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All Journal Jurnal Teknologi Elektro CIRCUIT: Jurnal Ilmiah Pendidikan Teknik Elektro CYBERNETICS JTIKOM: Jurnal Teknik dan Sistem Komputer Journal Social Science And Technology For Community Service Journal of Engineering and Information Technology for Community Service
Novia Utami Putri
Universitas Teknokrat Indonesia
Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Economics, Econometrics & Finance Education Electrical & Electronics Engineering Environmental Science Languange, Linguistic, Communication & Media Mathematics Social Sciences Other

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Implementasi Sensor Light Dependent Resistor (LDR) Dan LM35 Pada Prototipe Atap Otomatis Berbasis Arduino Utama, Satriyan; Mulyanto, Agus; Arif Fauzi, Muhammad Arif Fauzi; Utami Putri, Novia
CIRCUIT: Jurnal Ilmiah Pendidikan Teknik Elektro Vol 2, No 2 (2018): Edisi Agustus 2018
Publisher : PTE FTK UIN Ar-Raniry

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

In designing and making an automatic roof tool that serves to help humans in terms of drying clothes, when exposed to rain then automatically the roof will be closed by itself because this tool uses raindrop sensor, and in cloudy / dark weather conditions the roof will be automatically closed, while at the time bright roof is open by itself, because it uses LDR (Light Dependent Resistor) sensors that can read the intensity of light. In order for the roof to open and close automatically this tool uses a rotating servo 180 degrees. This tool also uses a temperature sensor to determine the condition of the room during rain, cloudy, and bright. How this tool works when the weather conditions outside the bright LDR (Light Dependent Resistor) will read the intensity of light received and has been entered, then the servo will open the roof 180 degrees, and at that time the clothes are being sun-dried can be exposed to the sun, then otherwise if the outside conditions are overcast / dark servo will close the roof 0 degrees. And if the rain is outside raindrop sensor conditions will read the raindrop rain drops and then servo will close the roof 0 degrees so that clothes are dried sdang not be exposed to rain, so we no longer need to back and forth warmed and drying back clothes.
Implementasi Sensor Light Dependent Resistor (LDR) Dan LM35 Pada Prototipe Atap Otomatis Berbasis Arduino Utama, Satriyan; Mulyanto, Agus; Arif Fauzi, Muhammad; Utami Putri, Novia
CIRCUIT: Jurnal Ilmiah Pendidikan Teknik Elektro Vol 2, No 2 (2018): Edisi Agustus 2018
Publisher : PTE FTK UIN Ar-Raniry

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

In designing and making an automatic roof tool that serves to help humans in terms of drying clothes, when exposed to rain then automatically the roof will be closed by itself because this tool uses raindrop sensor, and in cloudy / dark weather conditions the roof will be automatically closed, while at the time bright roof is open by itself, because it uses LDR (Light Dependent Resistor) sensors that can read the intensity of light. In order for the roof to open and close automatically this tool uses a rotating servo 180 degrees. This tool also uses a temperature sensor to determine the condition of the room during rain, cloudy, and bright. How this tool works when the weather conditions outside the bright LDR (Light Dependent Resistor) will read the intensity of light received and has been entered, then the servo will open the roof 180 degrees, and at that time the clothes are being sun-dried can be exposed to the sun, then otherwise if the outside conditions are overcast / dark servo will close the roof 0 degrees. And if the rain is outside raindrop sensor conditions will read the raindrop rain drops and then servo will close the roof 0 degrees so that clothes are dried sdang not be exposed to rain, so we no longer need to back and forth warmed and drying back clothes.
Implementasi Sensor Light Dependent Resistor (LDR) Dan LM35 Pada Prototipe Atap Otomatis Berbasis Arduino Utama, Satriyan; Mulyanto, Agus; Fauzi, Muhammad Arif; Putri, Novia Utami
CIRCUIT: Jurnal Ilmiah Pendidikan Teknik Elektro Vol 2, No 2 (2018): Edisi Agustus 2018
Publisher : PTE FTK UIN Ar-Raniry

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

In designing and making an automatic roof tool that serves to help humans in terms of drying clothes, when exposed to rain then automatically the roof will be closed by itself because this tool uses raindrop sensor, and in cloudy / dark weather conditions the roof will be automatically closed, while at the time bright roof is open by itself, because it uses LDR (Light Dependent Resistor) sensors that can read the intensity of light. In order for the roof to open and close automatically this tool uses a rotating servo 180 degrees. This tool also uses a temperature sensor to determine the condition of the room during rain, cloudy, and bright. How this tool works when the weather conditions outside the bright LDR (Light Dependent Resistor) will read the intensity of light received and has been entered, then the servo will open the roof 180 degrees, and at that time the clothes are being sun-dried can be exposed to the sun, then otherwise if the outside conditions are overcast / dark servo will close the roof 0 degrees. And if the rain is outside raindrop sensor conditions will read the raindrop rain drops and then servo will close the roof 0 degrees so that clothes are dried sdang not be exposed to rain, so we no longer need to back and forth warmed and drying back clothes.
Alat Penjaga Kestabilan Suhu Pada Tumbuhan Jamur Tiram Putih Menggunakan Arduino UNO R3 Muhammad Riski; Asri Alawiyah; Muhammad Bakri; Novia Utami Putri; Jupriyadi Jupriyadi; Leny Meilisa
Jurnal Teknik dan Sistem Komputer Vol 2, No 1 (2021): Jurnal Teknik dan Sistem Komputer
Publisher : Universitas Teknokrat Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33365/jtikom.v2i1.42

Abstract

Dalam pembudidayaan jamur tiram perlu perawatan khusus karena jamur tiram rentan terhadap penyakit, sehingga pertumbuhan jamur akan terhambat, salah satunya suhu dan kelembaban yang dapat mempengaruhi pertumbuhan jamur. Pertumbuhan jamur tiram sangat dipengaruhi oleh temperatur suhu dan kelembaban yang optimal yaitu 22-28℃ dan 70-90%. Masalah yang dihadapi ialah budidaya lebih sering memperkirakan kodisi suhu dan kelembaban hanya dengan merasakan panas didalam ruangan. Dengan perkembangan teknologi yang telah maju dan pesat maka elektronika dimanfaatkan sebagai alat monitoring suhu otomatis dalam pembudidayaan jamur tiram berbasis Arduino UNO R3. Alat ini akan mempermudah budidaya untuk mengetahui nilai suhu dan kelembaban didalam ruangan dari sensor DHT11 dan untuk mengatur suhu dan kelembaban didalam ruangan agar tetap stabil dengan kipas dan nozzel lalu mati secara otomatis agar dalam pertumbuhan jamur tiram tumbuh dengan kualitas yang baik.
Implementasi Sensor Light Dependent Resistor (LDR) Dan LM35 Pada Prototipe Atap Otomatis Berbasis Arduino Satriyan Utama; agus Mulyanto; muhammad Arif Fauzi; Novia Utami Putri
CIRCUIT: Jurnal Ilmiah Pendidikan Teknik Elektro Vol 2, No 2 (2018)
Publisher : PTE FTK UIN Ar-Raniry

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22373/crc.v2i2.3706

Abstract

In designing and making an automatic roof tool that serves to help humans in terms of drying clothes, when exposed to rain then automatically the roof will be closed by itself because this tool uses raindrop sensor, and in cloudy / dark weather conditions the roof will be automatically closed, while at the time bright roof is open by itself, because it uses LDR (Light Dependent Resistor) sensors that can read the intensity of light. In order for the roof to open and close automatically this tool uses a rotating servo 180 degrees. This tool also uses a temperature sensor to determine the condition of the room during rain, cloudy, and bright. How this tool works when the weather conditions outside the bright LDR (Light Dependent Resistor) will read the intensity of light received and has been entered, then the servo will open the roof 180 degrees, and at that time the clothes are being sun-dried can be exposed to the sun, then otherwise if the outside conditions are overcast / dark servo will close the roof 0 degrees. And if the rain is outside raindrop sensor conditions will read the raindrop rain drops and then servo will close the roof 0 degrees so that clothes are dried sdang not be exposed to rain, so we no longer need to back and forth warmed and drying back clothes.
PENGENALAN APLIKASI CANVA KEPADA MASYARAKAT DAN STAF PEMERINTAHAN DESA SIDOSARI LAMPUNG SELATAN Novia Utami Putri
Journal of Social Sciences and Technology for Community Service (JSSTCS) Vol 3, No 1 (2022): Volume 3, Nomor 1, 2022
Publisher : Universitas Teknokrat Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33365/jsstcs.v3i1.1769

Abstract

The design of a product or logo is very important for entrepreneurs in their umkm or businesses that are involved in the community. Design can also make a village government famous through social media, therefore we carry out design training which will later be useful for people who have an effort to promote through a good and attractive design work. Primarily this design is intended for staff or village government training at the kominfo section in Sidosari village, South Lampung. To increase the existence of the village government.
Klasifikasi Jenis Kayu Menggunakan Support Vector Machine Berdasarkan Ciri Tekstur Local Binary Pattern Neneng Neneng; Novia Utami Putri; Erliyan Redi Susanto
CYBERNETICS Vol 4, No 02 (2020): CYBERNETICS
Publisher : Universitas Muhammadiyah Pontianak

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29406/cbn.v4i02.2324

Abstract

Indonesia merupakan negara yang kaya akan sumber daya alam, salah satunya adalah kayu. Kayu maupun produk dari kayu merupakan komoditas unggulan ekspor. Mengingat banyaknya jenis kayu yang memiliki tekstur yang hampir sama maka diperlukan pemahaman untuk mengenalinya. Identifikasi jenis kayu saat ini pada umumnya masih dilakukan manusia secara visual. Kemampuan mengidentifikasi jenis kayu harus dilakukan secara berulang-ulang dan membutuhkan waktu proses latihan yang lama. Keterbatasan kemampuan manusia dalam mengidentifikasi jenis kayu yang belum terampil secara visual terkadang berpengaruh terhadap hasil yang diinginkan bagi dunia industri. Saat ini teknologi pengolahan citra digital telah banyak digunakan untuk melakukan klasifikasi jenis kayu berdasarkan teksturnya. Pada penelitian ini metode local binary pattern (LBP) akan digunakan untuk melakukan klasifikasi jenis kayu. Metode ini akan menghasilkan ciri tekstur yang nantinya akan digunakan sebagai masukan dalam proses pelatihan dan pengujian menggunakan support vector machine (SVM). Data citra jenis kayu yang digunakan dalam penelitian ini adalah jenis kayu bayur, cempaka, damar, meranti, dan merbau. Citra kayu tersebut diambil secara manual menggunakan kamera digital dengan jarak pengambilan 20 cm, 30 cm, dan 40 cm. Hasil akurasi klasifikasi jenis kayu bayur, cempaka, damar, meranti, dan merbau dalam penelitian ini adalah sebesar 97, 3% berada pada parameter sigma 0,1; 0,2; 0,3. Sedangkan hasil error terkecil hasil klasifikasi adalah sebesar 2,7%.
PELATIHAN INTERNET OF THINGS (IoT) BAGI SISWA/SISWI SMKN 1 SUKADANA, LAMPUNG TIMUR Jaka Persada Sembiring; Akhmad Jayadi; Novia Utami Putri; Tri Darma Rosmala Sari; I Wayan Sudana; Okky Adi Darmawan; Fajar Anggit Nugroho; Nur Faqih Ardiantoro
Journal of Social Sciences and Technology for Community Service (JSSTCS) Vol 3, No 2 (2022): Volume 3, Nomor 2, 2022
Publisher : Universitas Teknokrat Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33365/jsstcs.v3i2.2021

