Modeling Checkpoint-Based Movement with the Earth Mover’s Distance

Matt Duckham; Marc van Kreveld; Ross Purves; Bettina Speckmann; Yaguang Tao; Kevin Verbeek; Jo Wood

doi:10.1007/978-3-319-45738-3_15

Modeling Checkpoint-Based Movement with the Earth Mover’s Distance

Matt Duckham
, Marc van Kreveld
, Ross Purves
, Bettina Speckmann
, Yaguang Tao
, Kevin Verbeek
, Jo Wood

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

Movement data comes in various forms, including trajectory data and checkpoint data. While trajectories give detailed information about the movement of individual entities, checkpoint data in its simplest form does not give identities, just counts at checkpoints. However, checkpoint data is of increasing interest since it is readily available due to privacy reasons and as a by-product of other data collection. In this paper we propose to use the Earth Mover’s Distance as a versatile tool to reconstruct individual movements or flow based on checkpoint counts at different times. We analyze the modeling possibilities and provide experiments that validate model predictions, based on coarse-grained aggregations of data about actual movements of couriers in London, UK. While we cannot expect to reconstruct precise individual movements from highly granular checkpoint data, the evaluation does show that the approach can generate meaningful estimates of object movements.
B. Speckmann and K. Verbeek are supported by the Netherlands Organisation for Scientific Research (NWO) under project nos. 639.023.208 and 639.021.541, respectively. This paper arose from work initiated at Dagstuhl seminar 12512 “Representation, analysis and visualization of moving objects”, December 2012. The authors gratefully acknowledge Schloss Dagstuhl for their support.

Original language	English
Title of host publication	Geographic Information Science
Subtitle of host publication	9th International Conference, GIScience 2016, Montreal, QC, Canada, September 27-30, 2016, Proceedings
Editors	Jennifer A. Miller Miller, David O'Sullivan, Nancy Wiegand
Publisher	Springer
Pages	225-239
Number of pages	15
Edition	1
ISBN (Electronic)	978-3-319-45738-3
ISBN (Print)	978-3-319-45737-6
DOIs	https://doi.org/10.1007/978-3-319-45738-3_15
Publication status	Published - 2016

Publication series

Name	Lecture Notes in Computer Science
Publisher	Springer
Volume	9927
ISSN (Print)	0302-9743
ISSN (Electronic)	1611-3349

Keywords

Gravity Model
Movement Constraint
Metro Station
Minimum Cost Flow
True Flow

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10.1007/978-3-319-45738-3_15

ModelingFinal published version, 2.97 MBLicence: Taverne

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Duckham, M., van Kreveld, M., Purves, R., Speckmann, B., Tao, Y., Verbeek, K., & Wood, J. (2016). Modeling Checkpoint-Based Movement with the Earth Mover’s Distance. In J. A. M. Miller, D. O'Sullivan, & N. Wiegand (Eds.), Geographic Information Science: 9th International Conference, GIScience 2016, Montreal, QC, Canada, September 27-30, 2016, Proceedings (1 ed., pp. 225-239). (Lecture Notes in Computer Science ; Vol. 9927). Springer. https://doi.org/10.1007/978-3-319-45738-3_15

Duckham, Matt ; van Kreveld, Marc ; Purves, Ross et al. / Modeling Checkpoint-Based Movement with the Earth Mover’s Distance. Geographic Information Science: 9th International Conference, GIScience 2016, Montreal, QC, Canada, September 27-30, 2016, Proceedings. editor / Jennifer A. Miller Miller ; David O'Sullivan ; Nancy Wiegand. 1. ed. Springer, 2016. pp. 225-239 (Lecture Notes in Computer Science ).

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title = "Modeling Checkpoint-Based Movement with the Earth Mover{\textquoteright}s Distance",

abstract = "Movement data comes in various forms, including trajectory data and checkpoint data. While trajectories give detailed information about the movement of individual entities, checkpoint data in its simplest form does not give identities, just counts at checkpoints. However, checkpoint data is of increasing interest since it is readily available due to privacy reasons and as a by-product of other data collection. In this paper we propose to use the Earth Mover{\textquoteright}s Distance as a versatile tool to reconstruct individual movements or flow based on checkpoint counts at different times. We analyze the modeling possibilities and provide experiments that validate model predictions, based on coarse-grained aggregations of data about actual movements of couriers in London, UK. While we cannot expect to reconstruct precise individual movements from highly granular checkpoint data, the evaluation does show that the approach can generate meaningful estimates of object movements. B. Speckmann and K. Verbeek are supported by the Netherlands Organisation for Scientific Research (NWO) under project nos. 639.023.208 and 639.021.541, respectively. This paper arose from work initiated at Dagstuhl seminar 12512 “Representation, analysis and visualization of moving objects”, December 2012. The authors gratefully acknowledge Schloss Dagstuhl for their support.",

