveals no significant difference between the data's functional correctness at (x̄ = 9.68, n=10.00) and the security value at (x̄ = 4.10, n=5.00) of the moderate security level. A testing correlation result of (r=0.954, n=10, p=0) shows a positive degree of linearity between the two variables of the prototype. It is evident in the end that the prototype’s effectiveness relies on the relationship between the accuracy and security of the system

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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 TK 870 B47 2022 (Browse shelf(Opens below))	c.1.	Not for loan		BTH0005866

Bachelor's thesis

College of Industrial Technology .-- Bachelor of Engineering Technology major in Electronics Engineering Technology: Technological University of the Philippines, 2022.

Includes bibliographic references and index.

Manual contact tracing has been a practice to reduce the rapid spread of infected
individuals inside the community during a pandemic. The manual tracing method often
prolongs the tracking time, and aside from its strenuous working progress, safety and
security are issued nowadays. An effective contact tracing requires a fast, safe, and reliable
processing system. The researchers utilized Radio Frequency Identification (RFID) to
facilitate the fast and effective transition of information gathering. The idea of RFID opens
a solution to simplify the method of contact tracing with the application of internet servers
and programming algorithms. This paper explains the design of a smart contact tracing
device that enables quick, secure, and accurate data entry processing—using Arduino Uno
as controller and Windows Server 2012 as the application allows for tracing innovatively
and systematically. The hardware and software design of the contact tracing device is
compiled and integrated with a small structure, recording every entry while providing a
thoughtful response depending on the status of each individual to maintain the safety
protocol inside the establishment. The testing result reveals no significant difference
between the data's functional correctness at (x̄ = 9.68, n=10.00) and the security value at
(x̄ = 4.10, n=5.00) of the moderate security level. A testing correlation result of (r=0.954,
n=10, p=0) shows a positive degree of linearity between the two variables of the prototype.
It is evident in the end that the prototype’s effectiveness relies on the relationship between
the accuracy and security of the system

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