Articles
<![CDATA[IoT-Based System of Monitoring Realtime Air Quality with MQ135 and Automatic Chicken Feeding ]]>
<![CDATA[Dani Sasmoko]]>;
<![CDATA[Reni Veliyanti]]>;
<![CDATA[Rozi Azwar Pradana]]>
<![CDATA[ Journal of Technology Informatics and Engineering Vol 1 No 2 (2022): Agustus: Journal of Technology Informatics and Engineering ]]>
Publisher : <![CDATA[Universitas Sains dan Teknologi Komputer ]]>
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DOI: 10.51903/jtie.v1i1.136
<![CDATA[IoT technology is useful for chicken farming to control the condition of the farm concerning some problems such as odour, temperature fluctuations and feeding time system. This study used MQ135 to detect ammonia odour level, DHT11 to check room temperature, and RTC3231 to regulate feeding time. The data obtained from the sensor was sent by wemos to the fire base and MySQL to be read on android so that it can be monitored directly by the breeder. When the ammonia level is above normal it will turn on the odour fan. If DHT11 reaches the value above 300C, it will turn on the cooling fan, and turn on the heating light when the temperature is below 250C. As RTC3231 sets the time at 07.00 and 14.00, the chicken feeder will automatically open to feed the chickens according to the time set. Table 1 and 2 show that the experiment obtained a value of 100% working well. This study succeeded in monitoring environmental conditions through Android and executing automatic feeding at the predetermined time. Thus, it can be concluded that the use of IoT technology for monitoring and feeding system automation in chicken farms is highly recommended.]]>
<![CDATA[SISTEM DETEKSI WARNA DENGAN TCS3200 DAN BH1750 UNTUK PENENTUAN WARNA KARPET YANG VALID PADA PROSES INSPEKSI ]]>
<![CDATA[Dani Sasmoko]]>;
<![CDATA[Eddy Sanjaya]]>;
<![CDATA[Reni Veliyanti]]>
<![CDATA[ Seminar Nasional Teknologi dan Multidisiplin Ilmu (SEMNASTEKMU) Vol 1 No 2 (2021): SEMNASTEKMU ]]>
Publisher : <![CDATA[Universitas Sains dan Teknologi Komputer ]]>
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DOI: 10.51903/semnastekmu.v1i1.111
<![CDATA[Pada PT Herculon Carpet merupakan perusahan produksi karpet, pada proses penentuan warna karpet masih menggunakan cara manual, dengan menggunakan Arduino dengan sensor cahaya TCS3200 nilai konstan warna dapat terjaga secara konstan terus menerus dan tidak akan berubah, berbeda dengan penggunaan pengamatan langsung yang di pengaruhi dengan objektivitas. Pada sistem ini menggunakan Arduino dan sensor BH1750 serta TCS3200, Sensor BH1750 ini untuk mempertahankan nilai cahaya lingkungan dan TCS3200 untuk penentuan warna. Pada penelitian ini dilakukan 10x percobaan pendeteksian cahaya yang hasil nya 10x konstan, dan 10x pengujian nilai warna yang hasil nya 100% tingkat keberhasilan nya. Pada pengujian 6x dengan berbagai tipe produk juga di hasilkan nilai yang konstan dan sama. Jadi penggunaan TCS3200 dan BH1750 untuk proses inspeksi warna sangat di rekomendasikan karena mendapatkan hasil yang konstan.]]>
<![CDATA[SISTEM PEMBELAJARAN SENI TARI DENGAN MEDIA ANDROID UNTUK SEKOLAH DASAR ]]>
<![CDATA[Reni Veliyanti]]>;
<![CDATA[Dani Sasmoko]]>
<![CDATA[ Seminar Nasional Teknologi dan Multidisiplin Ilmu (SEMNASTEKMU) Vol 2 No 1 (2022): SEMNASTEKMU ]]>
Publisher : <![CDATA[Universitas Sains dan Teknologi Komputer ]]>
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DOI: 10.51903/semnastekmu.v2i1.150
<![CDATA[Teknologi saat ini berkembang pesat dengan ada masalah covid tersebut, masyarakat mulai berlombamencari solusi terhadap masalah yang mereka hadapi sesuai dengan kemampuan keilmuan mereka. Meraka yangahli di bidang virus berusaha dengan cepat menemukan vaksin dan obat untuk covid, di bidang Pendidikan mulaimelirik penggunaan teknologi dalam proses pembelajaran yang berlangsung. Penggunaan aplikasi di android adalahmerupakan salah satu solusi.Proses pembelajaran yang di mana di larang dalam 1 lokasi dalam jumlah banyak danmebaca buku di rasa membosankan oleh bebrapa siswa pada sd peleburan 3 semarang [4], penggunaan mediapembelajaran berbasis android di rasa salah satu pendukung proses pembelajaran. Proses pembelajaran saat inimasih manual menggunakan buku , siswa belajar di rumah menggunakan media buku dan guru akan berkomunikasidengan wa menjelaskan proses pembelajaran nya[5].Hal ini sangatlah menyulitkan siswa dan banyak dari beberapasiswa tidak tertarik dengan metode belajar tersebut. Oleh karena itu di perlukan media pembelajaran yang dapatmenarik siswa untuk memahami materi pembelajaran nya[6].Penggunaan teknologi salah satu nya adalah pemakai]]>
