1 / 19

Semantic Interoperability in Multi-Domain Sensor Networks

Semantic Interoperability in Multi-Domain Sensor Networks. ~ A Pitfall in Multi-Domain Sensor Networks ~. Hideya Ochiai and Hiroshi Esaki The University of Tokyo ( CNRS-WIDE Workshop on 2008-10-29 ). Outline. Multi-Domain Sensor Networking Experiences in Live E! Project

neveah
Download Presentation

Semantic Interoperability in Multi-Domain Sensor Networks

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Semantic Interoperabilityin Multi-Domain Sensor Networks ~ A Pitfall in Multi-Domain Sensor Networks ~ Hideya Ochiai and Hiroshi Esaki The University of Tokyo ( CNRS-WIDE Workshop on 2008-10-29 )

  2. Outline • Multi-Domain Sensor Networking • Experiences in Live E! Project • Space of the Semantics • Managing Semantic Interoperability • Summary

  3. Multi-Domain Sensor Networking User in C • Possible: Sharing of sensor data by standard protocols • Question: How to share the semantics of data • Where and How the data were observed. • What the data represents. • Sensor data can be heterogeneous regarding to semantics User in A Organization C Organization A sensor sensor Organization B sensor Semantic interoperability is necessity in multi-domain sensor networking.

  4. Outline • Multi-Domain Sensor Networking • Experiences in Live E! Project • Space of the Semantics • Managing Semantic Interoperability • Summary

  5. << Example >>Experiences in Live E! project Server B Server A Rain Fall Rain Fall Yusuke Prof. Nakayama Close ID: live-e.org/WXT510/03000005c3a2/RainFall Location: ITC roof, The University of Tokyo Owner: Prof. Nakayama SensorVendor: Vaisala SensorModel: WXT510 ID: pc6.nezu.wide.ad.jp/WM918/itc_roof/RainFall Location: ITC roof, The University of Tokyo Owner: Yusuke SensorVendor: AmbientWeather SensorModel: WM918

  6. << Experiences >>RainFall Observed by Vaisala WXT510

  7. << Experiences >>RainFall Observed by WM918

  8. WXT510 WM918 (2008-08-17)

  9. Important Lessons • A user cannot actually use the data without identifying the background difference !! • In the example, the method of observation must be identified. • Structural difference • Sampling rate • Moving average • Accuracy • ... • This is also true to the other semantic differences.

  10. Outline • Multi-Domain Sensor Networking • Experiences in Live E! Project • Space of the Semantics • Managing Semantic Interoperability • Summary

  11. Space of the Semantics 35.8 Location Latitude, Longitude Geographical Address Room No. Location in a room Data observed by a sensor S Time Type of Observation Temperature in ℃ Humidity in % Air Pressure in hPa Surroundings Building, Park Lake, River Road, Tunnel Outside, Inside In front of a kitchen Internal Properties Method of observation Moving average Sampling ratio Accuracy Noise ratio Purpose of Deployment Analysis of heat island phenomenon Flooding protection Facility management

  12. Outline • Multi-Domain Sensor Networking • Experiences in Live E! Project • Space of the Semantics • Managing Semantic Interoperability • Summary

  13. Managing Semantic Interoperability • Consistency of the Description • In-Network Semantics Operation • Transparent Data Delivery • Data Delivery with Transformation

  14. Managing Semantic Interoperability in Multi-Domain Systems Consistency of the Description Inconsistent in Granularity Completely Inconsistent and not useful Syntax level consistency should be guaranteed.

  15. Managing Semantic Interoperability • Consistency of the Description • In-Network Semantics Operation • Transparent Data Delivery • Data Delivery with Transformation

  16. << In-Network Semantics Operation >> Transparent Data Delivery WXT510 WXT510 ( SensorModel ) Space of the Semantics User WM918 WM918 A user can identify the semantics of the data and process them in their own manner Data Flow

  17. << In-Network Semantics Operation >>Data Delivery with Semantics Transformation Semantics Transformation WXT510 User A UA ( SensorModel ) Space of the Semantics WM918 User B UB Data Flow

  18. Outline • Multi-Domain Sensor Networking • Experiences in Live E! Project • Space of the Semantics • Managing Semantic Interoperability • Summary

  19. Summary • Users need the semantics of sensor data.  Semantic interoperability in multi-domain sensor networks. • Management of the semantic space • Very large space • Consistency of the description • Data delivery with/without transformation

More Related