Parking our vehicles sometimes become troublesome and situation gets worse when the user is required to park their cars at the unknown parking availability. Not to mention, this situation also occurs within the new Campus of Engineering Faculty of Universitas Hasanuddin. This campus has a motto to be the centre of technology, so it is something unfortunate that the parking management does not incorporate technology to support the parking system. This paper emphases on designing smart parking model which is suitable to be adopted within this new campus. Technology based Internet of Things is used to modernised the parking system with advanced features of monitoring and booking mechanisms. These features are accessible through smart phones which increases the usability of the proposed smart parking system. The experiments show that the parking management system can function accurate and effectively in enhancing the quality of parking system, with the two-mentioned features of the proposed smart parking system, which are monitoring and booking capabilities.
Abstract-Disasters create mass casualties and the number of casualties usually surpasses the capability of medical resources, hence, medical teams must attach paper triage to casualties for determining the priority of treatments based on the severity of their condition. However, since casualties' condition could change at anytime, the paper triage cannot provide the latest information of their health condition. Therefore, we have developed a wearable medical device that can continuously monitor the health condition of casualties. It is a lightweight and low-cost wearable electronic triage with sensing system that can monitor the vital sign of casualties and classify them into three levels of severe conditions, i.e., major, delayed, and minor status. The electronic triage is mainly built from a low-power 8-bit microcontroller unit, RF units, and sensors including pulse oximetry and thermocouple breath sensor. This electronic triage has been developed using low-cost electronic components that are available in developing countries such as Indonesia, so that, our electronic triage can be easily manufactured and maintained locally. Furthermore, we have also developed a simple android-based mobile application for data acquisition, priority classification, data storage and data transfer to medical record server in hospitals.
One infectious disease is an important health problem in almost all countries, including Indonesia is Tuberculosis caused by Mycobacterium Tuberculosis. This research is to find out the mapping of Tuberculosis in Makassar City in 2015-2017. This study uses a descriptive method with secondary data obtained from Balai Besar Kesehatan Paru Masyarakat Makassar (BBKPM). The population was taken that all patients with suspected tuberculosis were recorded at BBKPM and the samples were tuberculosis patients with Phlegm (+) and (-) examinations. The results of this study were formulated in the form of mapping the spread of tuberculosis patients using Quantum-GIS with a total of 5896. It can be concluded that the largest distribution is in Panakkukang District and the smallest in Wajo District
Paper ini memperlihatkan hasil simulasi dan analisis inverter tiga-fasa yang akan digunakan pada sistem pembangkitan listrik tenaga surya, yang berfungsi mengubah sumber arus searah dari panel surya menjadi arus bolak-balik. Dalam simulasi, inverter dimodelkan dan didesain dengan menggunakan tegangan referensi dari jala-jala PLN sebagai acuan untuk membangkitkan sinyal kendali PWM (Pulse Width Modulation). Sinyal PWM ini dikirimkan ke pintu gate dari komponen saklar transistor daya, yang dalam hal ini digunakan IGBT (Insulated Gate Bipolar Transistor). Pengaturan irama penyaklaran akan mengubah sumber tegangan DC (Direct Current) menjadi tegangan AC (Alternating Current). Dengan menggunakan filter pasif LC, maka sinyal keluaran dari inverter dapat diubah menjadi gelombang sinusoidal berfrekuensi 50Hz sebagaimana diharapkan. Output sinyal inverter terhadap PLN memiliki perbedaan fasa sehingga disimulasikan sebuah mekanisme yang dapat mendeteksi beda fasa dan mengatur delay pwm sehingga output inverter dan sefasa dengan PLN. Hasil analisis menunjukkan bahwa tegangan fasa dan beda fasa dari keluaran inverter dapat diatur sesuai dengan tegangan pada fasa grid PLN.
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