![]() It can support the real-time WSN applications. The final evaluation results prove that MIROS is suitable to be used even on the tight resource-constrained WSN nodes. To evaluate the performance of MIROS it is compared with the other WSN OSes (TinyOS Contiki SOS openWSN and mantisOS) from different OS concerns. Moreover it combines both the software and the multi-core hardware techniques to conserve the energy resources improve the node reliability as well as achieve a new debugging method. The application programming process can consequently be simplified and the application reprogramming performance improved. ![]() In addition it implements a mid-layer software EMIDE (Efficient Mid-layer Software for User-Friendly Application Development Environment) to decouple the WSN application from the low-level system. Real-time scheduling can thus be achieved with low memory consumption. MIROS implements the hybrid scheduler and the dynamic memory allocator. In this article a new hybrid real-time memory-efficient energy-efficient user-friendly and fault-tolerant WSN OS MIROS is designed and implemented. ![]() Moreover the user application development can be served soundly. ![]() With an outstanding OS the constrained WSN resources (processor memory and energy) can be utilized efficiently. Operating system (OS) technology is significant for the proliferation of the wireless sensor network (WSN). ![]()
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