<![CDATA[SISTEM INFORMASI PERSEDIAAN UNTUK MONITORING DAN PENGENDALIAAN DENGAN METODE PERPETUAL DI PT. DELTA DUNIA SANDANG TEKSTIL ]]>
<![CDATA[Kasih Purwantini]]>;
<![CDATA[Sri Wahyuning]]>;
<![CDATA[Dani Sasmoko]]>
<![CDATA[ Seminar Nasional Teknologi dan Multidisiplin Ilmu (SEMNASTEKMU) Vol 2 No 1 (2022): SEMNASTEKMU ]]>
Publisher : <![CDATA[Universitas Sains dan Teknologi Komputer ]]>
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DOI: 10.51903/semnastekmu.v2i1.161
<![CDATA[PT. Delta Dunia Sandang Tekstilmerupakan sebuah perusahaan yang memproduksi bahan baku Kapassintetis yang menjadi benang setengah jadi. yang merupakan produsen tekstil terbesar di Indonesia. Duniatexadalah perusahaan tekstil kelas dunia yang dikelola secara profesional, yang berfokus pada pemintalan,pertenunan, pencelupan, dan finishing. Pengecekan persediaan dan perawatan setiap mesin yang terdapat diperusahaan dibagi menjadi beberapa departement bagian berdasarkan bagian masing-masing yaitu Mantainace,Utilty, Laborat. Sistem informasi monitoring dan penggendaliaan sistem yang ada pada perusahaan PT. DeltaDunia Sandang Tekstil masih manual dimana ketika barang masuk kegudang dan barang keluar dari gudang,karyawan hanya mencatat pada form buku barang yang telah tersedia dan sering terdapat kesalahan pencatatandan tercampurnya data barang satu dengan barang yang lain sehingga ditakutkan akan terjadi kehilangan databarang data saat diperlukan. Dan pencatatan pembukuan dilakukan secara dua kali yaitu dengan kertas dan Ms.Excel terlalu banyak membuang waktu dan laporan – laporan yang diberikan ke pimpinan sering terlambat, danmasih terkendala untuk mencari data persediaan harus membuka data sheet per sheetBerdasarkan masalah yang ada, maka perlu dilakukan perubahan terhadap Sistem persediaan di gudangSparepart mesin dengan menggunakanSistem Informasi Akuntansi Untuk Monitoring Dan Pengendalian DenganMenggunakan Metode Perpetual. Perusahaan dapat melakukan pencatatan persediaan barang dengan pencatatanbarang menggunakan metode Perpetual (Perpetual inventory control) tidak diperlukan perhitungan secara fisik (Stock Opname ) pada persediaan yang tersedia. Diharapkan sistem ini mampu membantu pelaksanaan monitoringstok Hal ini dapat dilakukan dengan cara mengubah sistem yang ada menjadi sistem yang baru dengan caramembuatkan sebuah program komputer berbasis Microsoft Visual Basic 6.0 dengan jaringan Clien Server danmenggunkan database MySQL . Hasil yang dicapai adalah sebuah system cliae server untuk pengendalian]]>
<![CDATA[IoT-Based System of Monitoring Realtime Air Quality with MQ135 and Automatic Chicken Feeding ]]>
<![CDATA[Dani Sasmoko]]>;
<![CDATA[Reni Veliyanti]]>;
<![CDATA[Rozi Azwar Pradana]]>
<![CDATA[ Journal of Technology Informatics and Engineering Vol 1 No 2 (2022): August: Journal of Technology Informatics and Engineering ]]>
Publisher : <![CDATA[University of Science and Computer Technology ]]>
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DOI: 10.51903/jtie.v1i2.136
<![CDATA[IoT technology is useful for chicken farming to control the condition of the farm concerning some problems such as odour, temperature fluctuations and feeding time system. This study used MQ135 to detect ammonia odour level, DHT11 to check room temperature, and RTC3231 to regulate feeding time. The data obtained from the sensor was sent by wemos to the fire base and MySQL to be read on android so that it can be monitored directly by the breeder. When the ammonia level is above normal it will turn on the odour fan. If DHT11 reaches the value above 300C, it will turn on the cooling fan, and turn on the heating light when the temperature is below 250C. As RTC3231 sets the time at 07.00 and 14.00, the chicken feeder will automatically open to feed the chickens according to the time set. Table 1 and 2 show that the experiment obtained a value of 100% working well. This study succeeded in monitoring environmental conditions through Android and executing automatic feeding at the predetermined time. Thus, it can be concluded that the use of IoT technology for monitoring and feeding system automation in chicken farms is highly recommended.]]>
