NILE-PDT: A phenomenon detection and tracking framework for data stream management systems

M. H. Ali; W. G. Aref; R. Bose; A. K. Elmagarmid; A. Helal; I. Kamel; M. F. Mokbel

NILE-PDT: A phenomenon detection and tracking framework for data stream management systems

M. H. Ali^*
, W. G. Aref
, R. Bose
, A. K. Elmagarmid
, A. Helal
, I. Kamel
, M. F. Mokbel

^*Corresponding author for this work

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

33 Citations (Scopus)

Abstract

In this demo, we present Nile-PDT, a Phenomenon Detection and Tracking framework using the Nile data stream management system. A phenomenon is characterized by a group of streams showing similar behavior over a period of time. The functionalities of Nile-PDT is split between the Nile server and the Nile-PDT application client. At the server side, Nile detects phenomenon candidate members and tracks their propagation incrementally through specific sensor network operators. Phenomenon candidate members are processed at the client side to detect phenomena of interest to a particular application. Nile-PDT is scalable in the number of sensors, the sensor data rates, and the number of phenomena. Guided by the detected phenomena, Nile-PDT tunes query processing towards sensors that heavily affect the monitoring of phenomenon propagation.

Original language	English
Title of host publication	VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases
Pages	1295-1298
Number of pages	4
Publication status	Published - 2005
Externally published	Yes
Event	VLDB 2005 - 31st International Conference on Very Large Data Bases - Trondheim, Norway Duration: 30 Aug 2005 → 2 Sept 2005

Publication series

Name	VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases
Volume	3

Conference

Conference	VLDB 2005 - 31st International Conference on Very Large Data Bases
Country/Territory	Norway
City	Trondheim
Period	30/08/05 → 2/09/05

Cite this

Ali, M. H., Aref, W. G., Bose, R., Elmagarmid, A. K., Helal, A., Kamel, I., & Mokbel, M. F. (2005). NILE-PDT: A phenomenon detection and tracking framework for data stream management systems. In VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases (pp. 1295-1298). (VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases; Vol. 3).

@inproceedings{d4a4e085d03543cd8db9f6c0afdbbf0a,

title = "NILE-PDT: A phenomenon detection and tracking framework for data stream management systems",

abstract = "In this demo, we present Nile-PDT, a Phenomenon Detection and Tracking framework using the Nile data stream management system. A phenomenon is characterized by a group of streams showing similar behavior over a period of time. The functionalities of Nile-PDT is split between the Nile server and the Nile-PDT application client. At the server side, Nile detects phenomenon candidate members and tracks their propagation incrementally through specific sensor network operators. Phenomenon candidate members are processed at the client side to detect phenomena of interest to a particular application. Nile-PDT is scalable in the number of sensors, the sensor data rates, and the number of phenomena. Guided by the detected phenomena, Nile-PDT tunes query processing towards sensors that heavily affect the monitoring of phenomenon propagation.",

author = "Ali, \{M. H.\} and Aref, \{W. G.\} and R. Bose and Elmagarmid, \{A. K.\} and A. Helal and I. Kamel and Mokbel, \{M. F.\}",

year = "2005",

language = "English",

isbn = "1595931546",

series = "VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases",

pages = "1295--1298",

booktitle = "VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases",

note = "VLDB 2005 - 31st International Conference on Very Large Data Bases ; Conference date: 30-08-2005 Through 02-09-2005",

}

Ali, MH, Aref, WG, Bose, R, Elmagarmid, AK, Helal, A, Kamel, I & Mokbel, MF 2005, NILE-PDT: A phenomenon detection and tracking framework for data stream management systems. in VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases. VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases, vol. 3, pp. 1295-1298, VLDB 2005 - 31st International Conference on Very Large Data Bases, Trondheim, Norway, 30/08/05.

NILE-PDT: A phenomenon detection and tracking framework for data stream management systems. / Ali, M. H.; Aref, W. G.; Bose, R. et al.
VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases. 2005. p. 1295-1298 (VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases; Vol. 3).

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

TY - GEN

T1 - NILE-PDT

T2 - VLDB 2005 - 31st International Conference on Very Large Data Bases

AU - Ali, M. H.

AU - Aref, W. G.

AU - Bose, R.

AU - Elmagarmid, A. K.

AU - Helal, A.

AU - Kamel, I.

AU - Mokbel, M. F.

PY - 2005

Y1 - 2005

N2 - In this demo, we present Nile-PDT, a Phenomenon Detection and Tracking framework using the Nile data stream management system. A phenomenon is characterized by a group of streams showing similar behavior over a period of time. The functionalities of Nile-PDT is split between the Nile server and the Nile-PDT application client. At the server side, Nile detects phenomenon candidate members and tracks their propagation incrementally through specific sensor network operators. Phenomenon candidate members are processed at the client side to detect phenomena of interest to a particular application. Nile-PDT is scalable in the number of sensors, the sensor data rates, and the number of phenomena. Guided by the detected phenomena, Nile-PDT tunes query processing towards sensors that heavily affect the monitoring of phenomenon propagation.

AB - In this demo, we present Nile-PDT, a Phenomenon Detection and Tracking framework using the Nile data stream management system. A phenomenon is characterized by a group of streams showing similar behavior over a period of time. The functionalities of Nile-PDT is split between the Nile server and the Nile-PDT application client. At the server side, Nile detects phenomenon candidate members and tracks their propagation incrementally through specific sensor network operators. Phenomenon candidate members are processed at the client side to detect phenomena of interest to a particular application. Nile-PDT is scalable in the number of sensors, the sensor data rates, and the number of phenomena. Guided by the detected phenomena, Nile-PDT tunes query processing towards sensors that heavily affect the monitoring of phenomenon propagation.

UR - https://www.scopus.com/pages/publications/33745607641

M3 - Conference contribution

AN - SCOPUS:33745607641

SN - 1595931546

SN - 9781595931542

T3 - VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases

SP - 1295

EP - 1298

BT - VLDB 2005 - Proceedings of 31st International Conference on Very Large Data Bases

Y2 - 30 August 2005 through 2 September 2005

ER -

NILE-PDT: A phenomenon detection and tracking framework for data stream management systems

Abstract

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