RFID Based Networked Gate Entry Control System (GECS)

International Journal of Scientific Research in Computer Science, Engineering and Information Technology, 2019

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.

International Journal of Latest Research in Engineering and Technology, 2016

Door security has been a great concern of worldwide. As the technology is emerging in every second, abundant security systems have been developed and implemented to keep their welfare safe. Door security system is an essential mean of protecting our space from illegal invasion. This is done by preventing unauthorized entrance into buildings through entrance doors. Thus, the main idea in this research is to design a database security system that allows only authorized user to enter the premises depend on the limited time period. This research describes the design of Radio Frequency Identification (RFID) based security and database access control system for use in entrance of Department Door inside the University campus. The system combines RFID technology, keypad and also combine with database management system to accomplish the required task. Such a database management system with a user-friendly graphical interface or graphical user interface (GUI) begets to more secure and more facilitate the user. This research presents one such system that has been developed for the entrance door of the Department. The system facilitates efficient management of secure place, as well as easy edition of user records together with their attribute information; it provides update a user's record. Database used in this system can easily be update by using limited software application. The communication between the entrance points with central office by means of wireless technology. Limitation of user's check in time period is modified by Real Time Clock (RTC). In this door security system, Arduino MEGA is used for the purposes of storing user information, identifying whether authorized person or not, checking limitation time zone and emergency case.

Radio Frequency Identification (RFID) technology is a smart object tracking and automated data collection solution. It provides a contact less data link, without need for line-of-sight or concerns about harsh or dirty environments that restrict other auto (Identity) ID technologies such as bar codes. RFID is a technology that uses radio waves to transfer data from an electronic tag, called RFID tag or label, attached to an object, through a reader for the purpose of identifying and tracking the object. RFID technology which is a matured technology that has been widely deployed by various organizations as part of their automation systems. In this research, an RFID based system has been built in order to produce a time-attendance management system. RFID systems consist of two main components: Transponder (tag) located in the object for identification, and Interrogator (or reader), which allows the data transfer to and from the transponder. This system consists of two main parts which include: the hardware and the software. The hardware consists of the motor unit and the RFID reader. The RFID reader, which is a low-frequency reader, is connected to the host computer via a serial to USB converter cable. The Time-Attendance System (Graphic User Interface) GUI was developed using visual basic.Net. The Time-Attendance Management System provides the functionalities of the overall system such as displaying live ID tags transactions, registering ID, deleting ID, recording attendance and other minor functions. This interface is housed in the host computer.

res publication, 2012

Radio-frequency identification (RFID) is a technology that uses radio waves to transfer data from an electronic tag, called RFID tag or label, attached to an object, through a reader for the purpose of identifying and tracking the object. RFID technology which is a matured technology that has been widely deployed by various organizations as part of their automation systems. In this study, an RFID based system has been built in order to produce a time-attendance management system. This system consists of two main parts which include: the hardware and the software. The hardware consists of the motor unit and the RFID reader. The RFID reader, which is a low-frequency reader (125 kHz), is connected to the host computer via a serial to USB converter cable. The Time-Attendance System GUI was developed using visual basic.Net. The Time-Attendance Management System provides the functionalities of the overall system such as displaying live ID tags transactions, registering ID, deleting ID, recording attendance and other minor functions. This interface was installed in the host computer.

Radio-frequency identification (RFID) is a technology that uses radio waves to transfer data from an electronic tag, called RFID tag or label, attached to an object, through a reader for the purpose of identifying and tracking the object. RFID technology which is a matured technology that has been widely deployed by various organizations as part of their automation systems. In this study, an RFID based system has been built in order to produce a time-attendance management system. This system consists of two main parts which include: the hardware and the software. The hardware consists of the motor unit and the RFID reader. The RFID reader, which is a low-frequency reader (125 kHz), is connected to the host computer via a serial to USB converter cable. The Time-Attendance System GUI was developed using visual basic.Net. The Time-Attendance Management System provides the functionalities of the overall system such as displaying live ID tags transactions, registering ID, deleting ID, recording attendance and other minor functions. This interface was installed in the host computer.

