scholarly journals Implementing Smart Attendance system using IoT

2020 ◽  
Vol 9 (3) ◽  
pp. 1635-1637
Keyword(s):  
Radio Frequency ◽  
Integrated Circuit ◽  
Raspberry Pi ◽  
Rfid Tag ◽  
Rfid Reader ◽  
Radio Frequency Signals

In schools and colleges, lot of time is wasted for manual attendance procedures, in such cases our system provides an automated attendance marking system. Every student will be provided with a RFID tag/card with his/her details fed in it and everyone’s tag is unique to others. This data is stored in the tag by modulating and demodulating transmitted radio frequency signals with the help of a built in integrated circuit. As soon as a student places his/her card in front of the RFID reader, the data in it is read and attendance for that student will be registered. This is done with the help of a raspberry pi interfaced with the reader. We can view the attendance status for every student obtained from the excel sheet that is generated. Thus lot of time is saved in providing attendance.

scholarly journals Rancang Bangun Sistem Pengaman Sepeda Motor Menggunakan Radio Frequency Identification (RFID) dan Notifikasi Melalui Handphone

2019 ◽  
Vol 8 (1) ◽  
pp. 13-19
Author(s):  
Meli Mildawati ◽  
Wildian Wildian
Keyword(s):  
Radio Frequency ◽  
Radio Frequency Identification ◽  
Reed Switch ◽  
Rfid Tag ◽  
Rfid Reader ◽  
Frequency Identification ◽  
Arduino Uno

Sistem pengaman sepeda motor menggunakan radio frequency identification (RFID) dan notifikasi melalui handphone yang dikontrol dengan modul Arduino Uno telah dirancang bangun. RFID terdiri dari sebuah RFID tag dan RFID reader. RFID tag yang memiliki kode yang berbeda-beda, digunakan sebagai kunci untuk menghidupkan sepeda motor setelah kunci kontak digunakan. RFID reader dapat membaca tag pada jarak maksimal 1,26 cm. Sepeda motor yang dihidupkan tanpa menggunakan RFID tag atau RFID tag tidak sesuai menyebabkan aktifnya reed switch pada pelek roda depan. Ketika roda telah berputar sebanyak empat kali, maka alarm aktif dan GSM SIM 800L mengirimkan notifikasi berupa SMS sebanyak satu kali dan misscall sebanyak tiga kali ke nomor handphone pemilik sepeda motor. Waktu delay rata-rata SMS dan miscall berturut-turut adalah 5,42 s, 8,62 s, 61,14 s dan 113,16 s. Kata kunci: sistem pengaman sepeda motor, RFID, Arduino Uno , reed switch, GSM SIM 800L

The Design of Passive RFID Reader System Based on MF RC500

2014 ◽  
Vol 1022 ◽  
pp. 135-138
Author(s):  
Song Lin Huang ◽  
Jian Zhong Cui
Keyword(s):  
Radio Frequency ◽  
Automatic Identification ◽  
Human Intervention ◽  
The Third ◽  
Rfid Reader ◽  
Radio Frequency Signals ◽  
Passive Rfid ◽  
Transfer Of Information ◽  
Electronic Tags ◽  
Reader System

RFID is a technology that uses radio frequency signals coupled to the space (alternating magnetic or electromagnetic), to achieve the purpose of non-contact transfer of information and automatic identification. In this paper, RFID reader system is designed based on the MF RC500. Compared with the automatic identification technology such as the barcodes, magnetic cards and IC cards, The RFID reader has many outstanding advantages: firstly, it is safe and suitable for high security terminal. The second, a plurality of electronic tags can be recognized simultaneously. The third, there is no mechanical wear. The fourth, it is convenient to use with non-contact operation and without human intervention when identifying.

scholarly journals Iot Based Smart Wallet Security and Fake Currency Detection System

