Wired and wireless communications both play an important role in the blend of communications technologies necessary to enable future smartgrid communications. Hybrid networks exploit independent mediums to extend net...
详细信息
Wired and wireless communications both play an important role in the blend of communications technologies necessary to enable future smartgrid communications. Hybrid networks exploit independent mediums to extend network coverage and improve performance. However, whereas individual technologies have been applied in simulation networks, as far as we know there is only limited attention that has been paid to the development of a suite of hybrid communication simulation models for the communications system design. Hybrid simulation models are needed to capture the mixed communication technologies and IP address mechanisms in one simulation. To close this gap, we have developed a suite of hybrid communication system simulation models to validate the critical system design criteria for a distributed solar Photovoltaic (PV) communications system, including a single trip latency of 300 ms, throughput of 9.6 Kbps, and packet loss rate of 1%. The results show that three low-power wireless personal area network (LoWPAN)-based hybrid architectures can satisfy three performance metrics that are critical for distributed energy resource communications.
In order to exploit the full potential of IoT-enabled power distribution grids, smartgridapplications are developed. Their operation on resource-constraint automation devices requires for memory optimized operation....
详细信息
ISBN:
(纸本)9789897582455
In order to exploit the full potential of IoT-enabled power distribution grids, smartgridapplications are developed. Their operation on resource-constraint automation devices requires for memory optimized operation. In this paper we present field-approved operation and management solutions for smartgridapplications, based on a distributed middleware. We introduce a new entity to allow for dynamically loading smartgridapplications within one JVM. Presented experiments demonstrate the reduction of the memory footprint on the physical device.
暂无评论