Power and Energy
The dataset is generated by performing different Man-in-the-Middle (MiTM) attacks in the synthetic cyber-physical electric grid in RESLab Testbed at Texas AM University, US. The testbed consists of a real-time power system simulator (Powerworld Dynamic Studio), network emulator (CORE), Snort IDS, open DNP3 master, SEL real-time automation controller (RTAC), and Cisco Layer-3 switch. With different scenarios of MiTM attack, we implement a logic-based defense mechanism in RTAC and save the traffic data and related cyber alert data under the attack.
- Categories:
These data are used for studying the P2P-based distributed transactive energy management problem in the distribution system. Considering that P2P trading is a form of the decentralized trading, a fully-decentralized computation algorithm without a central supervisor is proposed to compute our proposed model on a peer-to-peer basis.
- Categories:
Results for CTPS 2 are listed in CTPS2.docx.
- Categories:
Experimental results
- Categories:
The impedance mesaurement data of two interconnected systems: the first one is a cascaded system composed of a boost converter and a buck converter; the second one is a paralleled system composed of two LCL converter.
- Categories:
These are the simulation and experimental data for precise modeling of typical nonlinear loads (with passive diode bridge rectifiers) in wireless power transfer systems with different load conditions. Advanced load models are developed based on the provided data.
- Categories:
The law of conservation of energy has yet to be disproven. However, an inability to disprove this law is no proof of its validity. Energy creation was modeled with a lagging current and a quasi-sinusoidal variance in capacitance. A quasi-sinusoidal variance here is a sinusoidal waveform whose mean is larger than its median. The stator’s quasi-sinusoidal variance in capacitance is formed by the rotors’ electrostatic induction within its conductive segments, which is induced by the stator’s charge.
- Categories:
Conventional high-power wireless power transfer (WPT) systems suffer from hard switching, current sharing, and crossing coupling issues when providing a wide-range power supply. To improve the power level and regulation performance, we propose a new resonant inductor integrated-transformer based multi-inverter (RIIT-MI) topology for the high-power WPT system. A flexible power capacity can be achieved by increasing the number of inverters. A wide power regulation range with soft switching can be achieved without adding additional components.
- Categories:
Supplementary datasheet.
- Categories: