Electronic equipment made using old technology or electronic equipment in the entry-level category has not been supported by networking equipment, so for the data communication process, the microcontroller requires interfacing facilities that are in accordance with the electronic equipment used, such as a USB port. With the microcontroller that supports IoT, it allows electronic equipment to communicate over the network. An IoT microcontroller such as the ESP32 is equipped with a WiFi feature but is not equipped with a USB controller feature, while the USB Host max3421e supports the communication process using SPI, so that those two microcontrollers can be used to form an interface using the SPI bus. This interface can be applied to electronic equipment with old technology and entry level electronic equipment for wireless communication. For the needs of making an interface between the ESP32 and max3421e, a software was developed by analyzing the SPI features of the ESP32 and the USB protocol according to the USB device state diagram. The results obtained are the handshake process between systems developed with USB devices in the Low-Speed and Full-Speed categories such as printers, flashdisk, bluetooth mouse and external hard disk, and the device descriptor data of each device tested can be read properly.
Dalam situasi pandemi Covid-19, roda perekonomian harus tetap berjalan dengan mengedepankan protokol kesehatan. Melansir dari keputusan menteri kesehatan bahwa setiap kantor di Indonesia yang tetap melaksakan Work From Office selama PSBB berlangsung maka harus melakukan pengukuran suhu tubuh, menyediakan hand sanitizer dengan konsentrasi alkohol minimal 70% atau menyediakan sarana cuci tangan di depan pintu masuk. Masalah yang sering terjadi adalah pengukuran suhu tubuh masih dilakukan secara manual oleh satpam kantor, dan tidak terbiasanya para karyawan untuk menggunakan hand sanitizer. Sebagai upaya pendisiplinan karyawan, maka dirancang prototype pintu otomatis yang hanya bisa terbuka jika suhu tubuh normal dan karyawan sudah menggunakan hand sanitizer. Deteksi suhu tubuh dilakukan menggunakan sensor suhu MLX90614 dan deteksi objek tangan menggunakan sensor infrared. Pintu geser digerakkan oleh Stepper Motor NEMA 17, pintu secara otomatis akan terbuka ketika suhu terdeteksi normal, jika tidak maka buzzer akan berbunyi dan pintu tetap tertutup. Hasil dari penelitian ini memperoleh hasil pengujian keakuratan sensor suhu MLX90614 sebesar 96.8%, posisi tangan optimal yaitu posisi tangan menengadah dengan jarak 1cm terhadap sensor, dan volume hand sanitizer yang cukup untuk mengcover seluruh telapak tangan dewasa adalah pada delay 500 ms yaitu sebesar 2.2991 gram. During the Covid-19 pandemic, the economics activities must go on with strict health protocols. From the recommendation of health ministry, that every office in Indonesia that still performs Work From Office during the pandemic, temperature measurements must be carried out at the entrance to the office and hand sanitizer that contains minimum of 70% alcohol or hand washing facilities must be provided as well. The problem is that body temperature measurements are still done manually by security officer, and some employees are still not familiar to use hand sanitizer periodically. As an option to make employees discipline, a prototype of automatic door is designed in this research. It can only open if the body temperature of employee is normal and the employee has used hand sanitizer. Body temperature detection is carried out by using the MLX90614 temperature sensor and hand object detection will utilize infrared sensor. The sliding door is driven by the NEMA 17 Stepper Motor, the door will automatically open when the temperature is detected normally, otherwise the buzzer will sound and the door will be still closed. From the testing results in this research, the accuracy of the MLX90614 temperature sensor is 96.8%, the optimal position of the hand is 1 cm from the sensor with looking up position. And the volume of the hand sanitizer that is sufficient to cover all adult palms with 500 ms delay is 2.2991 grams.
In order for underwater wireless sensor networks to communicate more efficiently, MAC protocols are needed to control the use of acoustic channels. With the high propagation delay and the limited bandwidth available on the acoustic channel, a specially designed MAC protocol is needed for UWASN (Underwater Acoustic Sensor Networks). In this research, the adaptation of Cooperative MAC for underwater (CoopMAC-U) will be further studied to test the protocol performance. In the previous research, CoopMAC-U was simulated yet the fairness of the transmission was not simulated and tested. In this research, CoopMAC-U will be studied further and improved. The simulation result shows that the Improved CoopMAC-U protocol produces better-normalized throughput than the initial version of CoopMAC-U. The protocol is also proven that it is backward compatible between conventional mode and cooperative mode. For offered load greater than 0.2, both the initial version of CoopMAC-U and the Improved CoopMAC-U result in stagnant normalized throughputs but the improved ones double the value of the initial version.
Abstrak Banyak cara untuk mengetahui keberadaan para dosen dan mahasiswa pada saat aktifitas perkuliahan, mulai dari cara lama menggunakan kertas lembar presensi, menggunakan barcode hingga cara yang sudah terkomputerisasi. Dan permasalahan yang sering timbul dalam Politeknik Negeri Malang adalah perhitungan absensi yang memakan waktu lama dan membutuhkan usaha ekstra untuk merekap data dari lembar absensi mahasiswa pada setiap kelas. Pada penelitian ini, sistem absensi akan menggunakan teknologi RFID (Radio Frequency Identification). Dimana setiap dosen dan mahasiswa akan memliki tag RFID dengan nomor identitas masing-masing yang akan digunakan untuk melakukan absensi. Tag RFID tersebut akan dipindai dan data yang didapat akan disimpan pada database berupa nama, tanggal, hari, jam hadir dan jam keluar. Dari data tersebut akan diolah shingga dapat diketahui jumlah kehadiran dosen, absensi, dan jumlah kompensasi dari mahasiswa. Pada penelitian ini kinerja, kecepatan, jarak jangkau dan ketahanan dari noise diteliti menggunakan aplikasi Wireshark. Dan didapatkan bahwa sistem dapat berjalan dengan waktu yang sangat singkat, waktu rata-rata yang digunakan untuk mengirimkan data adalah 447ms dan masih dapat bekerja meskipun terhalang oleh kertas dengan ketebalan dibawah 2.8cm. Sehingga dengan menggunakan aplikasi ini, proses absensi dan proses perhitungan kompensasi yang semula cukup lama dan membutuhkan usaha ekstra dapat dilakukan dengan cepat dan efisien. Abstract There are many ways to find out the whereabouts of lecturers and students during lecture activities, like using old method by writing in presence sheet paper, using barcodes or using computerized methods. And the problem that often arises in the State Polytechnic of Malang is the calculation of attendance which takes a long time and requires extra effort to recap the data from student attendance sheets in each class. In this study, the attendance system will use RFID (Radio Frequency Identification) technology. Where each lecturer and student will have an RFID tag with their respective identity numbers which will be used for attendance. The RFID tag will be scanned and the data obtained will be stored in the database in the form of name, date, day, time of attendance and time out. From this data, it will be processed so that it can be seen the number of lecturers' attendance, attendance, and the amount of compensation for each students. In this study, the performance, speed, range and resistance of noise were examined using the Wireshark application. And it was found that the system can run in a very short time, the average time used to transmit data is 447ms and can still work even though it is hindered by paper with a thickness below 2.8cm. so that by using this application, the attendance process and the process of calculating compensation, which were quite long and required extra effort, can be done quickly and efficiently.
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