London : Butterworths, 1962

Progress in Series

541

FI1

36B-006

Inglese

Vol. 1.

Hoboken, New Jersey : , : Wiley, , [2022]

©2022

1-119-77187-0

1-119-77185-4

1 online resource (387 pages)

Aerospace Ser.

629.13334

Aeronautics - Systems engineering

Airplanes

Inglese

Includes bibliographical references and index.

Cover -- Title Page -- Copyright -- Contents -- About the Authors --

Acknowledgements -- Sources of Background Information -- Glossary -- Chapter 1 Introduction -- Chapter 2 The Airframe and Systems Overview -- 2.1 Introduction -- 2.2 The Airframe -- 2.2.1 Impact on the structure -- 2.2.2 Impact on Atmosphere -- 2.2.3 Atmosphere Impact on Structure -- 2.2.4 The Crash Case -- 2.3 The Aircraft Systems -- 2.3.1 System Diagram -- 2.3.2 Key Characteristics of Systems -- 2.4 Classification of Aircraft Roles -- 2.4.1 Commercial -- 2.4.2 General Aviation -- 2.4.3 Regional -- 2.4.4 Long Haul -- 2.4.5 Military -- 2.4.6 Air Superiority -- 2.4.7 Ground Attack -- 2.4.8 Strategic Bombing -- 2.4.9 Maritime Patrol -- 2.4.10 Battlefield Surveillance -- 2.4.11 Airborne Early Warning (AEW) -- 2.4.12 Electronic Warfare -- 2.4.13 Photographic Reconnaissance -- 2.4.14 Air‐to‐Air Refuelling -- 2.4.15 Troop and Materiel Transport -- 2.4.16 Training Aircraft -- 2.4.17 Unmanned Air Vehicles -- 2.4.18 Special Roles -- 2.4.19 Law Enforcement and Civilian Agencies -- 2.5 Classification of Systems -- 2.6 Stakeholders -- 2.7 Example Architectures -- 2.8 Data Bus -- 2.9 Summary and Conclusions -- References -- Exercises -- Chapter 3 Vehicle Systems -- 3.1 Propulsion System -- 3.1.1 Purpose of System -- 3.1.2 Description -- 3.1.3 Safety/Integrity Aspects -- 3.1.4 Key Integration Aspects -- 3.1.5 Key Interfaces -- 3.1.6 Key Design Drivers -- 3.1.7 Modelling -- 3.1.8 References -- 3.1.9 Sizing Considerations -- 3.1.10 Future Considerations -- 3.2 Fuel System -- 3.2.1 Purpose of System -- 3.2.2 Description -- 3.2.3 Safety/Integrity Aspects -- 3.2.4 Key Integration Aspects -- 3.2.5 Key Interfaces -- 3.2.6 Key Design Drivers -- 3.2.7 Modelling -- 3.2.8 References -- 3.2.9 Sizing Considerations -- 3.2.10 Future Considerations -- 3.3 Electrical Power Generation and Distribution.

3.3.1 Purpose of System -- 3.3.2 Description -- 3.3.3 Safety/Integrity Aspects -- 3.3.4 Key Integration Aspects -- 3.3.5 Key Interfaces -- 3.3.6 Key Design Drivers -- 3.3.7 Modelling -- 3.3.8 References -- 3.3.9 Sizing Considerations -- 3.3.10 Future Considerations -- 3.4 Hydraulic Power Generation and Distribution -- 3.4.1 Purpose of the System -- 3.4.2 Description -- 3.4.3 Safety/Integrity Aspects -- 3.4.4 Key Integration Aspects -- 3.4.5 Key Interfaces -- 3.4.6 Key Design Drivers -- 3.4.7 Modelling -- 3.4.8 References -- 3.4.9 Sizing Considerations -- 3.4.10 Future Considerations -- 3.5 Bleed Air System -- 3.5.1 Purpose of the System -- 3.5.2 Description -- 3.5.3 Safety/Integrity Aspects -- 3.5.4 Key Integration Aspects -- 3.5.5 Key Interfaces -- 3.5.6 Key Design Drivers -- 3.5.7 Modelling -- 3.5.8 References -- 3.5.9 Sizing Considerations -- 3.5.10 Future Considerations -- 3.6 Secondary Power Systems -- 3.6.1 Purpose of System -- 3.6.2 Description -- 3.6.3 Safety/Integrity Aspects -- 3.6.4 Key Integration Aspects -- 3.6.5 Key Interfaces -- 3.6.6 Key Design Drivers -- 3.6.7 Modelling -- 3.6.8 References -- 3.6.9 Sizing Considerations -- 3.6.10 Future Considerations -- 3.7 Emergency Power Systems -- 3.7.1 Purpose of System -- 3.7.2 Description -- 3.7.3 Safety/Integrity Aspects -- 3.7.4 Key Integration Aspects -- 3.7.5 Key Interfaces -- 3.7.6 Key Design Drivers -- 3.7.7 Modelling -- 3.7.8 References -- 3.7.9 Sizing Considerations -- 3.7.10 Future Considerations -- 3.8 Flight Control System -- 3.8.1 Purpose of System -- 3.8.2 Description -- 3.8.3 Safety/Integrity Aspects -- 3.8.4 Key Integration Aspects -- 3.8.5 Key Interfaces -- 3.8.6 Key Design Drivers -- 3.8.7 Modelling -- 3.8.8 References -- 3.8.9 Sizing Considerations -- 3.8.10 Future Considerations -- 3.9 Landing Gear -- 3.9.1 Purpose of System -- 3.9.2 Description.