<![CDATA[ADVANCED MALICIOUS SOFTWARE DETECTION USING DNN ]]>
<![CDATA[Sulartopo Sulartopo]]>;
<![CDATA[Dani Sasmoko]]>;
<![CDATA[Zaenal Mustofa]]>;
<![CDATA[Arsito Ari Kuncoro]]>
<![CDATA[ Journal of Technology Informatics and Engineering Vol 1 No 1 (2022): April: Journal of Technology Informatics and Engineering ]]>
Publisher : <![CDATA[University of Science and Computer Technology ]]>
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DOI: 10.51903/jtie.v1i1.144
<![CDATA[The special component of malicious software analysis is advanced malicious software analysis which implicates interested the main framework of malicious software that can be executed after executing it and aggressive malicious software investigation depend on inquisitive of the practice of malicious software after running it in a composed habitat. Advanced malicious software analysis is usually performed by contemporary anti-malicious software operating systems using signature-based analysis. The purpose of this research is to propose also decide a DNN for the progressive identification of portable files to study the features of portable executable malicious software to minimize the occurrence of distorted likeness when aware of advanced malicious software. The model proposed in this study is a NN with a Dropout model contrary to a resolution tree model to examine how well it performs in detecting real malicious PE files. Setup-skeptic methods are used to extract features from files. The dataset is used to train the proposed approach and measure outcomes by alternative common malicious software datasets. The results from this study illustrate that the use of simple DNNs to study PE vector elements is not only efficient but more fewer system comprehensive than the traditional interested disclosure approach. The model proposed in this study achieves an A-UC of ninety-nine point eight with ninety accurate specifics at one percent inaccurate specific on the R-OC curve. For shows that this model has the potential to complement or replace conventional anti-malicious software operating systems so for future research, it is proposed to implement this model practically.]]>
<![CDATA[Detection Tool for Authenticity and Nominal of Banknotes for the Blind Using Arduino Based Scanning Sensor ]]>
<![CDATA[Eka Kiki Rachmawati]]>;
<![CDATA[Dani Sasmoko]]>
<![CDATA[ Journal of Technology Informatics and Engineering Vol 2 No 3 (2023): December : Journal of Technology Informatics and Engineering ]]>
Publisher : <![CDATA[University of Science and Computer Technology ]]>
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DOI: 10.51903/jtie.v2i3.164
<![CDATA[Money is a tool used to carry out buying and selling transactions and has been used by all humans in every corner of the world. This definitely makes money a basic commodity for everyone, even for people with disabilities such as the blind. The blind's limitations in seeing are a problem in terms of communication so they only rely on their sense of touch and hearing. The weakness of the blind in seeing and identifying money can cause money to be exchanged, taken wrongly, or even deceived by counterfeit money when buying and selling. Referring to this, it is necessary to have tools that can make it easier for the blind to identify the authenticity of money and the nominal value of money. The aim of this research is to design a tool that can be used to detect the authenticity of the nominal value of Rupiah banknotes. This tool uses a TCS3200-DB color sensor to detect the color of banknotes, then the microcontroller converts it into RGB data and outputs it in the form of sound output.and an ultraviolet sensor to detect the authenticity of money.The result of this research is that the system can recognize the authenticity and nominal value of moneypaper, especially rupiah. This makes it easier for users, especially the visually impaired, to carry out buying and selling transactions so they don't make mistakesto give or receive money.]]>
<![CDATA[IMPLEMENTATION OF INTERNET OF THINGS (IOT) TO SIMULATE TEMPERATURE AND HUMIDITY IN NON STERILE MEDICINE PRODUCTION ROOMS USING TEMPERATURE SENSORS (LM 35) AND HUMIDITY SENSORS (DHT 22) BASED ON ARDUINO AND WEB ]]>
<![CDATA[Mateus Bimahatma]]>;
<![CDATA[Dani Sasmoko]]>;