2019 ◽  
Vol 8 (9S2) ◽  
pp. 30-34
Keyword(s):  
Detection System ◽  
Mobile App ◽  
Security System ◽  
Raspberry Pi ◽  
Rfid Technology ◽  
Rfid Tag ◽  
Rfid Reader ◽  
The Status

The main objective is to create a security system for wallet based on RFID technology and also keep an account of how much money is coming inside and going out of the wallet which is done using tcs3200 colour sensor by which we can have an account of the amount of money spent and update the same on the mobile app. So, this project basically alerts the person if the wallet is missing from his/her pocket and also shares the location of the same and also gives the information of how much he/she has spent. The major components used in this paper include Raspberry PI, RFID Reader, RFID Tag, GPS Module, and TCS3200 Colour Sensor. Whenever the RFID card is placed near to the reader, the RFID reader obtains the UID (unique key) information about the card. The location of the wallet is obtained using the GPS Module. This detail is notified to user when the wallet is not connected. The status obtained by the RFID reader and the GPS module is collected by Raspberry PI. Using the PI’s WIFI, the details are posted onto the cloud. All the details posted onto the cloud are accessed via the APP and also through a website portal in case of any emergency

scholarly journals Long-Range Monitoring System with PDMS Material

2018 ◽  
Vol 10 (3) ◽  
pp. 974
Author(s):  
Norsaidah Muhamad Nadzir ◽  
M. K. A. Rahim ◽  
F. Zubir ◽  
H. A. Majid
Keyword(s):  
Monitoring System ◽  
Long Range ◽  
Raspberry Pi ◽  
Uhf Rfid ◽  
Long Distance ◽  
Rfid Tag ◽  
Rfid Reader

This paper describes the development of a long range monitoring system that integrates Cottonwood: UHF Long Distance RFID reader module with Raspberry Pi 3. When a UHF RFID tag is within the UHF RFID reader antenna’s range, the unique ID of the tag will be transferred to the Raspberry Pi 3 to be processed. Then, the data will be sent over to the database wirelessly to be managed, stored, and displayed. The paper also describes the measurement done to determine the most suitable thickness of PDMS material so that it could be incorporated as a wearable transponder. After the result is calculated and tabulated, it can be concluded that the most suitable thickness of PDMS material for the transponder is 8 mm.

scholarly journals APLIKASI ABSENSI PENYIAR RADIO DENGAN MENGGUNAKAN TEKNOLOGI RFID (RADIO FREQUENCY IDENTIFICATION) BERBASIS WEB STUDI KASUS RADIO POLNES FM

2019 ◽  
Vol 10 (2) ◽  
pp. 1
Author(s):  
Fimanisa Arianingrum ◽  
Farindika Metandi
Keyword(s):  
Radio Frequency ◽  
Radio Frequency Identification ◽  
Ip Address ◽  
Rfid Tag ◽  
Rfid Reader ◽  
Frequency Identification ◽  
Arduino Uno

Selama ini sistem manajemen yang ada di Radio Polnes FM masih bersifat manual salah satunya ialah absensi. Kordinator Radio harus melihat berkas absen yang masih dicatat dengan menggunakan tulisan tangan. Sehingga diperlukan suatu aplikasi absensi yang dapat memudahkan penyiar dan kordinator. Oleh sebab itu peneliti membangun sebuah sistem Absensi Penyiar Radio menggunakan Teknologi RFID (Radio Frequency Identification). Alat yang digunakan pada penelitian ini adalah RFID RC-522, Arduino uno, dan Ethernet shield. Sementara, untuk tools yang digunakan adalah Bahasa pemrograman php dan Arduino. Percobaan keberhasilan RFID reader membaca RFID tag, pengambilan data dan tersimpannya data kedalam database melalui sebuah mikrokontroler berupa Ethernet Shield. Kesimpulan dari hasil penelitian ini adalah RFID reader dapat membaca RFID tag dan Ethernet Shield bisa bekerja mengirim kode data RFID kedalam database melaui sebuah IP address yang nantinya kode tersebut ditampilkan kedalam sistem.

