Applied Signal Technology
Patty Baxter is a seasoned Senior Executive Administrator with extensive experience in executive administrative support within the technology and defense sectors. Currently at Raytheon Applied Signal Technology since November 2004, Patty provides comprehensive support to the Director and senior staff of the Surveillance Systems Division, managing complex scheduling and extensive travel arrangements. Previous roles include Manager of DC Office Administration at Dynamics Technology, where Patty oversaw office operations and security measures, and Program Assistant at Arete Associates, supporting senior staff in the National Security Division. Patty's career reflects a strong commitment to efficiency, coordination, and security in high-stakes environments, complemented by a foundational education from McDonough High School.
Applied Signal Technology
Applied Signal Technology, Inc. (AST) (NASDAQ: APSG) is a full-service intelligence, surveillance, and reconnaissance (ISR) provider, serving national priorities in defense, intelligence, and homeland security with over $200 million in annual revenues. AST is an innovation center, bringing cutting-edge science and engineering together to enhance global security. We provide expertise in the areas of signals intelligence (SIGINT), broadband communications, cyber security, and sensor signature processing. Our SIGINT competencies include communications intelligence (COMINT) and electronic intelligence (ELINT). Our broadband communication technology enables secure high speed communication networks. Our cyber security activities include network monitoring, intrusion detection, and countermeasures. Our remote sensing expertise includes processing information from electro-optic, sonar, radar, magnetic, and seismic sensors to detect changes in the environment and provide real-time alerts of potential threats. We specialize in the collection, processing, and understanding of signals for ISR missions with low size, weight, and power (SWAP) configurations to enable increased deployment on unmanned platforms.