Concise encyclopedia of aeronautics & space systems

The Concise Encyclopedia of Aeronautics & Space Systems is devoted to automatic control of these systems in the widest sense. Automatic control in aeronautics encompasses an enormous field including simulation, active control technology - a huge area including aerodynamics, engine control and aircraft management - air traffic control and management, and of course safety. The aeronautics articles are mainly concerned with civil aviation, but also deal with certain aspects of military aircraft and with systems related to helicopters. Atmospheric effects upon aircraft, and upon landing in particular, are thoroughly examined. The problems encountered in the space environment have been identified and addressed both in space itself and during the launching and re-entry phases. This volume presents complete state-of-the-art information on the design and operation of aeronautics and space systems.

Active control for segmented mirror optical systems. Active control technology. Active control technology: general aspects. Aerospace systems and control. Air traffic control systems. Air traffic control: trends. Air traffic management and aircraft guidance in and around a main terminal. Airships: guidance and control. Angle of attack. Artificial control load (artificial feel spring). Artificial intelligence: impact. Attitude control. Automatic control: impact. Civil aircraft: long-term future. Cockpits: impact of new technology. Combat aircraft: long-term future. Communication in space: telemetry and data processing. Computer security systems: possibility theory. Control-configured vehicles. Control in aerospace systems. Data links in aerospace systems. Detection of sensor failure. Digital communication for satellites. Dynamics of aircraft and basic autopilots. Engine control: general aspects. Engine control: physical principles. Engine control: system design. Flexibility of aerospace vehicles. Flexible spacecraft: computer-oriented control analysis. Flight control: autopilot modes. Flight control: autopilots. Flight control systems, automatic. Flight envelope. Flight management systems. Flight simulation systems and simulators: an introduction. Flight simulation systems and simulators: techniques. Fly-by-wire systems. Fuel conservation in air transport. Full-authority control of aerospace vehicles. Head-up displays and trajectory control. Helicopters. Helicopters: flight control assistance. Helicopters: long-term future. Helicopters: turbine-engine governing systems. Homing of aerospace vehicles. Inertial navigation systems. Inertial navigation systems: selection. Instrumentation: development of cathode ray tube technology. Landing approach guidance: automatic landing in bad weather conditions. Landing approach guidance: automatic landing systems. Landing approach guidance using differential global positioning system. Linear quadratic Gaussian multivariable control designs: robustness. Manufacturing, automated. Measurement of speed and acceleration. Meteorological measurement techniques. Missiles: guidance and control. Modellization approach. Multitimescale systems. Navigation, four-dimensional. Navigation in space. Remote sensing: long-range wind velocity determination. Remote sensing: removal of atmospheric effects. Remote sensing satellites. Rigid spacecraft: attitude control. Robots: control in space applications. Robots: use in the aerospace industry. Satellites: adaptive control. Satellites, drag-free. Satellites: monitoring. Satellites: solar power. Shuttle control during approach. Shuttle control systems: reliability. Simulation. Singular perturbations: boundary-layer problem. Space and deep space environment. Space and earth reference systems. Space launchers, multistage. Space launchers: problems. Space vehicle launches: meteorological constraints. Space vehicle trajectories: optimization. State equations: singular perturbations. Supersonic and hypersonic flight: impact on air transport system. Traffic simulators: human aspects and aircraft realism. Training simulators: cost efficiency. Training simulators, real-time. Visual flying rules and instrument flying rules. Visual flying rules and instrument flying rules: general aspects. Wing load alleviation. Wing load alleviation: modelling. Workload for operators in complex person-machine systems. 300 illus. approx. including line drawings, 1500 lit. refs. approx.