A Framework for Mining Actionable Navigation Patterns from In-Store RFID Datasets via Indoor Mapping
With the quick development of RFID technology and the decreasing prices of RFID devices, RFID is becoming widely used in various intelligent services. Especially in the retail application domain, RFID is increasingly adopted to capture the shopping tracks and behavior of in-store customers. To furth...
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2015-03-01
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doaj-4d727a10573b4525890b30cd82fd41722020-11-24T21:05:42ZengMDPI AGSensors1424-82202015-03-011535344537510.3390/s150305344s150305344A Framework for Mining Actionable Navigation Patterns from In-Store RFID Datasets via Indoor MappingBin Shen0Qiuhua Zheng1Xingsen Li2Libo Xu3Ningbo Institute of Technology, Zhejiang University, Ningbo 315100, ChinaSchool of Computer Science and Technology, Hangzhou Dianzi University, Hangzhou 310018, ChinaNingbo Institute of Technology, Zhejiang University, Ningbo 315100, ChinaNingbo Institute of Technology, Zhejiang University, Ningbo 315100, ChinaWith the quick development of RFID technology and the decreasing prices of RFID devices, RFID is becoming widely used in various intelligent services. Especially in the retail application domain, RFID is increasingly adopted to capture the shopping tracks and behavior of in-store customers. To further enhance the potential of this promising application, in this paper, we propose a unified framework for RFID-based path analytics, which uses both in-store shopping paths and RFID-based purchasing data to mine actionable navigation patterns. Four modules of this framework are discussed, which are: (1) mapping from the physical space to the cyber space, (2) data preprocessing, (3) pattern mining and (4) knowledge understanding and utilization. In the data preprocessing module, the critical problem of how to capture the mainstream shopping path sequences while wiping out unnecessary redundant and repeated details is addressed in detail. To solve this problem, two types of redundant patterns, i.e., loop repeat pattern and palindrome-contained pattern are recognized and the corresponding processing algorithms are proposed. The experimental results show that the redundant pattern filtering functions are effective and scalable. Overall, this work builds a bridge between indoor positioning and advanced data mining technologies, and provides a feasible way to study customers’ shopping behaviors via multi-source RFID data.http://www.mdpi.com/1424-8220/15/3/5344RFIDindoor mappingshopping transaction path miningdata preprocessingfiltering redundant patternsframework |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Bin Shen Qiuhua Zheng Xingsen Li Libo Xu |
spellingShingle |
Bin Shen Qiuhua Zheng Xingsen Li Libo Xu A Framework for Mining Actionable Navigation Patterns from In-Store RFID Datasets via Indoor Mapping Sensors RFID indoor mapping shopping transaction path mining data preprocessing filtering redundant patterns framework |
author_facet |
Bin Shen Qiuhua Zheng Xingsen Li Libo Xu |
author_sort |
Bin Shen |
title |
A Framework for Mining Actionable Navigation Patterns from In-Store RFID Datasets via Indoor Mapping |
title_short |
A Framework for Mining Actionable Navigation Patterns from In-Store RFID Datasets via Indoor Mapping |
title_full |
A Framework for Mining Actionable Navigation Patterns from In-Store RFID Datasets via Indoor Mapping |
title_fullStr |
A Framework for Mining Actionable Navigation Patterns from In-Store RFID Datasets via Indoor Mapping |
title_full_unstemmed |
A Framework for Mining Actionable Navigation Patterns from In-Store RFID Datasets via Indoor Mapping |
title_sort |
framework for mining actionable navigation patterns from in-store rfid datasets via indoor mapping |
publisher |
MDPI AG |
series |
Sensors |
issn |
1424-8220 |
publishDate |
2015-03-01 |
description |
With the quick development of RFID technology and the decreasing prices of RFID devices, RFID is becoming widely used in various intelligent services. Especially in the retail application domain, RFID is increasingly adopted to capture the shopping tracks and behavior of in-store customers. To further enhance the potential of this promising application, in this paper, we propose a unified framework for RFID-based path analytics, which uses both in-store shopping paths and RFID-based purchasing data to mine actionable navigation patterns. Four modules of this framework are discussed, which are: (1) mapping from the physical space to the cyber space, (2) data preprocessing, (3) pattern mining and (4) knowledge understanding and utilization. In the data preprocessing module, the critical problem of how to capture the mainstream shopping path sequences while wiping out unnecessary redundant and repeated details is addressed in detail. To solve this problem, two types of redundant patterns, i.e., loop repeat pattern and palindrome-contained pattern are recognized and the corresponding processing algorithms are proposed. The experimental results show that the redundant pattern filtering functions are effective and scalable. Overall, this work builds a bridge between indoor positioning and advanced data mining technologies, and provides a feasible way to study customers’ shopping behaviors via multi-source RFID data. |
topic |
RFID indoor mapping shopping transaction path mining data preprocessing filtering redundant patterns framework |
url |
http://www.mdpi.com/1424-8220/15/3/5344 |
work_keys_str_mv |
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