Popular repositories
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IEEE-2030.5-Client
IEEE-2030.5-Client PublicThe IEEE 2030.5 Client is an open sourced framework designed to communicate with IEEE 2030.5 compliant servers with the necessary DER resources.
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StorageVET
StorageVET PublicStorageVET 2.0 is a valuation model for analysis of energy storage technologies and some other energy resources paired with storage. The tool can be used as a standalone model, or integrated with o…
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OpenADR-Virtual-Top-Node
OpenADR-Virtual-Top-Node PublicThis application is an implementation of a virtual top node (VTN) as defined in the OpenADR Alliance’s OpenADR 2.0 Profile Specification B Profile, updated July 1, 2013. OpenADR defines a machine-t…
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OpenADR-Virtual-End-Node
OpenADR-Virtual-End-Node PublicThis application is an implementation of a virtual end node (VEN) as defined in the OpenADR Alliance’s OpenADR 2.0 Profile B Specification (HTTP pull), updated July 1, 2013. OpenADR defines a machi…
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Repositories
- StorageVET Public
StorageVET 2.0 is a valuation model for analysis of energy storage technologies and some other energy resources paired with storage. The tool can be used as a standalone model, or integrated with other power system models, thanks to its open-source Python framework. Download the executable environment and learn more at https://www.storagevet.com.
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- PV-Ramp-Rate-Smoothing Public
- PV-Subhourly-Clipping Public
- PV-Golden-Datasets Public
- OpenADR-Virtual-End-Node Public
This application is an implementation of a virtual end node (VEN) as defined in the OpenADR Alliance’s OpenADR 2.0 Profile B Specification (HTTP pull), updated July 1, 2013. OpenADR defines a machine-to-machine interface and includes the information model, transport and security mechanisms, and the manner in which data is exchanged between two e…
- IEEE-2030.5-Client Public
The IEEE 2030.5 Client is an open sourced framework designed to communicate with IEEE 2030.5 compliant servers with the necessary DER resources.
- DER-VET-GUI Public
A graphical interface for a python tool for calculating, understanding, and optimizing the value of distributed energy resources based on their technical merits and constraints. Written in Electron and VueJS. To get involved with the community of DER-VET users, please visit www.der-vet.com.