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All Journal JTERA (Jurnal Teknologi Rekayasa) Angkasa: Jurnal Ilmiah Bidang Teknologi Compiler INTEK: Informatika dan Teknologi Informasi JISKa (Jurnal Informatika Sunan Kalijaga) JOURNAL OF INFORMATION SYSTEM MANAGEMENT (JOISM) REMIK : Riset dan E-Jurnal Manajemen Informatika Komputer Pilar Teknologi : Jurnal Penelitian Ilmu-ilmu Teknik Jurnal Aplikasi Teknologi Informasi dan Manajemen (JATIM) Teknomatika: Jurnal Informatika dan Komputer
Rama Sahtyawan
Universitas Jenderal Achmad Yani Yogyakarta
Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Library & Information Science Mechanical Engineering Other

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APPLICATION FOR CONTROL OF DISTANCE LIGHTS USING MICROCONTROLLER NODEMCU ESP 8266 BASED ON INTERNET OF THINGS (IOT) Sahtyawan, Rama; Wicaksono, Arief Ikhwan
Compiler Vol 9, No 1 (2020): Mei
Publisher : Sekolah Tinggi Teknologi Adisutjipto Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (701.86 KB) | DOI: 10.28989/compiler.v9i1.627

Abstract

Control systems in the field of technology, electronic devices must be controlled. But there are still those who oppose if the room does not have a place anywhere, where there is no one at home, other people forget to change the lights, it is very inconvenient if you have to go home, even though if the lights are left activated there will be a waste, from which It was stated that a light monitoring device was provided using the Internet-based (IoT) tea-based Relay module using the NodeMcu ESP 8266 microcontroller which has been equipped with a wifi module, so that the led lights can be monitored by the user in realtime so using the IoT Program platform using the Blynk application, which can be controlled via handphone, In the system implementation, a display is made using Blynk. There are 4 on and off switch buttons which are used to facilitate and activate the Led lights. In this research, the control of Led using blynk is done 10 times. Led control testing is used to see each procedural function running correctly as expected, the results of tests that have been done get the results of 10x experiments that have been done to get 2 x interrupted experiments in the LEDs needed to connect the wifi network
Rancang Bangun Pemantau Daerah Endemik Malaria Berbasis IoT Menggunakan Metode Profile Matching Sahtyawan, Rama; Sudarmana, Landung
JURNAL PILAR TEKNOLOGI : Jurnal Ilmiah Ilmu Ilmu Teknik Vol 5, No 1 (2020): JURNAL PILAR TEKNOLOGI
Publisher : LPPM Universitas Merdeka Madiun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33319/piltek.v5i1.51

Abstract

Abstract— Malaria is an endemic disease transmitted by Anopheles mosquitoes, which causes increased morbidity and mortality (morbidity and mortality), maternal and child health disorders, intelligence, labor force productivity, and detrimental to tourism. From these problems, a tool was developed to monitor endemic malaria areas in real-time by using temperature and humidity data for an area. Then analyzed using the profile matching method to calculate the weight/score gap in temperature and humidity conditions using interpolation, the data will be sent by the DHT 11 sensor found on NodeMcu. The application used to find out in real-time using the Blynk application as an internet of things board with a Wifi connection for the next step NodeMcu requires coding using the Arduino IDE program, for testing the location system used consists of 5 locations namely: L1 = Jl.Magelang, L2 = Jl.Maguwoharjo, L3 = Jl.Babarsari, L4 = Jl.Wates km9, L5 = Jl.Ali times km 8. Obtained temperature and humidity data (L1 = 36.30), (L2 = 18.32), (L3 = 23.45), (L4 = 38.33), (L5 = 35.53), then the gap weight calculation using the interpolation method obtained temperature and humidity data (L1 = 3,800; 3,974), (L2 = 4,600; 4,179), (L3 = 5,000; 5,000), (L4 = 3,400; 4,282), (L5 = 4,000; 5.00), the results obtained from rank 5 locations are malaria-endemic areas, rank 1 = L3-Babarsari, rank 2 = L5-Jl.Kaliurang km 8, rank 3 = L2-Jl.Maguwoharjo, rank 4 = L1-Jl.Magelang, rank 5 = L4-Jl.Wates. from the ranking data, the location must be prioritized L3-Babarsari. Keywords—: Malaria; DHT 11, NodeMCU; Profile Matching; Blynk.
NodeMcu Microcontroller Based Disinfectant Fluid Monitoring System Using Water Level Control Sensor and Ultrasonic Sensor Rama Sahtyawan; Andika Bayu Saputra; Syaeful Arief
Angkasa: Jurnal Ilmiah Bidang Teknologi Vol 12, No 2 (2020): November
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1253.29 KB) | DOI: 10.28989/angkasa.v12i2.770

