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Distributed Simulation of Power Grid
Table of Contents
- 2015 Winlab Summer Internship
- LTE Unlicensed (LTE-U)
- Introduction
- Objectives
- Theory
- Analyzing Tools
- Experiment 1: Transmit and Receive LTE Signal
- Experiment 2: The Waterfall Plot
- Experiment 3: eNB and UE GUI
- Experiment 4: Varying Bandwidths
- Experiment 5: Working with TDD or FDD
- Experiment 6: TDD with Varying Bandwidths
- Experiment 7: TDD Waterfall Plot
- Poster
- Members
- Materials
- Resources
- LTE Unlicensed (LTE-U)
- Body Sensor Networks
- Dynamic Video Encoding
Introduction
The goal of this project is to develop a tool that will allow us to simulate a distributed smart grid - an emerging modern electrical grid that incorporates technology to gather and use information about the elements in the grid to improve efficiency and reliability.
To achieve this we hope to create a library to extend the functionality of Mathworks's Simulink, a well known software for modeling systems. This library would allow the study of a smart grid under non-ideal conditions through the safety of a simulation. The distribution of the elements would allow us to study the communication between these simulated elements - one of the most important features of the smart grid - using a resource like ORBIT.
Objectives
- Develop a library to simulate power elements over different processors
- Implement this library of blocks in C using Simulink and other software
- Test this library using ORBIT
People
Led by: Professor Hana Godrich
Jeremy Savarin, Chhayang Patel, Parth Parikh, Bharath Molakal, Glen Huang, Matthew Chan