GruMon: Fast and Accurate Group Monitoring for Heterogeneous Urban Spaces

GruMon: Fast and Accurate Group Monitoring for Heterogeneous Urban Spaces

Real-time monitoring of groups and their rich contexts will be a key building block for futuristic, group-aware mobile services. In this paper, we propose GruMon, a fast and accurate group monitoring system for dense and complex urban spaces. GruMon meets the performance criteria of precise group de...

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Bibliographic Details
Main Authors: SEN, Rijurekha, LEE, Youngki, JAYARAJAH, Kasthuri, BALAN, Rajesh Krishna, MISRA, Archan
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2014
Subjects:
Clustering
Context monitoring
Indoor localization
Smartphone sensors
Social groups
Software Engineering
Online Access:https://ink.library.smu.edu.sg/sis_research/2656
https://ink.library.smu.edu.sg/context/sis_research/article/3656/viewcontent/Grumon_pv.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:Real-time monitoring of groups and their rich contexts will be a key building block for futuristic, group-aware mobile services. In this paper, we propose GruMon, a fast and accurate group monitoring system for dense and complex urban spaces. GruMon meets the performance criteria of precise group detection at low latencies by overcoming two critical challenges of practical urban spaces, namely (a) the high density of crowds, and (b) the imprecise location information available indoors. Using a host of novel features extracted from commodity smartphone sensors, GruMon can detect over 80% of the groups, with 97% precision, using 10 minutes latency windows, even in venues with limited or no location information. Moreover, in venues where location information is available, GruMon improves the detection latency by up to 20% using semantic information and additional sensors to complement traditional spatio-temporal clustering approaches. We evaluated GruMon on data collected from 258 shopping episodes from 154 real participants, in two large shopping complexes in Korea and Singapore. We also tested GruMon on a large-scale dataset from an international airport (containing ≈37K+ unlabelled location traces per day) and a live deployment at our university, and showed both GruMon's potential performance at scale and various scalability challenges for real-world dense environment deployments.

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