Development of an integrated android-based medicine dispensing and drug-adherence monitoring system for the outpatient/ Ira Mae C. Celiz, Elyzel Grace U. Flores, Aslhee Marie A. Gabriola, Aaron Klietz DS. Gatchalian, and Russel Bert G. Verdadero

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Celiz, Ira Mae C [author ]

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Material type: Text

TextManila: Technological University of the Philippines, 2022Description: 189pages: 28cm. CD-ROM (4 3/4 in.) IllustrationSubject(s):

LOC classification:

BTH RM 301.63 C45 2022

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Preliminary pages

Dissertation note: College of Industrial Education -- Bachelor of Engineering Technology major in Computer Engineering Technology: Technological University of the Philippines, 2022 Abstract: The time of medication is essential for patients to treat and to prevent diseases from worsening; however, there are factors of medication non-adherence by the patients, such as forgetting to take the medication, fear for medicine's side effects, and lack of insight into their illness (Bianco et al., 2021). This research study, Development of an Integrated Android-Based Medicine Dispensing and Drug Adherence Monitoring System for the Outpatient is fabricated to decrease the chances of medication errors due to missed medicine intake to prevent possible health risks. The system can monitor the medication schedule of the outpatient as well as dispense medicine according to the medication. The system's Mobile app can be connected to the prototype and dispense medicine through Bluetooth. The system can be powered by a power supply and an alternative source (power bank). The system was developed using Android Studio for Android application development, and SQLite for its database; Arduino IDE was used to program the prototype's functionality. Test results showed that the application software can be installed in any Android device running on Android 4.3 version and above without incompatibility issues. All test data were processed as expected in terms of speed and accuracy. The system was evaluated by 20 evaluators composed of medical specialists, IT & Engineer professionals, and students under the Electronics Department of Technological University of the Philippines - Manila using ISO 25010 software quality model and was rated with an overall mean of 4.86 with a qualitative interpretation of "Excellent. This signifies that the system can decrease the chances of medication errors. -- Author's abstract

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Thesis (undergraduate) --

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

Includes bibliography

The time of medication is essential for patients to treat and to prevent diseases from worsening; however, there are factors of medication non-adherence by the patients, such as forgetting to take the medication, fear for medicine's side effects, and lack of insight into their illness (Bianco et al., 2021). This research study, Development of an Integrated Android-Based Medicine Dispensing and Drug Adherence Monitoring System for the Outpatient is fabricated to decrease the chances of medication errors due to missed medicine intake to prevent possible health risks. The system can monitor the medication schedule of the outpatient as well as dispense medicine according to the medication. The system's Mobile app can be connected to the prototype and dispense medicine through Bluetooth. The system can be powered by a power supply and an alternative source (power bank). The system was developed using Android Studio for Android application development, and SQLite for its database; Arduino IDE was used to program the prototype's functionality. Test results showed that the application software can be installed in any Android device running on Android 4.3 version and above without incompatibility issues. All test data were processed as expected in terms of speed and accuracy. The system was evaluated by 20 evaluators composed of medical specialists, IT & Engineer professionals, and students under the Electronics Department of Technological University of the Philippines - Manila using ISO 25010 software quality model and was rated with an overall mean of 4.86 with a qualitative interpretation of "Excellent. This signifies that the system can decrease the chances of medication errors. -- Author's abstract

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