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RANCANG BANGUN ALAT BANTU PERNAPASAN VENTILATOR BERBASIS WIRELESS SENSOR NETWORK Aryanto Aryanto
Journal ICTEE Vol 1, No 1 (2020): Juni
Publisher : Universitas Teknokrat Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33365/jictee.v1i1.692

Penelitian ini mengenai sistem pemantau otomasi ventilator secara real time berbasis Wireless Sensor Network. Ventilator memiliki peranan penting dan krusial bagi dunia kesehatan kritis, dimana perannya sebagai pengganti bagi fungsi pernapasan/ ventilasi bagi pasien dengan gangguan fungsi respiratorik. Ventilator merupakan alat bantu pernafasan bertekanan negatif atau positif yang menghasilkan udara terkontrol pada jalan nafas sehingga pasien mampu mempertahankan ventilasi dan pemberian oksigen dalam jangka waktu lama. Metode penelitiannya dengan menambahkan sensor pernapasan permenit untuk mengukur tekanan udara yang masuk ke alat ventilator, Modul ESP8266 sebagai kontrolernya. Tujuan penelitian adalah menggabungkan sistem ventilator sederhana, pemantau dengan smartphone dalam satu device (standalone) secara nirkabel yang terhubung tanpa saluran kabel.

Implementasi Budidaya Lobster dengan Sistem Pertanian Akuaponik Berbasis IoT (Internet of Things) Irfan Mirda; Handrio Handrio; Bagus Wahyu Pratomo; Melvi Melvi; Ardian Ulfan; Aryanto Aryanto
E-JOINT (Electronica and Electrical Journal Of Innovation Technology) Vol 3, No 1: E-JOINT, Juni 2022
Publisher : Politeknik Negeri Cilacap

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35970/e-joint.v1i3.1326

Perubahan iklim, kepadatan penduduk, dan kegiatan ekspor-impor yang tidak stabil menyebabkan dampak yang cukup serius bagi masyarakat terutama Provinsi Lampung. Hal ini berdampak pada kegiatan usaha terutama dibidang pertanian dan kelautan. Banyak warga yang mata pencahariannya terganggu terutama petani. Petani sangat merasakan kesulitan disamping harga produksi yang naik dan modal produksi yang meningkat. Dengan adanya hal ini tentunya sangat dibutuhkan suatu inovasi yang memungkinkan petani tetap memiliki penghasilan walau kekurangan lahan. Oleh karena itu, penulis melakukan suatu inovasi dengan membuat sistem pertanian akuaponik yang didukung oleh suatu aplikasi monitoring berbasis IoT (Internet of Things) yang diberi nama lobsternik.id. Sistem akuaponik yang dikembangkan yaitu dengan budidaya lobster dan tanaman. Aplikasi ini akan sangat membantu masyarakat pembudidaya dalam mengawasi dan menjaga tanaman serta lobster secara real-time sehingga didapatkan hasil tanaman dan lobster yang maksimal dan berkualitas.

Perancangan Antena Yagi Gain Tinggi Pada Ground Control Station Wahana Udara Nirawak Melvi Melvi; Nur Fadillah; Yetti Yuniati; Aryanto Aryanto; Nora Aditiyan; Cahyo Mustiko Okta Muvianto; Ardian Ulvan
Jurnal Rekayasa Elektrika Vol 16, No 3 (2020)
Publisher : Universitas Syiah Kuala

The uncrewed Aerial Vehicle (UAV) operation is currently dominated by autonomous technology (autopilot) rather than manual control via remote control. During flying the mission autonomously, communication between the UAV and the Ground Control Station (GCS) must be in good and stable conditions. The GCS can well receive the telemetry data and payload sensor data carried by the vehicle. Conversely, any inconsistency parameters can be corrected by the GCS before transmitted to the UAV. Therefore, the role of the antenna is crucial to avoid signal loss during the communication process. This study focuses on GCS’s antenna. By designing the Yagi type antenna with the optimization of the distance, the number of directors, material, and shape of the reflector through CST simulation. The best option chosen is the Yagi antenna with the same distance between directors, seven directors, copper material, and flat reflectors with a VSWR of 1.1134, return loss -25.411 dB and 10.7 dB of gain. The measurement result after fabrication is the VSWR of 2.165 and the return loss of -8.677 dB. The antenna test results, when the UAV was flown as far as 2.5 km, found that the signal strength received by the GCS is -70.68 dBm with RSSI 107, and the signal strength in percent is 96%.

Perancangan Antena Yagi Gain Tinggi Pada Ground Control Station Wahana Udara Nirawak Melvi Melvi; Nur Fadillah; Yetti Yuniati; Aryanto Aryanto; Nora Aditiyan; Cahyo Mustiko Okta Muvianto; Ardian Ulvan
Jurnal Rekayasa Elektrika Vol 16, No 3 (2020)
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17529/jre.v16i3.18682

The uncrewed Aerial Vehicle (UAV) operation is currently dominated by autonomous technology (autopilot) rather than manual control via remote control. During flying the mission autonomously, communication between the UAV and the Ground Control Station (GCS) must be in good and stable conditions. The GCS can well receive the telemetry data and payload sensor data carried by the vehicle. Conversely, any inconsistency parameters can be corrected by the GCS before transmitted to the UAV. Therefore, the role of the antenna is crucial to avoid signal loss during the communication process. This study focuses on GCS’s antenna. By designing the Yagi type antenna with the optimization of the distance, the number of directors, material, and shape of the reflector through CST simulation. The best option chosen is the Yagi antenna with the same distance between directors, seven directors, copper material, and flat reflectors with a VSWR of 1.1134, return loss -25.411 dB and 10.7 dB of gain. The measurement result after fabrication is the VSWR of 2.165 and the return loss of -8.677 dB. The antenna test results, when the UAV was flown as far as 2.5 km, found that the signal strength received by the GCS is -70.68 dBm with RSSI 107, and the signal strength in percent is 96%.

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