Books in the Aerospace Series series

Principles of Flight Simulation is a comprehensive guide to flight simulator design, covering the modelling, algorithms and software which underpin flight simulation. The book covers the mathematical modelling and software which underpin flight simulation.

Due to the disparate nature of the technologies involved in Systems Health Management (SHM), no single person can understand all aspects of the discipline. This book is the first reference text in its field to collate together in one text the state-of-the-art in research and technology.

Aircraft Flight Dynamics and Control addresses airplane flight dynamics and control in a largely classical manner, but with references to modern treatment throughout.

This new edition covers all the different areas of engineering required in the design and implementation of spacecraft and space missions. Detailing recent developments in space activities, all chapters have been thoroughly revised and updated in the areas of launch vehicles, structures, ground stations and mechanisms.

Basic Helicopter Aerodynamics is widely appreciated as an easily accessible, rounded introduction to the first principles of the aerodynamics of helicopter flight. Simon Newman has brought this third edition completely up to date with a full new set of illustrations and imagery. An accompanying website

An accessible, clearly organized study guide for student pilots wishing to take commercial ground examinations to obtain ATPL or CPL licenses, this book also provides a reliable up-to-date reference for qualified and experienced personnel wishing to improve their understanding of the principles of flight.

Providing a detailed examination of the issues that affect the long term health of aircrew, cabin crew and passengers, Air Travel and Health offers guidance to engineers designing aircraft in the difficult field of legislation and product liability.

Path Planning Strategies for Cooperative Autonomous Air Vehicles offers a dedicated, practical guide to computational path planning for cooperative autonomous vehicles. Focusing path planning for multiple UAVs for simultaneous arrival on target, it also covers path planners that are applicable to land, sea, or space-borne vehicles.

Presents a comprehensive coverage of various aspects of loading action analysis, along with the logical extension to the conceptual design of the airframe.

This book is a comprehensive reference on deriving and developing computational models from basic physical & mathematical principles, giving the reader sufficient information to be able to represent the basic architecture of air vehicles and their embedded systems and to then be able to apply those models in analysis and simulation.

Unmanned Aircraft Systems delivers a much needed introduction to UAV System technology, taking an integrated approach that avoids compartmentalising the subject. Arranged in four sections, parts 1-3 examine the way in which various engineering disciplines affect the design, development and deployment of UAS.

Complete and up-to-date reference book and guide for pilots training for the JAA examination in aircraft performance Divided into 3 parts, explaining the aerodynamic theory for each phase of flight, scheduled performance theory, and the practical aspects of aeroplane performance.

All aspects of fuel products and systems including fuel handling, quantity gauging and management functions for both commercial (civil) and military applications. The fuel systems on board modern aircraft are multi-functional, fully integrated complex networks.

Advances in systems technology continue to ally systems and avionics, with aircraft support and flight systems ever increasingly controlled and monitored by electronics.

Introduction to Feedback Control provides an easy to read and to understand monograph that describes control theory using minimal mathematics and focusing on simple rules, tools and methods for the analysis and testing of feedback control systems using real systems engineering design and development examples.

Provides comprehensive coverage of how supersonic commercial aircraft are designedThis must-have guide to conceptual supersonic aircraft design provides a state-of-the art overview of the subject, along with expert analysis and discussion. It examines the challenges of high-speed flight, covers aerodynamic phenomena in supersonic flow and aerodynamic drag in cruising flight, and discusses the advantages and disadvantages of oblique wing aircraft.Essentials of Supersonic Commercial Aircraft Conceptual Design is intended for members of a team producing an initial design concept of an airliner with the capability of making supersonic cruising flights. It begins with a synopsis of the history of supersonic transport aircraft development and continues with a chapter on the challenges of high-speed flight, which discusses everything from top level requirements and cruise speed requirements to fuel efficiency and cruise altitude. It then covers weight sensitivity; aerodynamic phenomena in supersonic flow; thin wings in two-dimensional flow; flat wings in inviscid supersonic flow; aerodynamic drag in cruising flight, and aerodynamic efficiency of SCV configurations. The book finishes with a chapter that examines oblique wing aircraft.* Provides supersonic aircraft designers with everything they need to know about developing current and future high speed commercial jet planes* Examines the many challenges of high-speed flight* Covers aerodynamic phenomena in supersonic flow and aerodynamic drag in cruising flight* Discusses the advantages and disadvantages of oblique wing aircraftEssentials of Supersonic Commercial Aircraft Conceptual Design is an ideal book for researchers and practitioners in the aerospace industry, as well as for graduate students in aerospace engineering.

Introduction to Antenna Placement and Installationintroduces the characteristics of antennas and their integration onaircraft. The book covers antenna siting and placement,computational antenna modelling on structures, measurement onsub-scale models of the airframe, full-scale ground measurementsand in-flight measurements.

Ian Moir and Allan Seabridge Military avionics is a complex and technically challenging field which requires a high level of competence from all those involved in the aircraft design and maintenance.

Aerospace propulsion devices embody some of the most advanced technologies, ranging from materials, fluid control, and heat transfer and combustion. In order to maximize the performance, sophisticated testing and computer simulation tools are developed and used.

This introductory text walks readers from the fundamental mechanics of lift to the stage of being able to make practical calculations and predictions of the coefficient of lift for realistic wing profile and platform geometries.

Aircraft Display Systems covers all aspects of this vital field of avionics. All elements from simple fuel monitoring, through to the displays associated with complex fly--by--wire and navigational systems, are explored.

Theory and Practice of Aircraft Performance aims to provide close to industry standard computations and engineering approaches necessary for success working in industry. Both civil and military aircraft are studied. The book begins with fundamental aerodynamic and aircraft design considerations.

The Global Airline Industry, Second Edition provides a comprehensive introduction to the global airline industry. The perspective is international, drawing on the authors extensive experience with airline and air transport issues around the world.

Small Unmanned Fixed-wing Aircraft Design is the essential guide to designing, building and testing fixed wing UAVs (or drones). It deals with aircraft from two to 150 kg in weight and is based on the first-hand experiences of the world renowned UAV team at the UK s University of Southampton.

An introduction to orbital mechanics and spacecraft attitude dynamicsFoundations of Space Dynamics offers an authoritative text that combines a comprehensive review of both orbital mechanics and dynamics. The author?a noted expert in the field?covers up-to-date topics including: orbital perturbations, Lambert's transfer, formation flying, and gravity-gradient stabilization. The text provides an introduction to space dynamics in its entirety, including important analytical derivations and practical space flight examples.Written in an accessible and concise style, Foundations of Space Dynamics highlights analytical development and rigor, rather than numerical solutions via ready-made computer codes. To enhance learning, the book is filled with helpful tables, figures, exercises, and solved examples.This important book:* Covers space dynamics with a systematic and comprehensive approach* Is designed to be a practical text filled with real-world examples* Contains information on the most current applications* Includes up-to-date topics from orbital perturbations to gravity- gradient stabilization* Offers a deep understanding of space dynamics often lacking in other textbooksWritten for undergraduate and graduate students and professionals in aerospace engineering, Foundations of Space Dynamics offers an introduction to the most current information on orbital mechanics and dynamics.

Much-needed, fresh approach that brings a greater insight into the physical understanding of aerodynamics Based on the author s decades of industrial experience with Boeing, this book helps students and practicing engineers to gain a greater physical understanding of aerodynamics.