Sari, Hanifah Faradillah (2021) PERANCANGAN TRANSMITTER PADA SISTEM PEMANTAUAN KESEHATAN LANSI YANG TINGGAL SENDIRIAN DI RUMAH DENGAN TEKNOLOGI INTERNET OF THINGS. Sarjana thesis, Universitas Brawijaya.
Abstract
Kesehatan manusia berasal dari tanda – tanda vital yang perlu dipantau setiap harinya, karena seiring bertambahnya usia maka fungsi organ tubuh seseorang lebih rentan terkena masalah kesehatan terutama terhadap lansia (lanjut usia), oleh karena itu kesehatan lansia lebih baik dipantau setiap harinya oleh keluarganya. Salah satu tanda vital manusia yang perlu dipantau adalah denyut jantung dan saturasi oksigen di dalam darah. Jantung merupakan salah satu organ manusia terpenting, kelainan pada jantung dapat beresiko kematian. Kelainan pada jantung digambarkan dengan kegagalan organ jantung yang disebabkan oleh penyakit jantung dan serangan jantung. Saturasi oksigen adalah presentasi hemoglobin yang berikatan dengan oksigen dalam arteri, saturasi oksigen normal adalah 95 – 100 %. Banyak solusi diterapkan untuk memantau kondisi kesehatan lansia dengan memanfaatkan Internet of Things agar dapat dipantau secara jarak jauh. Pada penelitian ini dibuat sebuah transmitter pada sistem pematauan kesehatan lansia dengan sistem monitoring denyut jantung dan saturasi oksigen dalam darah sebagai indikator level kesehatan lansia. Sistem ini menggunakan Sensor MAX30100 untuk mengukur denyut jantung dan saturasi oksigen dalam darah dan LoRa sebagai komunikasi jarak jauh . Pemroses data menggunakan ESP32 berfungsi sebagai media pengiriman data menggunakan Internet Of Things. Transmitter bersifat portable dengan catu daya eksternal berupa baterai sehingga dengan mudah dibawa kemana – mana. Hasil penelitian menunjukkan sensor MAX30100 dapat mengukur denyut Jantung dan Saturasi Oksigen sekaligus dengan hasil pengujian tingkat akurasi mendeteksi denyut jantung 98,34 % dan saturasi oksigen dalam darah sebesar 98,43 %, error pengukuran detak jantung sebesar 1,66% dan saturasi oksigen 1,57%, standar deviasi sebesar 1,9% dan pengiriman data ke receiver menggunakan LoRa jarak maksimum untuk pengiriman data ke receiver sebesar 500 meter. Dari hasil tersebut sistem sesuai dengan yang diharapkan. Kata Kunci : Transmitter, Lansia, MAX30100, dan Internet Of Things
English Abstract
Hanifah Faradillah Sari, Department of Electrical Engineering, Faculty of Engineering Iniversitas Brawijaya, Juni 2021, Design of Transmitter on Health Monitoring System for Elderly Living Alone at Home using Technology Internet Of Things, Academic Supervisor: Rudy Yuwono, ST., M.Sc and Dr. Fakhriy Hario Partiansyah, ST., MT. Human health is determined by vital signs that need to be monitored daily. Because with age, the function of human organs are more susceptible to health problems, especially to the elderly, therefore the health of the elderly is better monitored daily by their families. Some of the vital signs of humans that needs to be monitored are heart rate and oxygen saturation in the blood. The heart is one of the most important human organs, abnormalities in the heart can be fatal. Abnormalities in the heart are described by heart failure caused by heart disease and heart attacks. Oxygen saturation is the percentage of hemoglobin bound to oxygen in the arteries, normal oxygen saturation is 95-100%. Many solutions are implemented to monitor health condition of the elderly by utilizing the Internet of Things to be monitored remotely. In this study, a transmitter was created on the elderly health monitoring system using heart rate and oxygen saturation in the blood as indicators for the elders' health level. The system uses the sensor MAX30100 to measure heart rate and oxygen saturation in the blood and LoRa as long range communication. Data processors using ESP32 serves as a medium of data transmission using Internet of Things. Transmitter is portable with an external power supply using a battery so that it is easy to carry anywhere. The system uses the sensor MAX30100 to measure heart rate and oxygen saturation in the blood and LoRa as long range communication. Data processor using ESP32 serve as a medium of sending data using Internet of Things. From the test results, the level of detection accuracy of heart rate is 98.34 % and saturation of oxygen in the blood is 98.43 %, with detection error of 1.66% in heart rate and 1, 57% in blood oxygen saturation, with deviation standard of 1.9% and the transmission of data to the receiver using LoRa is less than ten seconds and maximum distance for transmission of data to the receiver is 500 meters. From these results, the system is working as intended. Keywords : Transmitter, Elderly, MAX30100, Internet Of Thing
Other obstract
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| Item Type: | Thesis (Sarjana) |
|---|---|
| Identification Number: | 621.381 |
| Uncontrolled Keywords: | Kata Kunci : Transmitter, Lansia, MAX30100, dan Internet Of Things-- Transmitter, Elderly, MAX30100, Internet Of Thing |
| Subjects: | 600 Technology (Applied sciences) > 621 Applied physics > 621.3 Electrical, magnetic, optical, communications, computer engineering; electronics, lighting > 621.38 Electronics, communications engineering > 621.381 Electronics |
| Depositing User: | Unnamed user with email gaby |
| Date Deposited: | 20 Oct 2021 09:25 |
| Last Modified: | 08 Oct 2024 06:18 |
| URI: | http://repository.ub.ac.id/id/eprint/184369 |
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