VERSATILE SENSOR PLATFORM FOR AUTONOMOUS SENSING IN AUTOMOTIVE APPLICATIONS

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International Journal on Smart Sensing and Intelligent Systems

Professor Subhas Chandra Mukhopadhyay

Exeley Inc. (New York)

Subject: Computational Science & Engineering, Engineering, Electrical & Electronic

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eISSN: 1178-5608

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VOLUME 4 , ISSUE 3 (September 2011) > List of articles

VERSATILE SENSOR PLATFORM FOR AUTONOMOUS SENSING IN AUTOMOTIVE APPLICATIONS

M. Lieschnegg * / B. Lechner / A. Fuchs / O. Mariani

Keywords : sensor platform, onboard sensing, autonomous sensing, automotive application.

Citation Information : International Journal on Smart Sensing and Intelligent Systems. Volume 4, Issue 3, Pages 496-507, DOI: https://doi.org/10.21307/ijssis-2017-453

License : (CC BY-NC-ND 4.0)

Received Date : 12-July-2011 / Accepted: 17-August-2011 / Published Online: 01-September-2011

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ABSTRACT

This paper presents the development of a versatile sensor platform used for autonomous data acquisition. The key advantages of the platform are its compact design, implemented onboard sensors, standard interfaces to connect application specific sensors and subsequently simple installation and low costs for the preparation of a measurement task. The paper provides details of the platform design and key characteristics. Practical exemplary applications in the field of automotive sensing, covering thermal management related and passenger comfort related measurement tasks, are presented.

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REFERENCES

[1] ASAM Solutions Guide 2011, Association for Standardisation of Automation and Measuring Systems, 2011.
[2] Serafini, L., Carrai, F., Ramacciotti, T., Zolesi, V., Multi-Sensor Configurable Platform for Automotive Applications, Proceedings of Design, Automation and Test in Europe, 2006. DATE '06, 6-10 March 2006, Vol. 2, pp. 1-2.
[3] Djambazian, H., Nerguizian, C., Nerguizian, V., Saad, M., 3D Inclinometer and MEMS Acceleration Sensors, Proceedings of the 2006 IEEE International Symposium on Industrial Electronics, vol. 4, pp. 3338 – 3342.
[4] Microsoft Corporation. Microsoft Extensible Firmware Initiative FAT32 File System Specification, Microsoft Corporation, 1 edition, 2000.
[5] Dilworth, I., Bluetooth, In: Goff Hill, Editor(s), The Cable and Telecommunications Professionals' Reference (Third Edition), Focal Press, Boston, 2007, pp. 311-333.
[6] Baronti, P., Pillai, P., Chook, V., Chessa, S., Gotta, A., Fun Hu, Y., Wireless sensor networks: A survey on the state of the art and the 802.15.4 and ZigBee standards, Computer Communications, vol. 30, nr. 7, Wired/Wireless Internet Communications, 26 May 2007, pp. 1655-1695.
[7] Atmel® AVR Studio 5. Website www.atmel.com/microsite/avr_studio_5, 10 August 2011
[8] The NMEA Standard, National Marine Electronics Association, 7 Riggs Avenue, Severna Park, MD 21146, USA. http://www.nmea.org.
[9] Ibrahim, D., Design of a GPS data logger device with street-level map interface, Advances in Engineering Software, vol. 41, nr. 6, June 2010, pp. 859-864

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