Android-based Mobile Rapid Health Assessment in the Disaster Emergency Response Phase
Dublin Core
Title
Android-based Mobile Rapid Health Assessment in the Disaster Emergency Response Phase
Subject
android, disaster,
emergency
response, rapid
health assessment
emergency
response, rapid
health assessment
Description
Introduction: Rapid health assessment (RHA) is an assessment during the
disaster emergency response phase that requires a fast, precise, and
accurate time so that the damage caused by the disaster and immediate
needs of disaster victims can be recognized. Rapid assessment with manual
forms will prolong the process of needs assessment and analysis. Android-
based RHA applications are made to facilitate rapid assessment so that the
type of assistance needed can be determined as soon as possible. The
purpose of the study was to create an android-based RHA application, test
the validity and usability of the application, and test it on application users.
Methods: This research was conducted using a Research and Development
design divided into two stages. In stage 1, the application was created, and
five experts tested the validity and reliability. Stage 2 was socialization and
application trials on 30 disaster volunteers in Lamongan. In this stage, the
usability of application was measured by the System Usability Scale.
Results: The application components had good validity (I-CVI=1) and
reliability (Cronbach’s alpha=0.768). The usability score showed that
84.3% of the users considered the application easy to operate, 83.67%
stated that the menu display and features were easy to use, 80% stated that
it was comfortable, 81.3% were satisfied with the application features, and
85.7% stated that the application was helpful in disaster.
Conclusion: The RHA application is valid, reliable, and usable for general
use for rapid health assessment in the disaster emergency response phase.
disaster emergency response phase that requires a fast, precise, and
accurate time so that the damage caused by the disaster and immediate
needs of disaster victims can be recognized. Rapid assessment with manual
forms will prolong the process of needs assessment and analysis. Android-
based RHA applications are made to facilitate rapid assessment so that the
type of assistance needed can be determined as soon as possible. The
purpose of the study was to create an android-based RHA application, test
the validity and usability of the application, and test it on application users.
Methods: This research was conducted using a Research and Development
design divided into two stages. In stage 1, the application was created, and
five experts tested the validity and reliability. Stage 2 was socialization and
application trials on 30 disaster volunteers in Lamongan. In this stage, the
usability of application was measured by the System Usability Scale.
Results: The application components had good validity (I-CVI=1) and
reliability (Cronbach’s alpha=0.768). The usability score showed that
84.3% of the users considered the application easy to operate, 83.67%
stated that the menu display and features were easy to use, 80% stated that
it was comfortable, 81.3% were satisfied with the application features, and
85.7% stated that the application was helpful in disaster.
Conclusion: The RHA application is valid, reliable, and usable for general
use for rapid health assessment in the disaster emergency response phase.
Creator
Nur Hidayati1*
, Abdul Rokhman1, Karsim1,2, Fitria Dewi Sasmita1, Nilam Fatmawat1,
& Rachel Marselino1
, Abdul Rokhman1, Karsim1,2, Fitria Dewi Sasmita1, Nilam Fatmawat1,
& Rachel Marselino1
Source
https://doi.org/10.37363/bnr.2023.44295
Date
29 October 2023
Contributor
peri irawan
Format
pdf
Language
english
Type
text
Files
Collection
Citation
Nur Hidayati1*
, Abdul Rokhman1, Karsim1,2, Fitria Dewi Sasmita1, Nilam Fatmawat1,
& Rachel Marselino1, “Android-based Mobile Rapid Health Assessment in the Disaster Emergency Response Phase,” Repository Horizon University Indonesia, accessed April 25, 2026, https://repository.horizon.ac.id/items/show/11571.