This is a comprehensive report on the feasibility of using an analog optical link for transmission of a received radar signal from the antenna to the back-end of the receiver, located on the ground. Such a change from the coaxial cable which is currently being used would allow for remoting of the back-end of the radar receiver, due to the much lower losses encountered in the use of analog optical links. The report examines instantaneous dynamic range and radar receiver sensitivity to determine if a commercially available link could seamlessly be inserted, or if an analog optical link needs to be designed at a component level in order to meet the radar receiver specifications
A Laser rangefinder is an opto-electric device used to determine the distance between two objects. T...
The purpose of this project was to create an eavesdropping device that operated by pointing a laser ...
Self-coherent receivers are promising candidates for reception of 100 Gbit/s data rates in optical n...
Antennas for radio communication systems (e.g. radio links, cellular networks, WLAN, remote sensing)...
This project examines the usefulness of radar data as displayed in a Range/Time/Intensity (RTI) plot...
Embedded systems are critically relying on the integrity its input and output signals to ensure prop...
The purpose of this Major Qualifying Project was to design and build a prototype of an autonomous ma...
The goal of the project was to design and integrate an efficient automated optical inspection proced...
The project characterizes the performance of a nano-positioning stage (NPS) designed by the MIT Linc...
A robust software package was developed for modeling the far field radiation pattern of phased array...
Electronic signal processing systems currently employed at core internet routers require huge amount...
First reconfigurable antenna came into existence in early 1980s. Reconfigurable antennas provide va...
The purpose of this Major Qualifying Project was to develop and evaluate a digital baseband predisto...
There is growing interest in applying photonic techniques to the generation of high fidelity millime...
This document provides the capabilities of the Wide Field and Planetary Camera 2 Instrument
A Laser rangefinder is an opto-electric device used to determine the distance between two objects. T...
The purpose of this project was to create an eavesdropping device that operated by pointing a laser ...
Self-coherent receivers are promising candidates for reception of 100 Gbit/s data rates in optical n...
Antennas for radio communication systems (e.g. radio links, cellular networks, WLAN, remote sensing)...
This project examines the usefulness of radar data as displayed in a Range/Time/Intensity (RTI) plot...
Embedded systems are critically relying on the integrity its input and output signals to ensure prop...
The purpose of this Major Qualifying Project was to design and build a prototype of an autonomous ma...
The goal of the project was to design and integrate an efficient automated optical inspection proced...
The project characterizes the performance of a nano-positioning stage (NPS) designed by the MIT Linc...
A robust software package was developed for modeling the far field radiation pattern of phased array...
Electronic signal processing systems currently employed at core internet routers require huge amount...
First reconfigurable antenna came into existence in early 1980s. Reconfigurable antennas provide va...
The purpose of this Major Qualifying Project was to develop and evaluate a digital baseband predisto...
There is growing interest in applying photonic techniques to the generation of high fidelity millime...
This document provides the capabilities of the Wide Field and Planetary Camera 2 Instrument
A Laser rangefinder is an opto-electric device used to determine the distance between two objects. T...
The purpose of this project was to create an eavesdropping device that operated by pointing a laser ...
Self-coherent receivers are promising candidates for reception of 100 Gbit/s data rates in optical n...