Summary
The current mobile embedded software development technologies are only rooted on specific platforms means platform dependent. so a real designing engineering methodology is needed. seeks to define, construct, validate and deploy a new model-based methodology and an interoperable toolset for real-time embedded systems development.
The proxy driving service is having a boom recently, which a proxy driver on behalf of a drunken one has a car to the destination at night. The call center selects the nearest proxy driver based on the distance from the customer and sends customer’s information to the designated one. A proxy driver usually speaks to the customer and moves to the target location. But if a customer cannot explain his current location correctly or a proxy driver is not familiar with that position, a proxy driver cannot get to the customer quickly and the customer tends to be unsatisfied with the service. So the need for a system that provides proxy drivers with location information about customers and destination is rapidly increasing. Higher performance for embedded software with the intent of decreasing cost of hardware made widespread and development of hardware. Higher performance makes embedded software more complex, but to satisfy user demands and that of time-to-market, it has to be developed fast and achieve quality. in this paper, we shows the design and implementation of proxy driving service system using a location-based service using components. The experiment shows that the implemented system can provide efficient services to the customers and proxy drivers than existing systems.
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Kim, HK., Lee, R.Y. (2010). Development of Mobile Location-Based Systems with Component. In: Lee, R., Ormandjieva, O., Abran, A., Constantinides, C. (eds) Software Engineering Research, Management and Applications 2010. Studies in Computational Intelligence, vol 296. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-13273-5_7
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DOI: https://doi.org/10.1007/978-3-642-13273-5_7
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