Breast milk Monitoring With Android Based On IOT
Published on Jan 30, 2019
Provision of breast milk (breast milk) in infants is vital for growth and infant health. Once the importance of breastfeeding benefits make the government also make the rules about exclusive breastfeeding for 6 months contained in Government Regulation no. 33 of 2012. In the PP, getting breast milk is the right of a baby. At this time many breastfeeding mothers who work outdoors so needed milk stored in the cooler. To monitor the milk consumption needed by babies in a day, even per month is rather difficult to do manually.To solve the problem, designed a breastmilk monitoring tool with android-based IOT. This tool works by using an NFC sticker affixed to a bottle of milk, when the baby's milk will be consumed, the NFC on the bottle is tapped to the NFC reader that is connected to Wemos then processed and displayed the results in android application. Breastfeeding mothers who work can monitor or monitor the amount of milk consumed baby whenever and wherever so that the nutritional adequacy of the baby can be met properly. The result of the design is the communication between NFC and android there is an average delay of 2 seconds.
Keywords: — Breast Milk Monitoring, IoT, Android
Provision of breast milk (breast milk) in infants is vital for growth and infant health. Once the importance of breastfeeding benefits make the government also make the rules about exclusive breastfeeding for 6 months contained in Government Regulation no. 33 of 2012. In the PP, getting breast milk is the right of a baby. At this time many breastfeeding mothers who work outdoors so needed asi stored in the cooler. To monitor the consumption of breast milk needed per day, even perga month is difficult to do manually. To solve the problem, it is necessary to design a breastmilk monitoring tool with android based on IOT.
This tool works by using an NFC sticker affixed to a bottle of milk, when the baby's milk will be consumed, the NFC on the bottle in the tap to the NFC reader connected to Wemos is processed and will display the results in android application. Breastfeeding mothers who work can monitor or monitor the amount of milk consumed by the baby and when given so that the nutritional adequacy of the baby can be met properly. Previous research is the following: This paper describes the development of an application that can overcome the problems of milk management dairy called the Breastmilk Management Application based on android.
This application has been successfully built, the next expectation of this application can be used by mothers and breastfeeding workers so as to manage milk feeding and increase knowledge about milk milk (Sonanta, 2017) This paper presents reviews from Bluetooth Low Energy (BLE), Near Field Communication (NFC) and Visible Light Communication (VLC) and its use and influence in smart city development areas.
This paper also presents a review of Big Data Solutions for information management and knowledge extraction in an environment where everything is connected by the "Internet of Things" (IoT) network. Furthermore, how this technology can be combined together for the benefit of smart city development [Cerruela García, 2016] From these researches using the development of IOT-based service concept then designed a breastmilk monitoring tool with android-based IOT. The advantages of this tool from the previous one was just a breastmilk management application without being able to monitor. Tools that will be designed and made can be monitored wirelessly and connected with android.
This research is conducted based on the problem of the objectives to be achieved, as described in the previous section. The implementation of this research consists of several methods, such as literature review, modeling, tool design, software and hardware. while the research flow. NFC stands for Near Field Communication, a technology that is the development of Radio Frequency Identification (RFID) card. All NFC devices allow to read and write data information at high speed (424 kbps). NFC connections occur when there is a connection between Bluetooth-compatible devices and WiFi, because of the very limited way and functionality that will ensure the communication between devices safe from data loss. Utilization of NFC as reader with working frequency 12,56 MHZ. The process of working this system by reading UID (Unique ID) and then registered and stored data UIDnya on Wemos and displayed on Android Applications. After designing each hardware and software then integrated and tested so as to obtain maximum results.
1. Problem Identification and Library Studies, prepare the system design both software and hardware.
2. Create a list of programs for the software
3. Conducting tests.
4. Scientific Publication Near Field Communication (NFC) technology can be used as a medium for this system input.
System Chart Block
Block diagram is the block of system work sequence, where on the input box system NFC, the measurement results will be processed through wemos Arduino. and will generate display output on android via the internet network. The system diagram block is shown in Figure 5.
In the design of this tool can be simplified in several groups, namely:
1. Input: NFC
2. Main control: WEMOS microcontroller
3. Output: Android
Test and Results
The prototype of breastmilk monitoring system using NFC is shown in Figure 6.
This Prototype using NFC/RFID RC522, Wemos and NFC sticker, when NFC sticker tap to NFC reader then the application on android (ThingSpeak app) will receive notification, it shown on Figure 8.
Figure 7 shown the process of thing speak application process. After application activated then we able to do the simulation between protype and the application. Figure 8 show the breastmilk monitoring system using NFC is work and have average delay of 2 seconds.
The result of the design is the communication between NFC and android there is an average delay of 2 seconds.
1. Y Gunardi, Dirman Hanafi, Fina Supegina, Mathematics Base for Navigation Mobile Robot Using Reachability Petri Net, Journal of Telecommunication, Electronic and Computer Engineering (JTEC) 10, 2018
2. A Adriansyah, B Sulle, E Ihsanto, Y Gunardi, Optimization of Circular Robot Size Using Behavior Based Architecture, Journal of Telecommunication, Electronic and Computer Engineering (JTEC) 9, 2017
3. FS Y Gunardi, Nofian Sudi K, DESIGN OF VEHICLE SECURITY SYSTEM USING RADIO FREQUENCY IDENTIFICATION, International Journal Of Advance Research And Innovative Ideas In Education ,2017
4. F Supegina, I Manalor, Y Gunardi, Perancangan Telerobotika Sederhana dengan Kamera Wifi, Sinergi: Jurnal Teknik Mercu Buana 20 (2), 115-122,2016
Project Done By Fina Supegina, Yudhi Gunardi, Muhammad Hafizd Ibnu Hajar, Yuliza