Software Design of Measurement and Control Device for Smart Grid Based on Embedded Operating System

Wei Cong Gao; Yi Qing Liu; Xiu Guang Wang

doi:10.4028/www.scientific.net/AMM.556-562.2642

Paper Titles

Research and Design of License Plate Recognition System
p.2623

MapReduce-Based Parallel Linear Regression for Face Recognition
p.2628

A Research of MM-SVM Technique for Fault Diagnosis
p.2633

A Robust Algorithm for Multiple Moving Targets Tracking
p.2638

Software Design of Measurement and Control Device for Smart Grid Based on Embedded Operating System
p.2642

A Randomly Permuted Fourier Measurement Matrix for UWB-PPM Signals
p.2646

Countdown Frequency Measurement and its Application in Radar AFC
p.2650

Non-Contact Measurement Device Based on Ultrasonic Technology
p.2654

PDroid: Detecting Privacy Leakage on Android
p.2658

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 556-562Software Design of Measurement and Control Device...

Software Design of Measurement and Control Device for Smart Grid Based on Embedded Operating System

Abstract:

Real-time multi-task embedded operating system is widely used in intelligent electronic devices. But the software design method with embedded OS is not familiar to developers in power system. So this paper depicts a sophisticated solution to overcome the difficulty in embedded software design. An overall software design is achieved in detail, and the emphasis is software architecture design, interrupt and task allocation and communication interface. After field validation, the measurement-control devices designed by this design solution have been proven that it is well adapted to the new requirements of Smart Grid.