scholarly journals Automatic Authorized Access and Unauthorized Denied Security Data Maintenance for Organization Using RFID Technology

2019 ◽  
pp. 1051-1057 ◽  
Author(s):  
Qutubud Din ◽  
Akhtar Sayed ◽  
Fida Husain Yousafzai ◽  
Jiong Yu
Keyword(s):  
Radio Frequency ◽  
Radio Frequency Identification ◽  
Integrated Circuit ◽  
Rfid Tags ◽  
Rfid Technology ◽  
Rfid Reader ◽  
Frequency Identification ◽  
Pass Through ◽  
User Friendly ◽  
Authorized Access

Using of this latest RFID (Radio Frequency Identification) technology for an organization to improve the efficiency of organization security and maintain the record automatically. Security is the biggest challenge for everything and everywhere it’s the first priority of organization responsible authorities and they must provide the best way to deal these problems with full confidence. With help of RFID Technology it’s more easy and faster to identify the object is authorized or unauthorized to access or denied from the restricted premises. RFID Technology based on two components RFID Reader (Interrogator) & RFID Tags (Transponder). The tag contains an integrated circuit a unique number that number is assign to the object and it’s become the identification I’D of the object. This is used for processing data, modulating and demodulating the radio frequency signal that is being transmitted to RFID Reader, RFID reader read the tag and send the query to database for comparison of information which are exist in the existing database. The tag information is stored in the database the database is pass the query to micro controller the micro controller is perform operation on the base of object requirement and send back the information to database. The developed software performing functionality automatic and authentic. RFID Tags used as ID (identification number) registered in database is presenting the organization concerned object to allow access to the restricted premises otherwise denied the access inside the organization and saved all movement which pass through at the entrance and provide easily understandable, user-friendly and flexible interface for user. Maintain and update all information automatically. To minimize manually checking and record maintenance headache.

scholarly journals Tracking in product delivery using portable RFID with arduine

2020 ◽  
Vol 9 (10) ◽  
pp. e7529109298
Author(s):  
Laio Souza Pontes de Carvalho ◽  
José Fábio de Lima Nascimento ◽  
Daniel Nascimento-e-Silva
Keyword(s):  
Radio Frequency ◽  
Low Cost ◽  
Rfid Tags ◽  
Rfid Tag ◽  
Rfid Reader ◽  
Lcd Display ◽  
Product Delivery ◽  
Three Stages ◽  
Materials Used ◽  
Product Specifications

This study aimed to develop a device for traceability of the goods delivery process, using radio frequency technology (RFID), which will inform the date, time and location where the goods are being delivered to the end customer. The methodology used consisted of three stages: 1) data collection through a portable collector along with RFID tags, 2) data processing by the microcontroller and 3) carrying out the consultation of the information contained in the tag through the communication between the RFID and the Arduino, whose product traceability was carried out through radio frequency sending information via GSM; while the materials used were 1 mega arduino board, 1 6m Neo GPS shield, 1 Sim 900 module, 1 RC522 RFID reader, 1 16x2 graphic LCD display and 1 keychain RFID tag. For testing the sending of date, time, product specifications and location information via SMS to the registered cell phone at the time of product delivery, operations were carried out in different locations with different dates and times and the messages were sent without fail. The results confirmed the display of the information “Data Collected Successfully” on the LCD display, after the reading of the LCD label by the collector. The proposed prototype proved to be effective, managing to control the delivery of low-cost goods through passive tag on a portable RFID reader.

scholarly journals PEMANFAATAN TEKNOLOGI RFID (RADIO FREQUENCY IDENTIFICATION) DALAM LAYANAN REGISTRASI REKAM MEDIS PASIEN

2016 ◽  
Vol 7 (1) ◽  
pp. 241
Author(s):  
Patrisius Kusi Olla
Keyword(s):  
Radio Frequency ◽  
Radio Frequency Identification ◽  
Human Error ◽  
Rfid Tag ◽  
Rfid Reader ◽  
Frequency Identification ◽  
Standard Card

