For the stability and efficiency of power supply and power grid management thus for the benefit of daily human life and work, a power monitoring system was designed based on a smart grid management platform by Jianwei Zhang and Hao Yang. From various data, the mobile service aware opportunistic embedded architecture of mobile crowd sensing networks for power network measurement automation is discussed. Its parts include a mobile crowd sensing network for power grid management, the mobile service aware opportunistic embedded system, and the grid intelligent management of the embedded systems as well as the performance analysis of the embedded system. The core of the intelligent network management is the operation and control scheme of the embedded equipment related to the intelligent power grid. Based on its aspects, including embedded devices and an equipment group of cooperative control among other things, the grid management of intelligent electric power dispatching and intelligent substation of the crowd sensing network management could be realized through the deployment of embedded equipment and a communication network along with singular front-end embedded devices of data perception. As I understand this, the operating system of an Embedded System could communicate with the embedded equipment for the purpose of dispatching electric power. There would be an embedded control equipment testing. Then, embedded logic control followed by a distributed Embedded System (ES) point to point that leads to the connectivity of mobile crowd sensing networks. Then the Mobile Crowd Sensing Networks would communicate to the ES while also sending data to an electric grid server that would, in turn, update the ES. The experimental system has a grid management scope of ten kilometers by twelve kilometers, a power grid management system running time of twenty-four hours, and also a maximum communication distance of one kilometer for embedded mobile devices.
Essentially, this asserted scheme is in a position of superiority to the distributed power management system because of framework complexity, utilization efficiency, and intelligent power grid management level among other aspects. The Biblical Scriptures say much about choice. The Bible says, “No one can serve two masters. Either you will hate the one and love the other, or you will be devoted to the one and despise the other. You cannot serve both God and money” (NIV, Mat 6:24). Jesus the Christ was saying that people must make a choice between the LORD and the desires world. This can be interpreted as accepting the moral imperative of serving the world for the Father. Therefore, I think that this may be applied to the relevance of mobile service aware opportunistic embedded architecture of mobile crowd sensing networks for power network measurement automation, well. The essential data about this are that it offers a more robust framework for applying more efficient energy products for people that are at a greater level in the category of power grid management. With these data, people have an opportunity of experiencing improved lives. I say this because God does not want us suffering. The legal requirement for sin that is death was paid with the life of His son, Immanuel. Therefore, I think that this is a good system that should be considered for better life and for God’s namesake. This is in agreement with Zhang and Yang, and with the integrated faith position that the morality of technological advancement validates the existence of its state of change throughout history.
Zhang, J., & Yang, H. (2016). Mobile service aware opportunistic embedded architecture of mobile crowd sensing networks for power network measurement. EURASIP Journal On Embedded Systems, 2016(1), 1-9. doi:10.1186/s13639-016-0023-0