TODMIS: Mining Communities from Trajectories

Existing algorithms for trajectory-based clustering usually rely on simplex representation and a single proximity-related distance (or similarity) measure. Consequently, additional information markers (e.g., social interactions or the semantics of the spatial layout) are usually ignored, leading to...

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Main Authors:	LIU, Siyuan, WANG, Shuhui, JAYARAJAH, Kasthuri, MISRA, Archan, KRISHNAN, Rammaya
Format:	text
Language:	English
Published:	Institutional Knowledge at Singapore Management University 2013
Subjects:	Trajectory community discovery multiple information semantic information Software Engineering Theory and Algorithms
Online Access:	https://ink.library.smu.edu.sg/sis_research/1958 https://ink.library.smu.edu.sg/context/sis_research/article/2957/viewcontent/TODMIS_pv_oa.pdf
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Institution:	Singapore Management University
Language:	English

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spelling	sg-smu-ink.sis_research-29572020-04-02T07:34:39Z TODMIS: Mining Communities from Trajectories LIU, Siyuan WANG, Shuhui JAYARAJAH, Kasthuri MISRA, Archan KRISHNAN, Rammaya Existing algorithms for trajectory-based clustering usually rely on simplex representation and a single proximity-related distance (or similarity) measure. Consequently, additional information markers (e.g., social interactions or the semantics of the spatial layout) are usually ignored, leading to the inability to fully discover the communities in the trajectory database. This is especially true for human-generated trajectories, where additional fine-grained markers (e.g., movement velocity at certain locations, or the sequence of semantic spaces visited) can help capture latent relationships between cluster members. To address this limitation, we propose TODMIS: a general framework for Trajectory cOmmunity Discovery using Multiple Information Sources. TODMIS combines additional information with raw trajectory data and creates multiple similarity metrics. In our proposed approach, we first develop a novel approach for computing semantic level similarity by constructing a Markov Random Walk model from the semantically-labeled trajectory data, and then measuring similarity at the distribution level. In addition, we also extract and compute pair-wise similarity measures related to three additional markers, namely trajectory level spatial alignment (proximity), temporal patterns and multi-scale velocity statistics. Finally, after creating a single similarity metric from the weighted combination of these multiple measures, we apply dense sub-graph detection to discover the set of distinct communities. We evaluated TODMIS extensively using traces of (i) student movement data in a campus, (ii) customer trajectories in a shopping mall, and (iii) city-scale taxi movement data. Experimental results demonstrate that TODMIS correctly and efficiently discovers the real grouping behaviors in these diverse settings. 2013-10-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/1958 info:doi/10.1145/2505515.2505552 https://ink.library.smu.edu.sg/context/sis_research/article/2957/viewcontent/TODMIS_pv_oa.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Trajectory community discovery multiple information semantic information Software Engineering Theory and Algorithms
institution	Singapore Management University
building	SMU Libraries
continent	Asia
country	Singapore Singapore
content_provider	SMU Libraries
collection	InK@SMU
language	English
topic	Trajectory community discovery multiple information semantic information Software Engineering Theory and Algorithms
spellingShingle	Trajectory community discovery multiple information semantic information Software Engineering Theory and Algorithms LIU, Siyuan WANG, Shuhui JAYARAJAH, Kasthuri MISRA, Archan KRISHNAN, Rammaya TODMIS: Mining Communities from Trajectories
description	Existing algorithms for trajectory-based clustering usually rely on simplex representation and a single proximity-related distance (or similarity) measure. Consequently, additional information markers (e.g., social interactions or the semantics of the spatial layout) are usually ignored, leading to the inability to fully discover the communities in the trajectory database. This is especially true for human-generated trajectories, where additional fine-grained markers (e.g., movement velocity at certain locations, or the sequence of semantic spaces visited) can help capture latent relationships between cluster members. To address this limitation, we propose TODMIS: a general framework for Trajectory cOmmunity Discovery using Multiple Information Sources. TODMIS combines additional information with raw trajectory data and creates multiple similarity metrics. In our proposed approach, we first develop a novel approach for computing semantic level similarity by constructing a Markov Random Walk model from the semantically-labeled trajectory data, and then measuring similarity at the distribution level. In addition, we also extract and compute pair-wise similarity measures related to three additional markers, namely trajectory level spatial alignment (proximity), temporal patterns and multi-scale velocity statistics. Finally, after creating a single similarity metric from the weighted combination of these multiple measures, we apply dense sub-graph detection to discover the set of distinct communities. We evaluated TODMIS extensively using traces of (i) student movement data in a campus, (ii) customer trajectories in a shopping mall, and (iii) city-scale taxi movement data. Experimental results demonstrate that TODMIS correctly and efficiently discovers the real grouping behaviors in these diverse settings.
format	text
author	LIU, Siyuan WANG, Shuhui JAYARAJAH, Kasthuri MISRA, Archan KRISHNAN, Rammaya
author_facet	LIU, Siyuan WANG, Shuhui JAYARAJAH, Kasthuri MISRA, Archan KRISHNAN, Rammaya
author_sort	LIU, Siyuan
title	TODMIS: Mining Communities from Trajectories
title_short	TODMIS: Mining Communities from Trajectories
title_full	TODMIS: Mining Communities from Trajectories
title_fullStr	TODMIS: Mining Communities from Trajectories
title_full_unstemmed	TODMIS: Mining Communities from Trajectories
title_sort	todmis: mining communities from trajectories
publisher	Institutional Knowledge at Singapore Management University
publishDate	2013
url	https://ink.library.smu.edu.sg/sis_research/1958 https://ink.library.smu.edu.sg/context/sis_research/article/2957/viewcontent/TODMIS_pv_oa.pdf
_version_	1770571704081317888

TODMIS: Mining Communities from Trajectories

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