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An approach to Intelligent Information Fusion in Sensor Saturated Urban Environments Charalampos Doulaverakis Centre for Research and Technology Hellas.

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Presentation on theme: "An approach to Intelligent Information Fusion in Sensor Saturated Urban Environments Charalampos Doulaverakis Centre for Research and Technology Hellas."— Presentation transcript:

1 An approach to Intelligent Information Fusion in Sensor Saturated Urban Environments Charalampos Doulaverakis Centre for Research and Technology Hellas Informatics and Telematics Institute EISIC 2011, 12 September 2011

2 Informatics and Telematics Institute EISIC 2011 Presentation outline Introduction System architecture Low-level fusion capabilities High-level fusion capabilities Implementation and use cases Conclusions 2

3 Informatics and Telematics Institute EISIC 2011 Introduction Today, large scale employments of sensor applications  Urban area WikiCity, CitySense, Google Latitude Materialization of concepts like  M2M, Internet of Things 3

4 Informatics and Telematics Institute EISIC 2011 Introduction Sensor applications could also be used for critical urban security surveillance Difficulties  Multiple distributed heterogeneous components  Sensor processing  Signal processing  Automation Other approaches  Either do not accommodate A/V processing or are cumbersome  Use Semantic Web but do not provide full framework 4

5 Informatics and Telematics Institute EISIC 2011 Urban security surveillance environments Sensor saturated environments  Difficult to manage and observe Densely populated areas  Difficult discovery of important events Multiple processing algorithms  Methods to manage the data they produce Variety of sensor modalities  Data heterogeneity 5

6 Informatics and Telematics Institute EISIC 2011 Our approach Comprises a multi-level fusion system, at all JDL levels Seamlessly blends ontologies with low- level information databases Combines semantic web middleware with sensor networks middleware 6

7 Informatics and Telematics Institute EISIC 2011 Architecture 7

8 Informatics and Telematics Institute EISIC 2011 Architecture Semantic web and ontologies  Efficiently handle heterogeneous information  Model domain knowledge Class definition and relations  Support automated reasoning Infer facts Provide the backbone of intelligent sensor fusion 8

9 Informatics and Telematics Institute EISIC 2011 Architecture 9

10 Informatics and Telematics Institute EISIC 2011 Low level fusion (LLF) Enabled through Global Sensor Network, GSN  Java based  Introduces “virtual sensors”  Supports information collection and integration Supports LLF through an SQL-like language 10

11 Informatics and Telematics Institute EISIC 2011 Low level fusion (LLF) Integration challenges  Signal processing and distributed computing have to be brought together  Integration is non trivial Algorithms have to communicate with GSN servers through web services/sockets which poses overheads 11

12 Informatics and Telematics Institute EISIC 2011 High level fusion (HLF) Enabled by Virtuoso Universal Server 12

13 Informatics and Telematics Institute EISIC 2011 Ontology for HLF Situation Theory Ontology 13 Ex. “Critical event near important infrastructure”

14 Informatics and Telematics Institute EISIC 2011 Mapping data to RDF 2 ways of mapping relational data to RDF Push method  Data are semantically annotated as soon as they are generated. Implemented by each virtual sensor alone Pull method  Data are associated to ontological entities. Implemented at a central high level node and runs through a scheduler Additional data that come from external services are also mapped to RDF  e.g. Environmental Service 14

15 Informatics and Telematics Institute EISIC 2011 Reasoning Use of  Class/subclass reasoning  Owl:sameAs  Further extended by rules First 2 are supported by Virtuoso Rules are supported by Jena Both can be used on the same framework 15

16 Informatics and Telematics Institute EISIC 2011 Reasoning Dataset volume issue  Continuous sensor feeds produce large amounts of data  Tackled through the use of time frames Dealing with RDF quads In the case of integration of systems that use ontologies, ontology mapping has to be defined 16

17 Informatics and Telematics Institute EISIC 2011 Implementation 2 sensor processing modules are integrated  Body tracker generates number of persons present in a scene  Smoke detector detects smoke particles 17

18 Informatics and Telematics Institute EISIC 2011 Implementation Body tracker integration, similar for Smoke detector 18

19 Informatics and Telematics Institute EISIC 2011 Implementation For LLF an event is triggered when the WHERE condition is true For HLF in a Semantic Node the difference is that ontology and reasoning is used  e.g. a rule or construct query would state: ”If smoke is detected near an object then raise an alarm” 19

20 Informatics and Telematics Institute EISIC 2011 Implementation, use case Scenario where Environmental Service is deployed  Gives data for locations, queried in real time  Enables geospatial inference  Data from low level processing are used for higher level decisions Different levels of criticality  Smoke near petrol station is a critical situation  Smoke event related to a celebration is not critical All above are associated with a security agenda to infer threat level 20

21 Informatics and Telematics Institute EISIC 2011 Implementation, use case Process  Sensor processing data are mapped to RDF (smoke detection, body tracker)  Environmental Service is called real time to give location of events, cameras -> mapped to RDF  Reasoner associates events with criticality factor 21

22 Informatics and Telematics Institute EISIC 2011 Implementation, use case 22

23 Informatics and Telematics Institute EISIC 2011 Conclusions We presented a framework for intelligent information fusion in sensor networks Deal with all aspects above sensor layer  Perception modules integration  Communication of the perception modules with GSN  Low level fusion  High level fusion with integration of semantic description of information  Communication with external services  Situation assessment and alert generation Generic framework that can be applied to other domains Future work  Deal with probabilistic reasoning Resolution of conflicts and deal with missing detections 23

24 Informatics and Telematics Institute EISIC 2011 24 Thank you for your attention CERTH/ITI http://mklab.iti.gr

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