A demonstration of AQWA: Adaptive query-workload aware partitioning of big spatial data

Ahmed M. Aly; Ahmed S. Abdelhamid; Ahmed R. Mahmood; Walid G. Aref; Mohamed S. Hassan; Hazem Elmeleegy; Mourad Ouzzani

doi:10.14778/2824032.2824113

A demonstration of AQWA: Adaptive query-workload aware partitioning of big spatial data

Ahmed M. Aly, Ahmed S. Abdelhamid, Ahmed R. Mahmood, Walid G. Aref, Mohamed S. Hassan, Hazem Elmeleegy, Mourad Ouzzani

Qatar Computing Research Institute

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

5 Citations (Scopus)

Abstract

The ubiquity of location-aware devices, e.g., smartphones and GPS devices, has led to a plethora of location-based services in which huge amounts of geotagged information need to be efficiently processed by large-scale computing clusters. This demo presents AQWA, an adaptive and query-workload-aware data partitioning mechanism for processing large-scale spatial data. Unlike existing cluster-based systems, e.g., SpatialHadoop, that apply static partitioning of spatial data, AQWA has the ability to react to changes in the query-workload and data distribution. A key feature of AQWA is that it does not assume prior knowledge of the query-workload or data distribution. Instead, AQWA reacts to changes in both the data and the query-workload by incrementally updating the partitioning of the data. We demonstrate two prototypes of AQWA deployed over Hadoop and Spark. In both prototypes, we process spatial range and k-nearest-neighbor (kNN, for short) queries over largescale spatial datasets, and we exploit the performance of AQWA under different query-workloads.

Original language	English
Title of host publication	Proceedings of the VLDB Endowment
Editors	Ki-Joune Li, Simonas Saltenis, Christophe Claramunt
Publisher	Association for Computing Machinery
Pages	1968-1971
Number of pages	4
Volume	8
Edition	12 12
DOIs	https://doi.org/10.14778/2824032.2824113
Publication status	Published - 2015
Event	3rd Workshop on Spatio-Temporal Database Management, STDBM 2006, Co-located with the 32nd International Conference on Very Large Data Bases, VLDB 2006 - Seoul, Korea, Republic of Duration: 11 Sept 2006 → 11 Sept 2006

Conference

Conference	3rd Workshop on Spatio-Temporal Database Management, STDBM 2006, Co-located with the 32nd International Conference on Very Large Data Bases, VLDB 2006
Country/Territory	Korea, Republic of
City	Seoul
Period	11/09/06 → 11/09/06

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10.14778/2824032.2824113

Cite this

Aly, A. M., Abdelhamid, A. S., Mahmood, A. R., Aref, W. G., Hassan, M. S., Elmeleegy, H., & Ouzzani, M. (2015). A demonstration of AQWA: Adaptive query-workload aware partitioning of big spatial data. In K.-J. Li, S. Saltenis, & C. Claramunt (Eds.), Proceedings of the VLDB Endowment (12 12 ed., Vol. 8, pp. 1968-1971). Association for Computing Machinery. https://doi.org/10.14778/2824032.2824113

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title = "A demonstration of AQWA: Adaptive query-workload aware partitioning of big spatial data",

abstract = "The ubiquity of location-aware devices, e.g., smartphones and GPS devices, has led to a plethora of location-based services in which huge amounts of geotagged information need to be efficiently processed by large-scale computing clusters. This demo presents AQWA, an adaptive and query-workload-aware data partitioning mechanism for processing large-scale spatial data. Unlike existing cluster-based systems, e.g., SpatialHadoop, that apply static partitioning of spatial data, AQWA has the ability to react to changes in the query-workload and data distribution. A key feature of AQWA is that it does not assume prior knowledge of the query-workload or data distribution. Instead, AQWA reacts to changes in both the data and the query-workload by incrementally updating the partitioning of the data. We demonstrate two prototypes of AQWA deployed over Hadoop and Spark. In both prototypes, we process spatial range and k-nearest-neighbor (kNN, for short) queries over largescale spatial datasets, and we exploit the performance of AQWA under different query-workloads.",

author = "Aly, \{Ahmed M.\} and Abdelhamid, \{Ahmed S.\} and Mahmood, \{Ahmed R.\} and Aref, \{Walid G.\} and Hassan, \{Mohamed S.\} and Hazem Elmeleegy and Mourad Ouzzani",

year = "2015",

doi = "10.14778/2824032.2824113",

language = "English",

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booktitle = "Proceedings of the VLDB Endowment",

publisher = "Association for Computing Machinery",

address = "United States",

edition = "12 12",

note = "3rd Workshop on Spatio-Temporal Database Management, STDBM 2006, Co-located with the 32nd International Conference on Very Large Data Bases, VLDB 2006 ; Conference date: 11-09-2006 Through 11-09-2006",