Abstract

The spread of the coronavirus (Covid-19) in Indonesia is increasing. Many innovations have begun to emerge between the use of chambers that are placed on the streets is rampant, the village gate is still manually with an officer pressing the switch for incoming guests, and there is also spraying that is done automatically, reads guests who come, automatically, the obstacles encountered are sometimes run out of disinfectant fluid, demanding officers must regularly check so as not to run out. This research will develop an IoT-based disinfecting booth in addition to spraying disinfecting liquid automatically. It can also fill disinfecting liquid automatically and can be monitored via a Smartphone. System and tool requirements consist of NodeMcu Esp 8266, flow water sensor, ultrasonic sensor, Relay, Solenoid Valve, Arduino IDE, Blynk Apps, ThingSpeak The process of detecting disinfectant fluid level is divided into 2, safe level with water level between 11-50 cm, The danger level with the water level between 0-10 cm. Then the node sends an output signal to the relay. The relay continues that signal, which functions as a switch to open the solenoid, water will flow through the pipe when the solenoid valve is opened so that the water tap is open to fill the derijen. The Thingspeak IoT platform is used to display disinfectant liquid level graphs. Sensor output data will be reported in real-time to the admin via the application of the Blynk app. With the development of this device, it is expected to reduce the spread of the COVID-19 virus.
Rancang Bangun Pemantau Daerah Endemik Malaria Berbasis IoT Menggunakan Metode Profile Matching Rama Sahtyawan; Landung Sudarmana
JURNAL PILAR TEKNOLOGI Jurnal Ilmiah Ilmu Ilmu Teknik Vol. 5 No. 1 (2020): JURNAL PILAR TEKNOLOGI
Publisher : LPPM Universitas Merdeka Madiun

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33319/piltek.v5i1.51

Abstract

Abstract— Malaria is an endemic disease transmitted by Anopheles mosquitoes, which causes increased morbidity and mortality (morbidity and mortality), maternal and child health disorders, intelligence, labor force productivity, and detrimental to tourism. From these problems, a tool was developed to monitor endemic malaria areas in real-time by using temperature and humidity data for an area. Then analyzed using the profile matching method to calculate the weight/score gap in temperature and humidity conditions using interpolation, the data will be sent by the DHT 11 sensor found on NodeMcu. The application used to find out in real-time using the Blynk application as an internet of things board with a Wifi connection for the next step NodeMcu requires coding using the Arduino IDE program, for testing the location system used consists of 5 locations namely: L1 = Jl.Magelang, L2 = Jl.Maguwoharjo, L3 = Jl.Babarsari, L4 = Jl.Wates km9, L5 = Jl.Ali times km 8. Obtained temperature and humidity data (L1 = 36.30), (L2 = 18.32), (L3 = 23.45), (L4 = 38.33), (L5 = 35.53), then the gap weight calculation using the interpolation method obtained temperature and humidity data (L1 = 3,800; 3,974), (L2 = 4,600; 4,179), (L3 = 5,000; 5,000), (L4 = 3,400; 4,282), (L5 = 4,000; 5.00), the results obtained from rank 5 locations are malaria-endemic areas, rank 1 = L3-Babarsari, rank 2 = L5-Jl.Kaliurang km 8, rank 3 = L2-Jl.Maguwoharjo, rank 4 = L1-Jl.Magelang, rank 5 = L4-Jl.Wates. from the ranking data, the location must be prioritized L3-Babarsari. Keywords—: Malaria; DHT 11, NodeMCU; Profile Matching; Blynk.
Analisis dan Deteksi Backdoor pada Content Management System Menggunakan Metode Signature-based dan Static Analysis Dedy Hariyadi; Chanief Budi Setiawan; Rama Sahtyawan; Arief Ikhwan Wicaksono; Akas Wisnuaji
INTEK : Jurnal Informatika dan Teknologi Informasi Vol. 5 No. 1 (2022)
Publisher : Universitas Muhammadiyah Purworejo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37729/intek.v5i1.1734

