An Open System Architecture for Condition Based Maintenance Overview. Swearingen, K., Majkowski, W., Bruggeman, B., Gilbertson, D., Dunsdon, J., & Sykes, B. In 2007 IEEE Aerospace Conference, pages 1–8, March, 2007.
doi  abstract   bibtex   
The Boeing Company is developing an open integrated vehicle health management (IVHM) architecture; Smiths aerospace is extending and applying it. The charter of the Boeing phantom works is to provide tools and assets that enable next generation vehicles to be more reliable, efficient, capable, and autonomous. In support of those goals Integrated vehicle health management (IVHM) is receiving increased attention. The open system architecture for condition based maintenance (OSACBM) is a standard for building IVHM applications that meet those goals. Boeing has created a software framework for developing generic tools based on OSACBM that support scaleable, efficient modules which simplify IVHM integration in two ways: First, the integration improves the IVHM software models, software algorithms, data, communications, and embedded processors. Second, integration facilitates the use of IVHM with command, control, communication, mission, flight, maintenance, and other vehicle major systems.
@inproceedings{swearingen_open_2007,
	title = {An {Open} {System} {Architecture} for {Condition} {Based} {Maintenance} {Overview}},
	doi = {10.1109/AERO.2007.352921},
	abstract = {The Boeing Company is developing an open integrated vehicle health management (IVHM) architecture; Smiths aerospace is extending and applying it. The charter of the Boeing phantom works is to provide tools and assets that enable next generation vehicles to be more reliable, efficient, capable, and autonomous. In support of those goals Integrated vehicle health management (IVHM) is receiving increased attention. The open system architecture for condition based maintenance (OSACBM) is a standard for building IVHM applications that meet those goals. Boeing has created a software framework for developing generic tools based on OSACBM that support scaleable, efficient modules which simplify IVHM integration in two ways: First, the integration improves the IVHM software models, software algorithms, data, communications, and embedded processors. Second, integration facilitates the use of IVHM with command, control, communication, mission, flight, maintenance, and other vehicle major systems.},
	booktitle = {2007 {IEEE} {Aerospace} {Conference}},
	author = {Swearingen, Kevin and Majkowski, Wayne and Bruggeman, Brian and Gilbertson, Dan and Dunsdon, Jon and Sykes, Ben},
	month = mar,
	year = {2007},
	keywords = {Application software, Boeing Company, Buildings, Computer architecture, Embedded software, IVHM integration, Imaging phantoms, Maintenance, Mobile robots, OSACBM, Open systems, Remotely operated vehicles, Smiths Aerospace, Software tools, aerospace computing, aerospace engineering, condition based maintenance overview, integrated vehicle health management, maintenance engineering, open system architecture, open systems, software development tool chain, software engineering, software framework},
	pages = {1--8},
}
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