This project explores the theoretical application of a method of identifying and locating transmission line faults through the use of magnetic fields. Using Faraday\u27s law and Ampere\u27s law, this project demonstrates that transmission line faults can be detected and identified by category of disturbance. The voltage-current relationship established in electromagnetic field theory enables to monitor the line currents and detect a fault. This method can also be used to determine the location of the fault over the transmission line length
abstract: Digital to analog converters (DACs) find widespread use in communications equipment. Most ...
The increasing complexity of the System-on-Chips (SoCs) used in mission-critical systems such as aut...
An innovative sensor network consists of soft elastomeric capacitors (SECs) has been proposed for la...
Cascaded events may cause a major blackout which will lead to a massive economic loss and even fatal...
This project designs and develops a device capable of assisting rescue workers with visualizing a ro...
The goal of this project was to develop an intelligent recloser system that is able to differentiate...
A key feature to maintaining a safe and efficient machining operation is the avoidance of unstable v...
A Soft Open Point (SOP) is a power electronic device, usually implemented using back-to-back voltag...
To enhance the learning experience of students in WPI\u27s mechatronics class, a pneumatic piston-sp...
A system for detecting molten aluminum through six (6) inches of resin-bonded sand is presented. It...
Deterministic transmission planning is based on deterministic assumptions, by planning f...
This thesis reviews plasma technology, pulsed power technology, basic structures of pulsed power gen...
Driven by the need for seismic data compression with high dynamic range and 32-bit resolution, we pr...
The power grid is undergoing a transformation from a monopolized control system to a more decentrali...
This thesis presents a way to make nonlinear device measurements for a power MESFET device using the...
abstract: Digital to analog converters (DACs) find widespread use in communications equipment. Most ...
The increasing complexity of the System-on-Chips (SoCs) used in mission-critical systems such as aut...
An innovative sensor network consists of soft elastomeric capacitors (SECs) has been proposed for la...
Cascaded events may cause a major blackout which will lead to a massive economic loss and even fatal...
This project designs and develops a device capable of assisting rescue workers with visualizing a ro...
The goal of this project was to develop an intelligent recloser system that is able to differentiate...
A key feature to maintaining a safe and efficient machining operation is the avoidance of unstable v...
A Soft Open Point (SOP) is a power electronic device, usually implemented using back-to-back voltag...
To enhance the learning experience of students in WPI\u27s mechatronics class, a pneumatic piston-sp...
A system for detecting molten aluminum through six (6) inches of resin-bonded sand is presented. It...
Deterministic transmission planning is based on deterministic assumptions, by planning f...
This thesis reviews plasma technology, pulsed power technology, basic structures of pulsed power gen...
Driven by the need for seismic data compression with high dynamic range and 32-bit resolution, we pr...
The power grid is undergoing a transformation from a monopolized control system to a more decentrali...
This thesis presents a way to make nonlinear device measurements for a power MESFET device using the...
abstract: Digital to analog converters (DACs) find widespread use in communications equipment. Most ...
The increasing complexity of the System-on-Chips (SoCs) used in mission-critical systems such as aut...
An innovative sensor network consists of soft elastomeric capacitors (SECs) has been proposed for la...