Abstract

Internet of Things (IoT) merupakan sebuah teknologi yang tengah ramai dibincangkan akhir-akhir ini. Dengan teknologi tersebut, setiap piranti yang kita miliki nantinya bisa terhubung dengan internet, sehingga bisa dikendalikan dari jarak jauh dengan smartphone atau bahkan dengan perintah suara. Seperti pada rumah kita nantinya akan banyak  barang barang yang terkoneksi oleh internet of things ini seperti kulkas, lampu, tv, pintu rumah dan barang-barang  lainya. Kita bisa mengontrolnya dengan smarphone kita. Iot ini berkerja menggunkan relay dan NodeMCU sebagai  penyimpan kode yang telah dibuat di sofware Arduino ide
PELATIHAN DOORLOCK BAGI SISWA/SISWI MAS BAITUSSALAM MIFTAHUL JANNAH LAMPUNG TENGAH Novia Utami Putri; Jaka Persada Sembiring; Akhmad Jayadi; Qadhli Jafar Adrian; I Wayan Sudana
Journal of Social Sciences and Technology for Community Service (JSSTCS) Vol 3, No 2 (2022): Volume 3, Nomor 2, 2022
Publisher : Universitas Teknokrat Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33365/jsstcs.v3i2.2022

Abstract

Keamanan rumah sangatlah penting sekarang ini mengingat rumah adalah salah satu tempat penyimpanan barang barang berharga setelah brangkas dan bank. Maka hal itu menjadi faktor untuk mendorong pembuatan kunci pintu rumah yang canggih dan moderen. DoorLock meruapakan kunci keamanan pintu otomatis yang berbasis internet of Things. Dengan seiring perkembangan teknologi keamanan suatu rumah atau brangkas juga perlu diperhatikan untuk hal itu doorlock adalah salah satu pilihan yang tepat dalam hal ini mengingat doorlock kunci pintu yang sudah canggih dan aman yang tidak memerlukan kunci analog dalam pengaplikasianya doorlock menggunakan password dan sensor pendeteksi seperti ktp, atau wajah pemilik rumah
INTERNET OF THINGS (IoT) TRAINING FOR STUDENTS OF SMK NEGERI 1 TANJUNG SARI, LAMPUNG SELATAN Akhmad Jayadi; Jaka Persada Sembiring; Novia Utami Putri; Qadhli Jafar Adrian; I Wayan Sudana; Fajar Anggit Nugroho; Okky Adi Darmawan; Nur Faqih Ardiantoro
Journal of Social Sciences and Technology for Community Service (JSSTCS) Vol 3, No 2 (2022): Volume 3, Nomor 2, 2022
Publisher : Universitas Teknokrat Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33365/jsstcs.v3i2.2019

Abstract

Internet of Things (IoT) is a technology that is currently busy been discussed recently. With this  technology, every device we use have later can be connected to the internet, so it can be controlled  from remotely with a smartphone or even with voice commands. As in our homes, there will be many  items that are connected by the internet of things, such as refrigerators, lights, tv, house doors and  other items. We can control it with our smartphone. This IoT works using relays and NodeMCU as a  code store that has been created in the Arduino ide software.
Co-Authors Agrananto Ghozanfar Agus Mulyanto Akhmad Jayadi Arif Fauzi, Muhammad Arif Fauzi, Muhammad Arif Fauzi Asri Alawiyah Dian Pratiwi Dirga Rama Setiadi Elka Pranita Erliyan Redi Susanto Fajar Anggit Nugroho Fauzi, Muhammad Arif Firman Fahrodin Hegen Persada I Wayan Sudana imas stiyawan Jaka Persada Sembiring Jaka Persada Sembiring Jupriyadi, Jupriyadi Leny Meilisa Muhamad Randyka Rojat muhammad Arif Fauzi Muhammad Bakri Muhammad Dandy Muhammad Riski Neneng Neneng Nur Faqih Ardiantoro Nur Faqih Ardiantoro Okky Adi Darmawan Qadhli Jafar Adrian Ramadhani Ahmad Prayoga Satriyan Utama Selo Jelang Pangestu Solehudin Solehudin Tri Darma Rosmala Sari Tria Prameswari Try Susanto Usman Nur Ikhsan Utama, Satriyan Wayan Rio Adi Pratama Yusak Maryunianta Zahwa Khoirunnisa