Sistem Informasi Antropometri Terintegrasi Dengan Sistem Tertanam Sebagai Pengukur Berat Dan Tinggi Balita
Abstract: Indonesian
children’s growth are monitored monthly and can be seen by the KMS graphic and
posyandu cadre’s book. The data from posyandu activity will be evaluated by the
government health department. In practice, there are many obstacles to make
posyandu works ideally. First, the cadres of posyandu have a difficulty to use
the conventional anthropometric equipment, so the measurement data may not be
valid and precise. Second, noting the KMS graphic needs an accuracy. Third, the
measurement result in posyandu is not rapidly integrated to the central health
data. A technology innovation of automatization anthropometry measurement
called OTOTIM designed for infants that supported by an integrated information
system is needed to solve those problems. OTOTIM designed to make
anthropometric measurement for infants more fast, valid, and accurate. The
measurement result will be stored in the database and transferred to an image
that describe the nutrition status in the KMS. Microcontroller will process the
data from load sensor that measure baby’s weight and ping sensor that measure
baby’s height. Then those raw data will be sent to main component of OTOTIM,
which is the software itself to gain informative result of measurement, that
consist of right suggestion on what kind of treatment used to take care various
nutrition condition of infant and comparison against the previous measurement.
OTOTIM will also generate statistics which group the infant by nutritional
condition for each month. Those statistics will also include information on how
percentage of male and female babies which have certain nutritional condition.
However those statistic will provide information which is relevant only for
specific district as OTOTIM used in regional manner. In order to create statistic
which is relevant to consumed by public, those measurement data must be
processed in central server which can calculate whole data and grouped them by
nutritional condition. OTOTIM introduces the central server that bring
synchronization service between OTOTIM software which is installed locally on
client PC and the server itself. OTOTIM software have to establish a connection
to server to publish subdistrict-specific statistic, however this connection is
not mandatory to run primary function. So if client have trouble to connect,
this will not interrupt the primary function as OTOTIM supposed to run in
less-signal environment.
Keywords: AAnthropometry; KMS;
Anthropometric Measurement; Automation; Information System; Desktop
Application; Web Service
Penulis: Nugroho Budi
Wicaksono, Rinta Kridalukmana, Ike Pertiwi Windasari
Kode Jurnal: jptkomputerdd160226