RFID is a nascent technology, deeply rooted by its early developments in using radar 1 as a harbinger of adversary planes during World War II. A plethora of industries have leveraged the benefits of RFID technology for enhancements in sectors like military, sports, security, airline, animal farms, healthcare and other areas. Industry specific key applications of this technology include vehicle tracking, automated inventory management, animal monitoring, secure store checkouts, supply chain management, automatic payment, sport timing technologies, etc. This paper introduces the distinctive components of RFID technology and focuses on its core competencies: scalability and security. It will be then supplemented by a detailed synopsis of an investigation conducted to test the feasibility and practicality of RFID technology.

IJCIRAS, 2020

Private organizations tabulate the monthly working hours of employees and calculate wages based on the number of hours registered in the office. Employee login and logout times must be respect in various locations (including universities, businesses, and industries). The traditional attendance system manually signs and keeps the record is hand-recorded. Radio Frequency Identification (RFID) based attendance record systems can be used in any Business organization. The proposed is an attendance record system in which the system can make the presence and absence of the person and store the same files. The target system consists of detailed records that also update the time in the day, month, year, hour, minute, and second formats. The system can always save the record of attendance in a hard disk drive. The main objective of the RFID based Attendance System is to take the attendance of employees and storing the attendance of the respective person in the Excel File. The whole system designed on the Arduino platform together with the RFID module and PLX-DAQ software.

—Recently, students attendance have been considered as one of the crucial elements or issues that reflects the academic achievements and the performance contributed to any university compared to the traditional methods that impose time-consuming and inefficiency. Diverse automatic identification technologies have been more in vogue such as Radio Frequency Identification (RFID). An extensive research and several applications are produced to take maximum advantage of this technology and bring about some concerns. RFID is a wireless technology which uses to a purpose of identifying and tracking an object via radio waves to transfer data from an electronic tag, called RFID tag or label to send data to RFID reader. The current study focuses on proposing an RFID based Attendance Management System (AMS) and also information service system for an academic domain by using RFID technology in addition to the programmable Logic Circuit (such as Arduino), and web-based application. The proposed system aims to manage student's attendance recording and provides the capabilities of tracking student absentee as well, supporting information services include students grading marks, daily timetable, lectures time and classroom numbers, and other student-related instructions provided by faculty department staff. Based on the results, the proposed attendance and information system is time-effective and it reduces the documentation efforts as well as, it does not have any power consumption. Besides, students attendance RFID based systems that have been proposed are also analyzed and criticized respect to systems functionalities and main findings. Future directions for further researchers are focused and identified.

2019

Automated Barrier Gate System by Using RFID is to develop a system that able to detect the tag that has given to Sekolah Sukan Malaysia Pahang (SSMP) students and staffs who already registered for the vehicle access to SSMP campus and this tag is used for checking in and checking out. This system also able to increase a safety protection in particular secured area and also can prevent unwanted access. However, this system is mainly for students and staffs. When a user scans a tag at the RFID reader when passing by the barrier gate the system will stored the details of users which is name, id number, vehicle number, time and date of access. There is some place that will be still using manually operated barrier gate system. Manually operated barrier gate system will not updating the information of user who is using the system. Besides that, there will be a lot of wasting time since a security guard have to check the user manually whether they are Sekolah Sukan Malaysia Pahang students...

2020

The purpose of this dissertation was to use a microcontroller similar to the ones mentioned above in order to build an administrator anagement application for controlling members, inputs and payments of a smaller business or organization, including all the necessary logic for managing and modifying data such as displaying reports enrolling or leaving specific groups, buying items and keeping track of the members in general. Apart from Arduino, other interesting and trending concepts and technologies were used, such as the ever-growing RFID (radio-frequency identification) technology, whereby digital data is captured or encoded using radio-waves to be further processed. A Liquid Screen Display and a Buzzer connected to a breadboard also accompany the hardware. The application was developed in Visual Studio 2018 using Microsoft SQL Server to support database management.