keywords = "Gravity Model, Movement Constraint, Metro Station, Minimum Cost Flow, True Flow",

author = "Matt Duckham and \{van Kreveld\}, Marc and Ross Purves and Bettina Speckmann and Yaguang Tao and Kevin Verbeek and Jo Wood",

year = "2016",

doi = "10.1007/978-3-319-45738-3\_15",

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Duckham, M, van Kreveld, M, Purves, R, Speckmann, B, Tao, Y, Verbeek, K & Wood, J 2016, Modeling Checkpoint-Based Movement with the Earth Mover’s Distance. in JAM Miller, D O'Sullivan & N Wiegand (eds), Geographic Information Science: 9th International Conference, GIScience 2016, Montreal, QC, Canada, September 27-30, 2016, Proceedings. 1 edn, Lecture Notes in Computer Science , vol. 9927, Springer, pp. 225-239. https://doi.org/10.1007/978-3-319-45738-3_15

Modeling Checkpoint-Based Movement with the Earth Mover’s Distance. / Duckham, Matt; van Kreveld, Marc; Purves, Ross et al.
Geographic Information Science: 9th International Conference, GIScience 2016, Montreal, QC, Canada, September 27-30, 2016, Proceedings. ed. / Jennifer A. Miller Miller; David O'Sullivan; Nancy Wiegand. 1. ed. Springer, 2016. p. 225-239 (Lecture Notes in Computer Science ; Vol. 9927).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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T1 - Modeling Checkpoint-Based Movement with the Earth Mover’s Distance

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AU - van Kreveld, Marc

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AU - Verbeek, Kevin

AU - Wood, Jo

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N2 - Movement data comes in various forms, including trajectory data and checkpoint data. While trajectories give detailed information about the movement of individual entities, checkpoint data in its simplest form does not give identities, just counts at checkpoints. However, checkpoint data is of increasing interest since it is readily available due to privacy reasons and as a by-product of other data collection. In this paper we propose to use the Earth Mover’s Distance as a versatile tool to reconstruct individual movements or flow based on checkpoint counts at different times. We analyze the modeling possibilities and provide experiments that validate model predictions, based on coarse-grained aggregations of data about actual movements of couriers in London, UK. While we cannot expect to reconstruct precise individual movements from highly granular checkpoint data, the evaluation does show that the approach can generate meaningful estimates of object movements. B. Speckmann and K. Verbeek are supported by the Netherlands Organisation for Scientific Research (NWO) under project nos. 639.023.208 and 639.021.541, respectively. This paper arose from work initiated at Dagstuhl seminar 12512 “Representation, analysis and visualization of moving objects”, December 2012. The authors gratefully acknowledge Schloss Dagstuhl for their support.

AB - Movement data comes in various forms, including trajectory data and checkpoint data. While trajectories give detailed information about the movement of individual entities, checkpoint data in its simplest form does not give identities, just counts at checkpoints. However, checkpoint data is of increasing interest since it is readily available due to privacy reasons and as a by-product of other data collection. In this paper we propose to use the Earth Mover’s Distance as a versatile tool to reconstruct individual movements or flow based on checkpoint counts at different times. We analyze the modeling possibilities and provide experiments that validate model predictions, based on coarse-grained aggregations of data about actual movements of couriers in London, UK. While we cannot expect to reconstruct precise individual movements from highly granular checkpoint data, the evaluation does show that the approach can generate meaningful estimates of object movements. B. Speckmann and K. Verbeek are supported by the Netherlands Organisation for Scientific Research (NWO) under project nos. 639.023.208 and 639.021.541, respectively. This paper arose from work initiated at Dagstuhl seminar 12512 “Representation, analysis and visualization of moving objects”, December 2012. The authors gratefully acknowledge Schloss Dagstuhl for their support.

KW - Gravity Model

KW - Movement Constraint

KW - Metro Station

KW - Minimum Cost Flow

KW - True Flow

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M3 - Conference contribution

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A2 - O'Sullivan, David

A2 - Wiegand, Nancy

PB - Springer

ER -

Duckham M, van Kreveld M, Purves R, Speckmann B, Tao Y, Verbeek K et al. Modeling Checkpoint-Based Movement with the Earth Mover’s Distance. In Miller JAM, O'Sullivan D, Wiegand N, editors, Geographic Information Science: 9th International Conference, GIScience 2016, Montreal, QC, Canada, September 27-30, 2016, Proceedings. 1 ed. Springer. 2016. p. 225-239. (Lecture Notes in Computer Science ). doi: 10.1007/978-3-319-45738-3_15

Modeling Checkpoint-Based Movement with the Earth Mover’s Distance

Abstract

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Keywords

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