Penelitian ini bertujuan mengembangkan sebuah aplikasi yang memanfaatkan teknologi RFID (Radio Frequency Identification) dalam layanan rumah sakit untuk pengelolaan layanan pendaftaran dan pencatatan rekam medis pasien. Berdasarkan studi pendahuluan mengenai layanan registrasi rekam medis pada rumah sakit, ditemukan permasalahan yaitu tugas staf pengelolaan unit pendaftaran lebih rumit karena pendataan pasien masih dilakukan secara manual, masih terdapat kesalahan pencatatan karena human error, penelusuran pasien membutuhkan waktu yang lama dan kurang efektif. Untuk mengurangi permasalahan tersebut, dikembangkan aplikasi RFID dalam layanan pencatatan dan registrasi rekam medis. Penelitian ini diawali dengan melakukan analisis sistem yang saat ini berjalan. Pengembangan aplikasi menggunakan perangkat RFID Read/Write yang terdiri dari RF Reader CV6600-USB SDK dengan frekuensi 13,56 MHz dan RFID Tag menggunakan MIFARE Standard Card MF1 ICS50. Sedangkan perangkat lunak aplikasi yang dikembangkan dalam penelitian ini menggunakan bahasa pemrograman visual Borland Delphi 7. Hasil penelitian menunjukkan bahwa RFID Tag jenis MIFARE standard card 1Kbyte termasuk tipe read or write mampu menyimpan informasi riwayat medis pasien. Penerapan sistem layanan rumah sakit dengan memanfaatkan teknologi identifikasi berbasis RFID memiliki indikasi perkembangan yang baik terhadap upaya peningkatan kualitas pelayanan, khususnya bagian pendaftaran dan unit pencatatan rekam medis. Kata kunci: registrasi pasien, RFID, reader, tag, rekam medis, penelusuran pasien.

scholarly journals Prototipe Akses Pintu Masuk Stadion Terintegrasi dengan Kartu RFID sebagai Tiket Berbasis Arduino Uno

2019 ◽  
Vol 7 (3) ◽  
pp. 415
Author(s):  
HIDAYAT NUR ISNIANTO ◽  
ADAM AGUSTIAN
Keyword(s):  
Radio Frequency ◽  
Mechanical System ◽  
Radio Frequency Identification ◽  
Rfid Tags ◽  
Rfid Tag ◽  
Rfid Reader ◽  
Optimal Distance ◽  
Frequency Identification ◽  
Arduino Uno ◽  
Sd Card

ABSTRAKSepak bola merupakan olah raga yang digemari masyarakat sebagai hiburan. Di stadion sering dijumpai penonton tanpa tiket atau dengan tiket palsu, sehingga menyebabkan kerugian penyelenggara. Pada makalah ini dibuat prototipe akses masuk stadion dengan mengimplementasikan Radio  Frequency Identification (RFID) untuk tiket dan kunci akses pintu masuk stadion, dengan tujuan mencegah penonton masuk ke stadion dengan tiket palsu atau tanpa tiket, dan tiket dapat dimanfaatkan kembali. Sistem ini menggunakan RFID tag berbentuk kartu sebagai tiket dan dibaca dengan RFID Reader RDM 6300 untuk dibandingkan dengan data yang disimpan pada SD Card, jika sesuai maka solenoid aktif dan penonton dapat masuk stadion, sedangkan jika tidak sesuai, maka pintu stadion tidak dapat dibuka. Dari hasil pengujian, sistem mekanik dapat berfungsi sesuai dengan yang diharapkan dan seluruh RFID tag dapat dikenali dalam jarak optimal 3 cm. Keseluruhan pengguna yang telah terdaftar dapat membuka pintu.Kata kunci: Tiket, Stadion, Arduino, RFID, RDM6300 ABSTRACTFootball is a sport that is loved by society as an entertainment. In stadiums, there are often spectators without tickets or with fake tickets, causing losses to the organizers. In this paper a prototype of stadium entrance access was made by implementing Radio Frequency Identification (RFID) for tickets and access keys to stadium entrances, with the aim of preventing viewers from entering the stadium with fake tickets or no tickets, and tickets can be reused. This system uses cardshaped RFID tags as tickets and is read with an RDM 6300 RFID Reader to be compared with data stored on the SD Card, if it matches then the solenoid is active and the viewer can enter the stadium, whereas if it is not appropriate, the stadium door cannot be opened. From the results of testing, the mechanical system can function as expected and the entire RFID tag can be identified at an optimal distance of 3 cm. All registered users can open the door.Keywords: Ticket, Stadium, Arduino, RFID, RDM6300