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Aly, AM, Abdelhamid, AS, Mahmood, AR, Aref, WG, Hassan, MS, Elmeleegy, H & Ouzzani, M 2015, A demonstration of AQWA: Adaptive query-workload aware partitioning of big spatial data. in K-J Li, S Saltenis & C Claramunt (eds), Proceedings of the VLDB Endowment. 12 12 edn, vol. 8, Association for Computing Machinery, pp. 1968-1971, 3rd Workshop on Spatio-Temporal Database Management, STDBM 2006, Co-located with the 32nd International Conference on Very Large Data Bases, VLDB 2006, Seoul, Korea, Republic of, 11/09/06. https://doi.org/10.14778/2824032.2824113

A demonstration of AQWA: Adaptive query-workload aware partitioning of big spatial data. / Aly, Ahmed M.; Abdelhamid, Ahmed S.; Mahmood, Ahmed R. et al.
Proceedings of the VLDB Endowment. ed. / Ki-Joune Li; Simonas Saltenis; Christophe Claramunt. Vol. 8 12 12. ed. Association for Computing Machinery, 2015. p. 1968-1971.

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

TY - CHAP

T1 - A demonstration of AQWA

T2 - 3rd Workshop on Spatio-Temporal Database Management, STDBM 2006, Co-located with the 32nd International Conference on Very Large Data Bases, VLDB 2006

AU - Aly, Ahmed M.

AU - Abdelhamid, Ahmed S.

AU - Mahmood, Ahmed R.

AU - Aref, Walid G.

AU - Hassan, Mohamed S.

AU - Elmeleegy, Hazem

AU - Ouzzani, Mourad

PY - 2015

Y1 - 2015

N2 - The ubiquity of location-aware devices, e.g., smartphones and GPS devices, has led to a plethora of location-based services in which huge amounts of geotagged information need to be efficiently processed by large-scale computing clusters. This demo presents AQWA, an adaptive and query-workload-aware data partitioning mechanism for processing large-scale spatial data. Unlike existing cluster-based systems, e.g., SpatialHadoop, that apply static partitioning of spatial data, AQWA has the ability to react to changes in the query-workload and data distribution. A key feature of AQWA is that it does not assume prior knowledge of the query-workload or data distribution. Instead, AQWA reacts to changes in both the data and the query-workload by incrementally updating the partitioning of the data. We demonstrate two prototypes of AQWA deployed over Hadoop and Spark. In both prototypes, we process spatial range and k-nearest-neighbor (kNN, for short) queries over largescale spatial datasets, and we exploit the performance of AQWA under different query-workloads.

AB - The ubiquity of location-aware devices, e.g., smartphones and GPS devices, has led to a plethora of location-based services in which huge amounts of geotagged information need to be efficiently processed by large-scale computing clusters. This demo presents AQWA, an adaptive and query-workload-aware data partitioning mechanism for processing large-scale spatial data. Unlike existing cluster-based systems, e.g., SpatialHadoop, that apply static partitioning of spatial data, AQWA has the ability to react to changes in the query-workload and data distribution. A key feature of AQWA is that it does not assume prior knowledge of the query-workload or data distribution. Instead, AQWA reacts to changes in both the data and the query-workload by incrementally updating the partitioning of the data. We demonstrate two prototypes of AQWA deployed over Hadoop and Spark. In both prototypes, we process spatial range and k-nearest-neighbor (kNN, for short) queries over largescale spatial datasets, and we exploit the performance of AQWA under different query-workloads.

UR - https://www.scopus.com/pages/publications/84953862216

U2 - 10.14778/2824032.2824113

DO - 10.14778/2824032.2824113

M3 - Chapter

AN - SCOPUS:84953862216

VL - 8

SP - 1968

EP - 1971

BT - Proceedings of the VLDB Endowment

A2 - Li, Ki-Joune

A2 - Saltenis, Simonas

A2 - Claramunt, Christophe

PB - Association for Computing Machinery

Y2 - 11 September 2006 through 11 September 2006

ER -

A demonstration of AQWA: Adaptive query-workload aware partitioning of big spatial data

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