Abstract

Pemanfaatan Content Management System sebagai platform pengembangan situs web cukup tinggi. CMS menawarkan kemudahan dalam mengimplementasi situs web dengan mudah dengan berbagai fitur termasuk didalamnya penggaya dan tema yang disediakan untuk memperindah tampilan. Namun dibalik kemudahan tersebut terdapat ancaman berupa penyisipan kode-kode jahat pada penggaya ataupun tema. Oleh sebab itu dalam pengembangan situs web harus mengimplementasikan dari Secure-Software Development Life Cycle dengan memperhatikan setiap tahap pengembangan dengan melakukan analisis dan deteksi setiap kode. Hal ini untuk menjaga penyisipan kode-kode jahat oleh pihak yang bertanggung jawab. Melakukan analisis dan deteksi terkait kode jahat yang disisipkan dalam penggaya ataupun tema pada CMS sejak awal pengembangan merupakan langkah preventif terhadap serangan siber. Pada penelitian ini diusulkan melakukan multi metode dalam menganalisis dan mendeteksi berbasis signature dan analisis statik supaya hasilnya lebih komprehensif. Berdasarkan penelitian ini, hasil dari pemindaian berbasis signature dan analisis statik menggunakan function reference menunjukan hasil yang saling melengkapi.
PENERAPAN ZERO ENTRY HACKING DIDALAM SECURITY MISCONFIGURATION PADA VAPT (VULNERABILITY ASSESSMENT AND PENETRATION TESTING) Rama Sahtyawan
Journal of Information System Management (JOISM) Vol. 1 No. 1 (2019): Juli
Publisher : Universitas Amikom Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1568.399 KB) | DOI: 10.24076/joism.2019v1i1.18

Abstract

Serangan terhadap sistem komputer dari waktu ke waktu semakin meningkat dan semakin canggih. Perusahaan dituntut untuk memastikan Cyber Security yang aman untuk melindungi dari serangan hacker. Penelitian ini, Mengimplementasikan VAPT (Vulnerability Assessment and Penetration Testing) menggunakan metode ZEH (Zero Entry Hacking)Penetration Testing Methodology untuk mengetahui kerentanan SMB (server Message block) dan RDP(remote desktop) pada server yang dapat dieksploitasi serta memberi penyerang hak akses terhadap server yang mampu memanipulasi data pada server.
PENERAPAN TEKNOLOGI CLASSROOM CERDAS PLTS MENGGUNAKAN SMART DOORLOCK BERDASARKAN DETEKSI SUHU TUBUH BERBASIS IOT MEMANFAATKAN ENERGI ALTERNATIF PANEL SURYA rama sahtyawan; Andika Bayu Sautra2
Jurnal Aplikasi Teknologi Informasi dan Manajemen (JATIM) Vol 3 No 2 (2022): Jurnal Aplikasi Teknologi Informasi dan Manajemen (JATIM) Oktober 2022
Publisher : Universitas Islam Madura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31102/jatim.v3i2.1703