10 TRACEABILITY SYSTEM FOR AN INDIVIDUAL FROZEN SEMEN STRAW BY A TINY RADIO FREQUENCY IDENTIFICATION CHIP

2012 ◽  
Vol 24 (1) ◽  
pp. 116
Author(s):  
Y. Hoshino ◽  
K. Mukojima ◽  
N. Minami ◽  
H. Imai
Keyword(s):  
Radio Frequency ◽  
Radio Frequency Identification ◽  
Artificial Insemination ◽  
Rfid Tag ◽  
Traceability System ◽  
Rfid Reader ◽  
Client Software ◽  
Database Server ◽  
Frozen Semen ◽  
Frequency Identification

A traceability of frozen semen straws that certify the bloodline of a sire will improve the efficiency of cattle breeding. Semen of the sire can be generally identified by the colour of a straw and printing on a straw. However, it is difficult to identify individual frozen semen straws by the conventional method. To identify straws individually, each straw must be tagged with a unique ID that is able to be read quickly in the frozen state. We have established the identification method for individual frozen semen straws using radio frequency identification (RFID) and developed a traceability system that is able to record the distribution history of an individual semen straw from the production of frozen semen to artificial insemination (AI). We used a 2.5-mm diameter straw combined with an RFID tag, which consisted of a tiny RFID chip (μ-Chip: Hitachi Co. Ltd, 0.4 × 0.4 × 0.2 mm) and a thin aluminum antenna on the polyester sheet (54 × 1.5 × 0.05 mm). The μ-chip contains a unique ID (128 bit). It responds to the 2.45 GHz microwave frequency that is emitted from the RFID reader and transmits its ID to the RFID reader. The μ-Chip retains its function on a straw, which has been stored in the liquid nitrogen (–196°C). Artificial insemination of the frozen semen straw with the RFID tag could be performed using a conventional AI gun. The semen traceability system consisted of the database server and the client software. Information about semen straws is connected with their ID and stored on the database server. Producers and distributors of frozen semen can count the number of semen straws correctly by reading their ID one by one and can send information to the database server through the web by easy operation using the client software. Artificial insemination information can be instantly recorded by the handy terminal that is able to read both a bar-code on the ear tag of the cow and the RFID tag of the straw. The system has been used on fields at Gifu Prefecture in Japan for ∼3 months. Eight hundred thirty-one frozen semen straws with the RFID tag were produced from 3 bulls. After freezing of the straws, 17 straws were not identified with their ID. It was speculated that their μ-Chips were disconnected from the antenna during freezing. Six hundred ninety-four straws were distributed to the 7 AI centers. Five hundred thirty straws were used for AI by 15 inseminators to a total of 424 cows at the 101 farms. Although only one straw could not read its ID after AI, information of the remaining 529 straws were recorded on the database accurately. A strict traceability of frozen semen straws can be established using the individual identification of straws by RFID. Information stored in the database would be useful for the evaluation of sire and the reproductive management of cows. This work was supported by a grant from the Ministry of Agriculture, Forestry and Fisheries of Japan (MAFF).

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