Collision Mitigation algorithm for tracking of RFID based assets in Defence

Collision Mitigation algorithm for tracking of RFID based assets in Defence

INTRODUCTION: Asset tracking plays a crucial role in Military warehouses, deploying RFID system will be beneficial. When an RFID reader scans multiple tags in the Military warehouse, the missing tags and redundant tag problem occurs due to the signal interferences. To overcome these issues of missin...

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Autores principales: C. Hema, Sharmila Sankar
Formato: article
Lenguaje:EN
Publicado: European Alliance for Innovation (EAI) 2021
Materias:
rfid
reader collision
tag collision
cuckoo search based clustering protocol
linear classifier
hill climbing
Science
Q
Mathematics
QA1-939
Electronic computers. Computer science
QA75.5-76.95
Acceso en línea:https://doaj.org/article/3d6f1fb3eb7a4f688d5c36e77b09e56f
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spelling oai:doaj.org-article:3d6f1fb3eb7a4f688d5c36e77b09e56f2021-11-30T11:07:23ZCollision Mitigation algorithm for tracking of RFID based assets in Defence2032-944X10.4108/eai.9-3-2021.168963https://doaj.org/article/3d6f1fb3eb7a4f688d5c36e77b09e56f2021-11-01T00:00:00Zhttps://eudl.eu/pdf/10.4108/eai.9-3-2021.168963https://doaj.org/toc/2032-944XINTRODUCTION: Asset tracking plays a crucial role in Military warehouses, deploying RFID system will be beneficial. When an RFID reader scans multiple tags in the Military warehouse, the missing tags and redundant tag problem occurs due to the signal interferences. To overcome these issues of missing tags and redundant tags, we proposed Cuckoo Search-based Clustering Protocol (CSCP) followed by linear classifier algorithm.OBJECTIVES: The primary objective of this paper is reducing the collision problems in military warehouse.METHODS: In this paper, we propose Cuckoo Search-based Clustering Protocol (CSCP), where cluster heads deleteduplicate data and sends processed data to the base station, Later the TDMA-based graph colouring technique is implemented to prevent reader collision issues in the RFID network. The Linear Classifier algorithm first separates similar data for classification, which in turn reduces the collision occurrence of missing tags and redundant tags. CONCLUSION: In the RFID deployed military warehouse, cluster head readers are selected, and clusters are created. Readers are scheduled to read information from tags in the cluster using the TDMA-based graph coloring algorithm. The linear classifier algorithm classifies the weapon’s data and filters the redundant weapon’s data in RFID deployed military environment.C. HemaSharmila SankarEuropean Alliance for Innovation (EAI)articlerfidreader collisiontag collisioncuckoo search based clustering protocollinear classifierhill climbingScienceQMathematicsQA1-939Electronic computers. Computer scienceQA75.5-76.95ENEAI Endorsed Transactions on Energy Web, Vol 8, Iss 36 (2021)
institution DOAJ
collection DOAJ
language EN
topic rfid
reader collision
tag collision
cuckoo search based clustering protocol
linear classifier
hill climbing
Science
Q
Mathematics
QA1-939
Electronic computers. Computer science
QA75.5-76.95
spellingShingle rfid
reader collision
tag collision
cuckoo search based clustering protocol
linear classifier
hill climbing
Science
Q
Mathematics
QA1-939
Electronic computers. Computer science
QA75.5-76.95
C. Hema
Sharmila Sankar
Collision Mitigation algorithm for tracking of RFID based assets in Defence
description INTRODUCTION: Asset tracking plays a crucial role in Military warehouses, deploying RFID system will be beneficial. When an RFID reader scans multiple tags in the Military warehouse, the missing tags and redundant tag problem occurs due to the signal interferences. To overcome these issues of missing tags and redundant tags, we proposed Cuckoo Search-based Clustering Protocol (CSCP) followed by linear classifier algorithm.OBJECTIVES: The primary objective of this paper is reducing the collision problems in military warehouse.METHODS: In this paper, we propose Cuckoo Search-based Clustering Protocol (CSCP), where cluster heads deleteduplicate data and sends processed data to the base station, Later the TDMA-based graph colouring technique is implemented to prevent reader collision issues in the RFID network. The Linear Classifier algorithm first separates similar data for classification, which in turn reduces the collision occurrence of missing tags and redundant tags. CONCLUSION: In the RFID deployed military warehouse, cluster head readers are selected, and clusters are created. Readers are scheduled to read information from tags in the cluster using the TDMA-based graph coloring algorithm. The linear classifier algorithm classifies the weapon’s data and filters the redundant weapon’s data in RFID deployed military environment.
format article
author C. Hema
Sharmila Sankar
author_facet C. Hema
Sharmila Sankar
author_sort C. Hema
title Collision Mitigation algorithm for tracking of RFID based assets in Defence
title_short Collision Mitigation algorithm for tracking of RFID based assets in Defence
title_full Collision Mitigation algorithm for tracking of RFID based assets in Defence
title_fullStr Collision Mitigation algorithm for tracking of RFID based assets in Defence
title_full_unstemmed Collision Mitigation algorithm for tracking of RFID based assets in Defence
title_sort collision mitigation algorithm for tracking of rfid based assets in defence
publisher European Alliance for Innovation (EAI)
publishDate 2021
url https://doaj.org/article/3d6f1fb3eb7a4f688d5c36e77b09e56f
work_keys_str_mv AT chema collisionmitigationalgorithmfortrackingofrfidbasedassetsindefence
AT sharmilasankar collisionmitigationalgorithmfortrackingofrfidbasedassetsindefence
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