RANCANG BANGUN SISTEM PRESENSI OTOMATIS MENGGUNAKAN RADIO FREQUENCY IDETIFICATION (RFID) BERBASIS INTERNET OF THINGS (IOT) DENGAN METODE PROTOTYPING DAN USABILITY TESTING (STUDI KASUS: LABORATORIUM TEKNIK INDUSTRI UIN SUNAN KALIJAGA)

Maulida Taqwa Amarullah, NIM.: 20106060040 (2024) RANCANG BANGUN SISTEM PRESENSI OTOMATIS MENGGUNAKAN RADIO FREQUENCY IDETIFICATION (RFID) BERBASIS INTERNET OF THINGS (IOT) DENGAN METODE PROTOTYPING DAN USABILITY TESTING (STUDI KASUS: LABORATORIUM TEKNIK INDUSTRI UIN SUNAN KALIJAGA). Skripsi thesis, UIN SUNAN KALIJAGA YOGYAKARTA.

Preview	Text (RANCANG BANGUN SISTEM PRESENSI OTOMATIS MENGGUNAKAN RADIO FREQUENCY IDETIFICATION (RFID) BERBASIS INTERNET OF THINGS (IOT) DENGAN METODE PROTOTYPING DAN USABILITY TESTING (STUDI KASUS: LABORATORIUM TEKNIK INDUSTRI UIN SUNAN KALIJAGA)) 20106060040_BAB-I_IV-atau-V_DAFTAR-PUSTAKA.pdf - Published Version Download (2MB) | Preview
	Text (RANCANG BANGUN SISTEM PRESENSI OTOMATIS MENGGUNAKAN RADIO FREQUENCY IDETIFICATION (RFID) BERBASIS INTERNET OF THINGS (IOT) DENGAN METODE PROTOTYPING DAN USABILITY TESTING (STUDI KASUS: LABORATORIUM TEKNIK INDUSTRI UIN SUNAN KALIJAGA)) 20106060040_BAB-II_sampai_SEBELUM-BAB-TERAKHIR.pdf - Published Version Restricted to Registered users only Download (9MB) | Request a copy

Abstract

The industrial revolution 4.0, also known as cyber physical system (CPS), focuses on automation in conventional work activities and collaboration with cyber technology as the basis for combining information and communication technology in the industrial sector. The fundamental technology in the industrial revolution 4.0 includes the Internet of Things (IoT), which is a concept for expanding the benefits of internet connectivity in a sustainable manner. The manual presence and recapitulation system that is currently running in a series of practicum activities in the industrial engineering integrated laboratory at Sunan Kalijaga State Islamic University, Yogyakarta, is an activity that is ineffective and inefficient and allows errors in input (human error). Based on the shortcomings of the manual system, the researcher intends to design an automatic practicum attendance system using Internet of Things (IoT) based radio frequency identification (RFID) sensors. The system design uses a prototyping method which allows the basis of the system design to be adjusted to the user's desires and needs. In addition, the design process stages are also carried out repeatedly until the user feels that the system can meet their needs. Apart from that, there is also a quality function deployment approach which is useful for translating user desires into technical specifications for components in the system. As well as an anthropometric ergonomics approach as a basis for placing the system so that users feel safe and comfortable when using it. The measurement of user satisfaction indicators is calculated using the system usability scale (SUS) where users carry out usability testing of the system and assess it according to the questions asked. The results of SUS can show user satisfaction with the system. The results of this research show that the user's assessment of the system with the SUS questionnaire obtained a SUS score of 83.5 so that it was interpreted that the system had grade A, an adjective value of excellent, a good acceptance level of "acceptable", and was included in the promoter class. And it is in the 90-95% percentile range. This shows that the automated attendance system that has been implemented can be well received by users, and has a good level of usability that can meet the needs and desires of users.

Share this knowledge with your friends :

Actions (login required)

View Item