A study of business relations between Raytheon-Wayland and its suppliers

Madia, Carl N.

January 1963

Thesis (M.B.A)--Boston University

Business relations

Raytheon

Synthetic Aperture Radar Rapid Detection of Range and Azimuth Velocities Implemented in MATLAB

So, Cheuk Yu David

01 June 2013

The Synthetic Aperture Radar (SAR) algorithm processes multiple radar returns from the target space to generate a single high-resolution image. Targets moving through the target space during the capture sequence will appear distorted on the final image. In addition, there is no velocity information that is calculated as part of the processing. The objective of this thesis is to develop techniques to determine the azimuth and range velocities of moving objects in the target space in the early stages of SAR processing. The typical SAR processing steps are Range Compressed, Range Doppler, and final image generation. The range velocity of a target can be determined after the Range Compression stage, and the azimuth velocity can be determined after the Range Doppler image is created. Calculating the velocity of a target without performing all the steps of the SAR process allows such information can be obtained quicker than the final image. This work is done as part of Cal Poly’s SAR Automatic Target Recognition (ATR) project, sponsored by Raytheon Space and Airborne Systems Division and headed by Professor John Saghri. The simulations performed as part of this thesis are done in a MATLAB simulation environment implementing a two-dimension SAR target space, first introduced in Brian Zaharris’ thesis. This work has expanded on this environment by introducing point target azimuth and range velocity detection.

SAR

Synthetic Aperture Radar

Velocity Detection

Target Tracking

Raytheon

Matlab

Signal Processing

Synthetic Aperture Radar Imaging Simulated in MATLAB

Schlutz, Matthew

01 June 2009

This thesis further develops a method from ongoing thesis projects with the goal of generating images using synthetic aperture radar (SAR) simulations coded in MATLAB. The project is supervised by Dr. John Saghri and sponsored by Raytheon Space and Airborne Systems. SAR is a type of imaging radar in which the relative movement of the antenna with respect to the target is utilized. Through the simultaneous processing of the radar reflections over the movement of the antenna via the range Doppler algorithm (RDA), the superior resolution of a theoretical wider antenna, termed synthetic aperture, is obtained. The long term goal of this ongoing project is to develop a simulation in which realistic SAR images can be generated and used for SAR Automatic Target Recognition (ATR). Current and past Master’s theses on ATR were restricted to a small data set of Man-portable Surveillance and Target Acquisition Radar (MSTAR) images as most SAR images for military ATR are not released for public use. Also, with an in-house SAR image generation scheme the parameters of noise, target orientation, the elevation angle or look angle to the antenna from the target and other parameters can be directly controlled and modified to best serve ATR purposes or other applications such as three-dimensional SAR holography. At the start of the project in September 2007, the SAR simulation from previous Master’s theses was capable of simulating and imaging point targets in a two dimensional plane with limited mobility. The focus on improvements to this simulation through the course of this project was to improve the SAR simulation for applications to more complex two-dimensional targets and simple three-dimensional targets, such as a cube. The input to the simulation uses a selected two-dimensional, grayscale target image and generates from the input a two-dimensional target profile of reflectivity over the azimuth and range based on the intensity of the pixels in the target image. For three-dimensional simulations, multiple two-dimensional azimuth/range profiles are imported at different altitudes. The output from both the two-dimensional and three-dimensional simulations is the SAR simulated and RDA processed image of the input target profile. Future work on this ongoing project will include an algorithm to calculate line of sight limitations of point targets and processing optimization of the radar information generation implemented in the code so that more complex and realistic targets can be simulated and imaged using SAR for applications in ATR and 3D SAR holography.

Radar

SAR

Synthetic Aperture Radar

Raytheon

MATLAB

Image Processing

Matched Filtering

Electromagnetics and Photonics

Signal Processing

Systems and Communications

North Korea, representation and armament: an investigation into the politics of missile defense

Chlumecky, Nicholas

30 April 2018

This thesis examines how corporations use North Korea’s media portrayal to profit. By gaining government contracts to develop weapons and missile defense systems, companies such as Lockheed Martin make billions of dollars. The thesis will examine how this is accomplished in three stages: first, by examining how soft power is generated and used to build a consensus. Then, government usage of soft power to rationalize North Korea as a threat is discussed. Finally, how corporations profit from government-authorized weapons programs will be detailed. The thesis will incorporate theory based off of the ideas of Joseph Nye, as well as geopolitical concepts promulgated by Michael Hardt. / Graduate

missile defense

THAAD

North Korea

GMD

Aegis

Aegis BMD

Joseph Nye

Michael Hardt

Antonio Negri

Boeing

Lockheed Martin

Raytheon

Empire

human rights

United Nations

UN