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Bibliography

[b‐Balazinska] Balazinska, M., Deshpande, A., J. Franklin M., B. Gibbons, P., Gray, J., Nath, S., Hansen,
M., Liebhold, M., Szalay, A., and Tao, V., Data Management in the worldwide sensor web [J].
IEEE Pervasive Computing, 2010, 6(2): 30‐40. [Online] Retrieved from: [22.05.2014]
[b‐Chanier] Chanier, F, Checchin, P., Blanc, C., et al., Map fusion based on a multi‐map SLAM
framework [C]//Multisensor Fusion and Integration for Intelligent Systems, 2008. MFI 2008.
IEEE International Conference on. IEEE, 2008: 533‐538. [Online] Retrieved from:
[18.12.2013]
[b‐Chena] Chen, C., and Helal, S., Sifting Through the Jungle of Sensor Standards [J], IEEE Pervasive
Computing, 2008, 7:84‐88. [Online] Retrieved from: [16.05.2014]

[b‐Chenb] Chen, N., Chen, Z., and Hu, C., A capability matching and ontology reasoning method for
high precision OGC web service discovery [J], International Journal of Digital Earth, 2011,
4(6):449‐470. [Online] Retrieved from: [23.02.2014]

[b‐Chenc] Chen, N., Di, L., Yu, G., and Gong, J., Automatic on‐demand data feed service for autochem
based on reusable geo‐processing workflow [J], IEEE Journal of Selected Topics in Applied
Earth Observations and Remote Sensing, 2010a, 3(4): 418‐426. [Online] Retrieved from:
[19.04.2014]

[b‐Chend] Chen, N., Di, L., Yu, G., Gong, J., and Wei, Y., Use of ebRIM‐based CSW with sensor
observation services for registry and discovery of remote‐sensing observations [J],
Computers & Geosciences, 2009a, 35: 360‐372. [Online] Retrieved from: [27.02.2014]
[b‐Chene] Chen, N., Di, L., Yu, G. and Min, M., A flexible geospatial sensor observation service for
diverse sensor data based on Web service [J], ISPRS Journal of Photogrammetry and Remote
Sensing, 2009b, 64(2): 234‐242. [Online] Retrieved from: [12.05.2014]
[b‐Chenf] Chen, N., and Hu, C., A sharable and interoperable meta‐model for atmospheric satellite
sensors and observations [J], IEEE Journal of Selected Topics in Applied Earth Observation
And Remote Sensing, 2012, 5(5): 1519‐1530. [Online] Retrieved from: [19.04.2014]

[b‐Cheng] Chen, N., Hu, C., Chen, Y., Wang, C., and Gong, J., Using SensorML to construct a
geoprocessing e‐Science workflow model under a sensor web environment [J], Computers &
Geoscience, 2011, 11(27): 1016‐1025. [Online] Retrieved from: [27.03.2014]

[b‐Chenh] Chen, N., Wang, K., Xiao, C., et al., A heterogeneous sensor web node meta‐model for the
management of a flood monitoring system [J], Environmental Modelling & Software, 2014,
54: 222‐237. [Online] Retrieved from: [19.05.2014]
[b‐de Castro] de Castro, V., Marcos, E., and Cáceres, P., A user service oriented method to model web
information systems [M]//Web Information Systems‐WISE 2004. Springer Berlin Heidelberg,
2004: 41‐52. [Online] Retrieved from: [15.04.2014]
[b‐Di] Di, L., Moe, K., and Yu, G., Metadata requirements analysis for the emerging Sensor Web [J],
International Journal of Digital Earth, 2009, 2:3‐17. [Online] Retrieved from: [19.03.2014]

[b‐ESTO] Report from the Earth Science Technology Office (ESTO), Advanced Information Systems
Technology (AIST) Sensor Web Technology Meeting [R]. In 2007 Proceedings of ESTO/AIST
Sensor Web Principal Investigator Meeting, San Diego, CA, February 2007, 13‐14. [Online]
Retrieved from: [16.04.2014]

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