Abstract

Penyebaran virus corona (Covid-19) di Indonesia semakin meningkat, memberikan dampak bagi perguruan tinggi (PT) di indonesia. PT harus memperketat proses perkuliahan agar meminimalisir penyebaran covid. Solusi yang digagas adalah dengan menciptakan sebuah pengontrol pintu otomatis yang dapat diakses dengan mendeteksi suhu tubuh mahasiswa yang akan mengikuti perkuliahan di kelas dalam suhu tubuh normal serta sistem tersebut dapat mengontrol dalam pembatasan jumlah mahasiswa yang masuk didalam kelas, adapun sumber daya tersebut menggunakan pembangkit listrik tenaga surya yang ramah lingkungan. Tujuan dari penelitian ini adalah merancang “Classroom Cerdas Plts” dengan menggabungkan Internet Of Things dan Plts sebagai upaya penerapan social distance jaga jarak antar mahasiswa di kelas pada perkuliahan untuk meningkatkan keamanan dan kenyamanan yang sumber dayanya menggunakan pembangkit listrik tenaga surya yang ramah lingkungan. Classroom Cerdas Plts dengan kebutuhan sistem sensor dan lainnya terdiri dari : NodeMcu Esp 8266, sensor suhu, door lock, Relay, panel surya, inverter, Aki, solar charge controller, Arduino IDE. Menggunakan Platform IoT Thingspeak yang berfungsi memonitoring jumlah mahasiswa di dalam kelas. Data output sensor akan dilaporkan secara real time ke admin melalui aplikasi MIT app inventor didukung dengan firebase sebagai realtime database yang digunakan untuk menyimpan data dan synchronize ke banyak user. Kata kunci: Covid-19, temperature sensor, MIT app inventor, firebase, PLTS.
PENERAPAN TEKNOLOGI GARDEN BONSAI UNTUK MENDETEKSI KELEMBABAN TANAH DALAM PENYIRAMAN OTOMATIS, SENSOR GERAK MALING DAN CCTV BERBASIS IoT (INTERNET OF THINGS ) MENGGUNAKAN ENERGI ALTERNATIF PANEL SURYA rama sahtyawan; Arief Ikhwan Wicaksono
Jurnal Aplikasi Teknologi Informasi dan Manajemen (JATIM) Vol 3 No 2 (2022): Jurnal Aplikasi Teknologi Informasi dan Manajemen (JATIM) Oktober 2022
Publisher : Universitas Islam Madura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31102/jatim.v3i2.1704

Abstract

Seni bonsai yang merupakan miniatur dari pohon besar yang ada di alam liar, dengan perawatan yang benar tanaman tersebut menjadi kerdil di dalam sebuah pot serta bisa bertahan sampai ratusan tahun, sehingga tidak heran harga bonsai bisa sampai ratusan juta rupiah. Kelembaban tanah adalah salah satu faktor lingkungan yang mempengaruhi biologi didalam tanah, dalam proses penyiraman sangat mempengaruhi kelembaban tanah sehingga apabila kelembaban yang tinggi, Solusi yang akan dilakukan yaitu diperlukan suatu teknologi penyiraman tanaman bonsai otomatis berbasis IoT yang dapat memonitoring kelembaban tanah sehingga distribusi airnya merata dan nutrisi yang diserap tanah bisa maksimal, pada faktor keamanan diperlukan adanya suatu sistem yang dapat mendeteksi gerakan apabila ada sesuatu yang mencurigakan didukung dengan pencahayaan lampu otomatis, serta termonitoring terekam di cctv online, yang kesemuanya dapat dipantau menggunakan HP, Penelitian ini merancang sistem bonsai garden IoT menggunakan Sensor soil moisture untuk mendeteksi kondisi suhu taman dapat berjalan dengan baik dan fungsi solenoid valve untuk mengaliri air dapat berfungsi dengan baik, Nodemcu dapat menerima masukan dari relay dapat mematikan dan menghidupkan light sensor secara otomatis sesuai dengan kondisi pencahayaan ditaman. Pada Sensor DHT11 untuk Humadity dapat mengirimkan signal ke nodemcu diteruskan ke relay dan Misting dapat berfungsi sehingga pompa dapat menyala. Pada Sensor DHT11 untuk temperature dapat mengirimkan signal ke nodemcu diteruskan ke relay sehingga kipas dapat berfungsi dengan baik. Pada Sensor Pir dapat menangkap adanya gerakan disekitar area taman, setelah itu mengirimkan signal ke nodemcu diteruskan ke relay dan cctv esp 32 dapat menangkap objek. Kata kunci: Bonsai garden, esp 32 cam, soil moisture, MIT app inventor, PLTS.
Network Forensic of Cryptocurency Miners Arief Ikhwan Wicaksono; Rama Sahtyawan; Dedy Hariyadi
Compiler Vol 11, No 2 (2022): November
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (816.185 KB) | DOI: 10.28989/compiler.v11i2.1369

