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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly (University of Pittsburgh & Yahoo, Inc.) In collaboration with Anandha Gopalan (University of Pittsburgh, Imperial College) and Jerry Zhao, Adel Youssef (Google, Inc.)
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 2 Motivation: Real-Time Geo-Centric Sensor Network Applications Globally deployed sensor around the globe. Clusters of sensors forming networks. Mobile users roaming across the networks. Real-time geo-centric ad-hoc queries issued from within or nearby the queried area. The sensor network is responsible of answering these queries directly from the sensors rather than from base stations. Examples: Bronx Zoo cluster. Disaster management cluster.
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 3 Motivation: Real-Time Geo-Centric Sensor Network Applications
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 4 Data Storage Options in Sensor Networks Base Station Storage: Events are sent to base stations where queries are issued and evaluated. Best suited for continuous queries. In-Network Storage (INS): Events are stored in the sensor nodes. Best suited for ad-hoc queries. All previous INS schemes were Data-Centric Storage (DCS) schemes.
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 5 In-Network Data-Centric Storage (DCS) Mainly to answer range queries. Quality of Data (QoD) of ad-hoc queries. Assign a value-range of readings for each sensor. Examples: Distributed Hash Tables (DHT) [Shenker et. al., HotNets’02] Geographic Hash Tables (GHT) [Ratnasamy et. al., WSNA’02] Distributed Index for Multi-dimensional data (DIM) [Li et. al., SenSys’03, Aly et. al., DMSN’05, MOBIQUITOUS’06] K-D Tree based Data-Centric Storage (KDDCS) [Aly et. al., CIKM’06]
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 6 STDCS Overview Motivation: No previous INS schemes adopting geo-centric storage. Expected techniques may be: Local storage. Spatial storage Design Goal: Load-Balancing of storage load among sensors Differences from previous schemes: Temporally evolving spatial indexing scheme to balance query load among sensors. Dynamic query hotspot detection and decomposition.
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 7 Roadmap Motivation: Real-Time Geo-Centric applications. Background: Data-Centric Storage (DCS). Problem Statement: Real-Time Geo-Centric Storage. Scheme Overview: STDCS. STDCS Components Local Virtual address assignment Spatio-Temporal data indexing. Point-to-point data delivery. Query processing. Adaptive hotspot decomposition. Experimental Results Conclusions
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 8 STDCS Components: Local Virtual Address Assignment
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 9 STDCS Components: Spatio-Temporal Data Indexing
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 10 STDCS Components: Reading Delivery and Querying
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 11 STDCS Components: Adaptive Hotspot Decomposition Motivation: Dynamic query hotspots as time progresses. Observation: Recurrent querying scenarios across the day, the week, etc. Technique: Continuously keeping track of hotspots using the Average Querying Frequency (AQF) metric. Dynamically chaning the switching time to decompose hotspots.
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 12 Roadmap Motivation: Real-Time Geo-Centric applications. Background: Data-Centric Storage (DCS). Problem Statement: Real-Time Geo-Centric Storage. Scheme Overview: STDCS. STDCS Components Local Virtual address assignment Spatio-Temporal data indexing. Point-to-point data delivery. Query processing. Adaptive hotspot decomposition. Experimental Results Conclusions
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 13 Simulation Description Compare: STDCS, local storage, spatial indexing. A cluster of stationary sensors (with random locations). Each sensor senses a reading each 10 min. Sensor reading = 1 packet. Sensor capacity = 20 readings (packets) Multiple mobile users. A query: random sensor, radius, and type. Two phases: initialization (3 hours of readings) & running (1 day of readings and queries). Metrics: throughput, energy level, node deaths.
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 14 Experimental Results: STDCS vs. Query Hotspots
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 15 Experimental Results: STDCS vs. Query Hotspots
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 16 Experimental Results: Switching Time Effect
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 17 Experimental Results: Switching Time vs. Node Deaths
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 18 Experimental Results: Adaptive Hotspot Decomposition
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 19 Conclusions STDCS: A real-time geo-centric data storage scheme. A new concept of spatio-temporal data indexing. Ability to dynamically cope with dynamic loads and query hotspots.
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 20 Acknowledgment This work has been partly supported by: Google, Inc. The “Secure CITI: A Secure Critical Information Technology Infrastructure for Disaster Management (S- CITI)” project funded through the ITR Medium Award ANI- 0325353 from the National Science Foundation (NSF). For more information, please visit: http://www.cs.pitt.edu/s-citi/
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STDCS: A Spatio-Temporal Data-Centric Storage Scheme For Real-Time Sensornet Applications Mohamed Aly 21 Thank You Questions ?
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