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Spacecraft and Payload Pointing
Focuses on development of the attitude determination and control system (ADACS) for a spacecraft, including payload pointing. When mission requirements are flowed down to the spacecraft and then to its subsystems, the engineer must be able to translate these requirements into appropriate terms at each level.
Optical Payloads for Space Missions
Optical Payloads for Space Missions is a comprehensive collection of optical spacecraft payloads with contributions by leading international rocket-scientists and instrument builders. Covers various applications, including earth observation, communications, navigation, weather, and science satellites and deep space exploration Each chapter covers one or more specific optical payload Contains a review chapter which provides readers with an overview on the background, current status, trends, and future prospects of the optical payloads Provides information on the principles of the optical spacecraft payloads, missions’ background, motivation and challenges, as well as the scientific returns, benefits and applications
The Dictionary of Aerospace Engineering
Propelling Understanding: Your Launchpad to Aerospace Engineering Excellence The realm of aerospace engineering is a confluence of science, ambition, and human endeavor, encapsulating the relentless pursuit of pushing boundaries and transcending terrestrial limitations. It is a domain that continually stretches the fabric of what is possible, melding imagination with the rigors of engineering precision. The Dictionary of Aerospace Engineering, with its extensive compilation of 6,000 meticulously curated titles, serves as a cornerstone for those engaged in this dynamic field, offering a wellspring of knowledge and a pathway to mastery. Embarking on the pages of this dictionary is akin to laun...
Spacelab Payloads
Spacelab was a reusable laboratory facility that was flown on the Space Shuttle from 1983 to 1998. Completing 22 major missions and contributing to many other NASA goals, Spacelab stands as one of the Shuttle program’s most resounding successes. The system comprised multiple components, including a pressurized laboratory module, unpressurized carrier pallets and other related hardware, all housed in the Shuttle’s Payload Bay and crew compartment. But how did all those varied components actually come together? The answer is the little-known “Level-IV”, a team of managers and engineers who molded separate elements of hardware into cohesive and safe payloads. Without the dedication and ...
Satellite Communications Payload and System
This is the first book primarily about the satellite payload of satellite communications systems. It represents a unique combination of practical systems engineering and communications theory. It tells about the satellites in geostationary and low-earth orbits today, both the so-called bent-pipe payloads and the processing payloads. The on-orbit environment, mitigated by the spacecraft bus, is described. The payload units (e.g. antennas and amplifiers), as well as payload-integration elements (e.g. waveguide and switches) are discussed in regard to how they work, what they do to the signal, their technology, environment sensitivity, and specifications. At a higher level are discussions on th...
Aerospace Engineering e-Mega Reference
A one-stop Desk Reference, for engineers involved in all aspects of aerospace; this is a book that will not gather dust on the shelf. It brings together the essential professional reference content from leading international contributors in the field. Material covers a broad topic range from Structural Components of Aircraft, Design and Airworthiness to Aerodynamics and Modelling * A fully searchable Mega Reference Ebook, providing all the essential material needed by Aerospace Engineers on a day-to-day basis. * Fundamentals, key techniques, engineering best practice and rules-of-thumb together in one quick-reference.* Over 2,500 pages of reference material, including over 1,500 pages not included in the print edition
Mastering Integration of Payloads and Sensors
Unlock the Synergy of Seamless Payload Integration and Sensor Technology with "Mastering Integration of Payloads and Sensors" In the evolving landscape of modern technology, the integration of payloads and sensors is a cornerstone of innovation. "Mastering Integration of Payloads and Sensors" is your definitive guide to mastering the art of seamlessly combining payloads and sensors for enhanced functionality and performance. Whether you're a seasoned engineer or a newcomer to the world of sensor integration, this book equips you with the knowledge and skills needed to navigate the intricacies of effective integration. About the Book: "Mastering Integration of Payloads and Sensors" takes you ...
Spacelab Payloads
Spacelab was a reusable laboratory facility that was flown on the Space Shuttle from 1983 to 1998. Completing 22 major missions and contributing to many other NASA goals, Spacelab stands as one of the Shuttle program’s most resounding successes. The system comprised multiple components, including a pressurized laboratory module, unpressurized carrier pallets and other related hardware, all housed in the Shuttle’s Payload Bay and crew compartment. But how did all those varied components actually come together? The answer is the little-known “Level-IV”, a team of managers and engineers who molded separate elements of hardware into cohesive and safe payloads. Without the dedication and ...
Aerospace Engineering
Aerospace engineering encompasses a broad range of disciplines, including aerodynamics, which studies how air flows around objects like aircraft wings; propulsion systems, which power vehicles through the atmosphere or space; materials science, which focuses on developing lightweight yet durable materials for aerospace applications; and avionics, which involves designing and implementing electronic systems for navigation, communication, and control. Additionally, aerospace engineers work on structural design to ensure that vehicles can withstand the stresses of flight and space travel, as well as thermal management to regulate temperatures in extreme environments. They also contribute to the development of guidance and control systems to maintain stability and control during flight. Moreover, aerospace engineering extends beyond Earth's atmosphere, with space exploration being a significant area of focus. This includes designing spacecraft for missions to satellites, communication and observation, etc. Overall, aerospace engineering plays a crucial role in advancing our understanding of the universe and expanding our capabilities beyond the confines of our planet.