Abstract

As reported by BSSN on August, 2022, Indonesia has traffic anomalies of 1.6 billion traffic, with 55.83% of anomaly findings containing malware and the remaining 14.99% information disclosure is another activity. Some of this data, when further analyzed based on the type of attack, falls into the categories of breaches, successes, attempts, and failures. Investigate crimes related to misuse of resources for illegal cryptocurrency mining activities. Therefore, this study should consider acquisitions from the network side as they apply to existing government agencies/institutions. This observation thereby provides information for later evidence, intruder detection, and prosecution of perpetrators who misuse resources for personal gain. As a result, the harvesting processs can obtain valuable data from routers as a digital evidence for investigating information about network attack activitiy and anomalies traffic.
APPLICATION FOR CONTROL OF DISTANCE LIGHTS USING MICROCONTROLLER NODEMCU ESP 8266 BASED ON INTERNET OF THINGS (IoT) Rama Sahtyawan; Arief Ikhwan Wicaksono
Compiler Vol 9, No 1 (2020): May
Publisher : Institut Teknologi Dirgantara Adisutjipto

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (701.86 KB) | DOI: 10.28989/compiler.v9i1.627

Abstract

Control systems in the field of technology, electronic devices must be controlled. But there are still those who oppose if the room does not have a place anywhere, where there is no one at home, other people forget to change the lights, it is very inconvenient if you have to go home, even though if the lights are left activated there will be a waste, from which It was stated that a light monitoring device was provided using the Internet-based (IoT) tea-based Relay module using the NodeMcu ESP 8266 microcontroller which has been equipped with a wifi module, so that the led lights can be monitored by the user in realtime so using the IoT Program platform using the Blynk application, which can be controlled via handphone, In the system implementation, a display is made using Blynk. There are 4 on and off switch buttons which are used to facilitate and activate the Led lights. In this research, the control of Led using blynk is done 10 times. Led control testing is used to see each procedural function running correctly as expected, the results of tests that have been done get the results of 10x experiments that have been done to get 2 x interrupted experiments in the LEDs needed to connect the wifi network
Co-Authors Agung Priyanto Akas Wisnuaji Alfun Roehatul Jannah Arief Ikhwan Wicaksono Bambang Nakulo Chanief Budi Setiawan Daila Sari, Indah Dedy Hariyadi Dona Dona Kusumaningtyas, Netania Indi Landung Sudarmana Landung Sudarmana, Landung M. Abu Amar Al Badawi Maulida Farahanita Mirajul Rifqi Nindya Dwi Anggana Nurul Fatimah Pratama, Putri Noviana Nih Rosid, Ibnu Abdul Safitri Safitri sahudi, suwarno Saputra, Andika Bayu Syaeful Arief Teguh Wibowo