Dataset which shows the effect of three types of wireless communication (e.g., 3G, 4G, and 5G, respectively) on data integrity of two real Phasor Measurement Unit (PMU) measurements which are sent to a virtual Phasor Data Concentrator (vPDC) for timestamp synchronization function. Each file contains the values of the two real PMUs installed at each end of a high voltage (HV) transmission line located in a transmission power grid in South Europe. The datasets were collected using an advanced Power-Hardware In the Loop (P-HIL) setup, including in the communication loop between the PMUs and the vPDC a hardware network emulator. The later had the role to realistically emulate the macroscopic behavior of the communication delays and packet data loss of the three wireless communication networks. The delays and data packet loss were imposed only at one of the two PMUs (PMU Lab1) considering a power grid system running in balanced operation conditions. Therefore, only phase A was recorded in the data, and the reason why the current values from phase B and phase C are almost zero.

Data template and cartography was created for Virginia PDCs by Crater PDC in 2017. The data is updated quarterly along with VGIN Administrative Boundary Feature Services. To download the dataset, use the ArcGIS Feature Service:https://vginmaps.vdem.virginia.gov/arcgis/rest/services/VPDC/VPDC/FeatureServerThe data layers leverage VPDC regional information: https://www.vapdc.org/pdc-directoryThe data layers inside the REST service include the following:- PDC Offices- PDC Borders (Boundaries)- PDC Dual Localities- MPO Boundaries- Coastal Zone Localities- Localities By PDC

The Victorian Perinatal Data Collection (VPDC) is established by the Public Health and Wellbeing Act 2008 under the functions of the Consultative Council on Obstetric and Paediatric Mortality and …Show full descriptionThe Victorian Perinatal Data Collection (VPDC) is established by the Public Health and Wellbeing Act 2008 under the functions of the Consultative Council on Obstetric and Paediatric Mortality and Morbidity (CCOPMM).

This work focuses on two Use Cases (UCs) of the Smart5Grid project (UC3 and UC4) and reports the raw data of their corresponding Network Applications: Run Time Energy Production Monitoring Predictive Maintenance (Enabler) for UC3 as well as virtual Phasor Data Concentrator (vPDC), Wide Area Monitoring (WAM), and Advisory (Enabler) for UC4. These Network Applications are developed by means of Grid Protection Alliance (GPA) open source software and GSF open source library. Another two GPA open source projects used for both UCs development are openPDC and openHistorian. Microsoft Visual Studio 2022 is the coding environment while C# и JavaScript are the programming languages engaged in the Use Cases 3&4 NetApp development process. Correspondingly, the services for both UCs are placed in Docker images that are used in Helm charts. These Helm charts are used to install the services in Kubernetes cluster, which runs Docker containers of the services in its cluster. Detailed video demonstr...