<![CDATA[Jarot Dian Susatyono]]>
<![CDATA[ Journal of Technology Informatics and Engineering Vol 2 No 3 (2023): December : Journal of Technology Informatics and Engineering ]]>
Publisher : <![CDATA[University of Science and Computer Technology ]]>
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DOI: 10.51903/jtie.v2i3.165
<![CDATA[The development of increasingly sophisticated pharmaceutical industry technology requires researchers to develop technology in the pharmaceutical industry that can help employees carry out their duties. As we know, technology is very helpful in providing job data in industry. Information technology can improve the quality of work in industry. One of them is about monitoring temperature and humidity in the non-sterile drug production room. This temperature and humidity is monitored by the QA ( Quality Assurance )/Quality Assurance department, which is used to see whether the temperature and humidity of the non-sterile drug production room are well conditioned.Based on the existing problems, it is necessary to have an intelligent system that can monitor temperature and humidity precisely and periodically. One of them is creating an Internet of Things (IoT) Implementation tool for Simulating Temperature and Humidity in a Non-Sterile Medicine Production Room Using an Arduino and Web Based Temperature Sensor ( LM35 ) and Humidity Sensor ( DHT 22 ). This tool will periodically detect the temperature and humidity in each non-sterile drug production room. If the temperature exceeds the maximum limit in the non-sterile drug production room, the fan will turn on to release the hot air inside. All the data that has been collected will be processed by the Arduino Uno R3 Microcontroller and will be displayed on the website as an interface . For early detection, a DC Fan appears on the website that rotates if the temperature exceeds the maximum limit. Data transmission uses ESP8266 as a wireless module .]]>
<![CDATA[Rancang Bangun Sistem Keamanan Pintu Rumah Menggunakan Sidik Jari Sensor Dan Arduino ]]>
<![CDATA[Dani Sasmoko]]>;
<![CDATA[Reni Veliyanti]]>;
<![CDATA[Rizki Hadi]]>
<![CDATA[ Seminar Nasional Teknologi dan Multidisiplin Ilmu (SEMNASTEKMU) Vol 3 No 1 (2023): SEMNASTEKMU ]]>
Publisher : <![CDATA[Universitas Sains dan Teknologi Komputer ]]>
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DOI: 10.51903/semnastekmu.v3i1.203
<![CDATA[Home is an important place for most people, where they need to keep it safe and comfortable from outside interference. Therefore, there is a need for a security system that is able to protect against these disturbances. In this study, fingerprints were used to secure the door of the house, where in the process only the registered fingerprint was allowed to open the door. In table 1 it turns out that wet, wrinkled and peeling fingerprints can still be used and read by the sensor so that concerns that fingerprints cannot be used are refuted. In table 1 it is also proven that the process of opening the door can be done with an Arduino and a fingerprint sensor]]>
<![CDATA[Penerapan Sistem Pengendalian Berbasis IoT (Internet Of Things) Untuk Meningkatkan Efisiensi Proses Pengeringan Pupuk Granul Berbahan Eco Enzim ]]>
<![CDATA[Danang, Danang]]>;
<![CDATA[Sasmoko, Dani]]>;
<![CDATA[Swastuti, Endang]]>
<![CDATA[ Jurnal Pengabdian Pada Masyarakat Indonesia Vol 2 No 5 (2023): Oktober : Jurnal Pengabdian Pada Masyarakat Indonesia ]]>
Publisher : <![CDATA[Universitas Gajah Putih, Indonesia ]]>
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DOI: 10.55542/jppmi.v2i5.884
<![CDATA[In Indonesia, we see a lot of waste in society that can actually still be reused. By using Eco Enzym, the waste can be processed into many derivative products. Residents of RW VII Gombel Permai, Ngesrep Village, Banyumanik District, Semarang have processed this product, but have experienced problems in the drying process, which is still done manually in the sun. The Community Care Team took the initiative to apply IoT technology to this technology-based dryer. The convenience is that using this tool does not require sunlight, uses UV light so it can kill bad bacteria and can be monitored remotely. Residents are enthusiastic about using it because the process is faster, doesn't require too much physical effort and is cheaper to make.]]>
