Performance Analysis of Tags Collection Time on A New Architecture of 2.4 GHz Embedded Active RFID System for Indoor and Outdoor Tracking and Monitoring Applications Based on IEEE 802.15.4 Standard

Po'ad, Farhana Ahmad; Ismail, Widad

doi:10.1007/s11277-017-4955-z

Cited by 6 publications

(3 citation statements)

References 2 publications

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“…Hence, the proposed system with hop by hop owned more sustainable measurement in its collection time than the stand-alone RFID with an ordinary battery. The obtained results are in the same direction as those of Poad, F. A & Ismail, W (2017) [18], and are also consistent with a study of a novel tag collection algorithm for iterative RFID tag collections, which have done by Won-Ju Yoon (2012) [19] as mentioned.…”

Section: Tag Collection Time With Multiple Hopssupporting

confidence: 89%

“…Namely, the time spent on data collection increased according to the number of hops and also related to the amount of information data quantity. The results were consistent with the research done by Poad, F. A. and Ismail, W. in testing multiple hops based on collection utilizing ZigBee protocol networks of a large-scale active RFID deployment [18]. Moreover, it was found that the data reading received by the monitoring reader was completed and highly reliable, as was the same data from the RFID card resource, according to the student's information.…”

Section: Tag Collection Time With Multiple Hopssupporting

confidence: 88%

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Performance Analysis on RFID-Tag Collection Time of Wireless Embedded Access Tracking System on the Internet of Things (IoT) Platform

Boonsong,

Inthasuth,

Kannan

2023

Preprint

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Nowadays, embedded systems are ideas of a microcontroller-based computer hardware system related to wireless sensors of radio frequency identification (RFID) and wireless data communication by machine-to-machine (M2M) concept. This study has three applications: passive RFID, active RFID system, wireless IoT microcontroller, and internet networking communication. All technologies are implemented as a building's wireless access tracking system (WATS). The WATS can track personnel access in the organization or other related applications. The proposed system, which automates personnel access in an organization by automatically tracking access using a passive RFID tags system, works with Internet of Things (IoT) communication. Moreover, the active RFID technology is also involved in the design. The WATS can eliminate time wasted during manual scanning by personnel due to the rush hour on the morning of queueing daily. The WATS was designed to record real-time data tracking. The passive and active RFIDs work together perfectly over the wireless sensor network (WSN). In the study, two proximity passive RFID tags communicate with their reader at 125 kHz and 13.56 MHz frequencies. Two types of passive RFID tags with different frequencies compare the tag collecting time performance. The information was remotely sent to the primary office computer by real-time monitoring. Thus, the experiment results of both types of passive RFID demonstrate that the tag collection time with a single hop between the LF and HF passive RFID tags is different by 16.99%. Moreover, the tag collection time test of multiple hop communication between LF and HF passive RFID tags is 24.32%. The consideration factors are about the attenuation of the environment included.

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Section: Tag Collection Time With Multiple Hopssupporting

confidence: 89%

Section: Tag Collection Time With Multiple Hopssupporting

confidence: 88%

Performance Analysis on RFID-Tag Collection Time of Wireless Embedded Access Tracking System on the Internet of Things (IoT) Platform

Boonsong,

Inthasuth,

Kannan

2023

Preprint

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“…In [12] the authors propose a machine to machine (M2M) communication for indoor and outdoor tracking of objects. An automated switching mechanism between the outdoor and indoor location tracking by integrating the GPS, RFID and GSM technologies on a single device is introduced.…”

Section: Literature Surveymentioning

confidence: 99%

Unified Automotive Location Tracking Using Android Things (IoT)

Dantu

Dasaradha

Sasikumar

2021

Wireless Pers Commun

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Nowadays Transportation is becoming more and more critical. Safer commute and navigation have been the main concerns in this field. Proper Maintenance and Tracking of vehicles is much needed. Internet of Things has been a significant factor in bringing innovations to the transportation field. Traditional tracking of vehicles includes sending the data through GSM with no standard Architecture. Vehicle to Vehicle(V2V) and Vehicle to Infrastructure(V2I) communication cannot be implemented through these traditional methods. Vehicular networks need a typical architecture in-order to communicate with each other. Using Android Things, which is specifically designed for low-power and memoryconstrained IoT devices, one can implement a common architecture and form an Interconnected network. Android apps are designed to help track vehicles and provide navigation to the right users by acquiring authentication from the owners. This method leads to a costeffective implementation and better efficiency than other traditional methods.

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Review of RFID and IoT integration in supply chain management

Tan

Sidhu

2022

Operations Research Perspectives

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Performance Analysis of Tags Collection Time on A New Architecture of 2.4 GHz Embedded Active RFID System for Indoor and Outdoor Tracking and Monitoring Applications Based on IEEE 802.15.4 Standard

Cited by 6 publications

References 2 publications

Performance Analysis on RFID-Tag Collection Time of Wireless Embedded Access Tracking System on the Internet of Things (IoT) Platform

Performance Analysis on RFID-Tag Collection Time of Wireless Embedded Access Tracking System on the Internet of Things (IoT) Platform

Unified Automotive Location Tracking Using Android Things (IoT)

Review of RFID and IoT integration in supply chain management

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