3.9.3 Safety/Integrity Aspects -- 3.9.4 Key Integration Aspects -- 3.9.5 Key Interfaces -- 3.9.6 Key Design Drivers -- 3.9.7 Modelling -- 3.9.8

References -- 3.9.9 Sizing Considerations -- 3.9.10 Future Considerations -- 3.10 Brakes and Anti‐skid -- 3.10.1 Purpose of System -- 3.10.2 Description -- 3.10.3 Safety/Integrity Aspects -- 3.10.4 Key Integration Aspects -- 3.10.5 Key Interfaces -- 3.10.6 Key Design Drivers -- 3.10.7 Modelling -- 3.10.8 References -- 3.10.9 Sizing Considerations -- 3.10.10 Future Considerations -- 3.11 Steering System -- 3.11.1 Purpose of System -- 3.11.2 Description -- 3.11.3 Safety/Integrity Aspects -- 3.11.4 Key Integration Aspects -- 3.11.5 Key Interfaces -- 3.11.6 Key Design Drivers -- 3.11.7 Modelling -- 3.11.8 References -- 3.11.9 Sizing Considerations -- 3.11.10 Future Considerations -- 3.12 Environmental Control System -- 3.12.1 Purpose of System -- 3.12.2 Description -- 3.12.3 Safety/Integrity Aspects -- 3.12.4 Key Integration Aspects -- 3.12.5 Key Interfaces -- 3.12.6 Key Design Drivers -- 3.12.7 Modelling -- 3.12.8 References -- 3.12.9 Sizing Considerations -- 3.12.10 Future Considerations -- 3.13 Fire Protection System -- 3.13.1 Purpose of System -- 3.13.2 Description -- 3.13.3 Safety/Integrity Aspects -- 3.13.4 Key Integration Aspects -- 3.13.5 Key Interfaces -- 3.13.6 Key Design Drivers -- 3.13.7 Modelling -- 3.13.8 References -- 3.13.9 Sizing Considerations -- 3.13.10 Future Considerations -- 3.14 Ice Detection -- 3.14.1 Purpose of System -- 3.14.2 Description -- 3.14.3 Safety/Integrity Aspects -- 3.14.4 Key Integration Aspects -- 3.14.5 Key Interfaces -- 3.14.6 Key Design Drivers -- 3.14.7 Modelling -- 3.14.8 References -- 3.14.9 Sizing Considerations -- 3.14.10 Future Considerations -- 3.15 Ice Protection -- 3.15.1 Purpose of System -- 3.15.2 Description -- 3.15.3 Safety/Integrity Aspects.

3.15.4 Key Integration Aspects -- 3.15.5 Key Interfaces -- 3.15.6 Key Design Drivers -- 3.15.7 Modelling -- 3.15.8 References -- 3.15.9 Sizing Considerations -- 3.15.10 Future Considerations -- 3.16 External Lighting -- 3.16.1 Purpose of System -- 3.16.2 Description -- 3.16.3 Safety/Integrity Aspects -- 3.16.4 Key Integration Aspects -- 3.16.5 Key Interfaces -- 3.16.6 Key Design Drivers -- 3.16.7 Modelling -- 3.16.8 References -- 3.16.9 Sizing Considerations -- 3.16.10 Future Considerations -- 3.17 Probe Heating -- 3.17.1 Purpose of System -- 3.17.2 Description -- 3.17.3 Safety/Integrity Aspects -- 3.17.4 Key Integration Aspects -- 3.17.5 Key Interfaces -- 3.17.6 Key Design Drivers -- 3.17.7 Modelling -- 3.17.8 References -- 3.17.9 Sizing Considerations -- 3.17.10 Future Considerations -- 3.18 Vehicle Management System (VMS) -- 3.18.1 Purpose of System -- 3.18.2 Description -- 3.18.3 Safety/Integrity Aspects -- 3.18.4 Key Integration Aspects -- 3.18.5 Key Interfaces -- 3.18.6 Key Design Drivers -- 3.18.7 Modelling -- 3.18.8 References -- 3.18.9 Sizing Considerations -- 3.18.10 Future Considerations -- 3.19 Crew Escape -- 3.19.1 Purpose of System -- 3.19.2 Description -- 3.19.3 Safety/Integrity Aspects -- 3.19.4 Key Integration Aspects -- 3.19.5 Key Interfaces -- 3.19.6 Key Design Drivers -- 3.19.7 Modelling -- 3.19.8 References -- 3.19.9 Sizing Considerations -- 3.19.10 Future Considerations -- 3.20 Canopy Jettison -- 3.20.1 Purpose of System -- 3.20.2 Description -- 3.20.3 Safety/Integrity Aspects -- 3.20.4 Key Integration Aspects -- 3.20.5 Key Interfaces -- 3.20.6 Key Design Drivers -- 3.20.7 Modelling -- 3.20.8 References -- 3.20.9 Sizing Considerations -- 3.20.10 Future Considerations -- 3.21 Oxygen -- 3.21.1 Purpose of System -- 3.21.2 Description -- 3.21.3 Safety/Integrity Aspects -- 3.21.4 Key Integration Aspect -- 3.21.5 Key Interfaces.

3.21.6 Key Design Drivers -- 3.21.7 Modelling -- 3.21.8 References -- 3.21.9 Sizing Considerations -- 3.21.10 Future Considerations -- 3.22 Biological and Chemical Protection -- 3.22.1 Purpose of System --

3.22.2 Description -- 3.22.3 Safety/Integrity Aspects -- 3.22.4 Key Integration Aspects -- 3.22.5 Key Interfaces -- 3.22.6 Key Design Drivers -- 3.22.7 Modelling -- 3.22.8 References -- 3.22.9 Sizing Considerations -- 3.22.10 Future Considerations -- 3.23 Arrestor Hook -- 3.23.1 Purpose of System -- 3.23.2 Description -- 3.23.3 Safety/Integrity Aspects -- 3.23.4 Key Integration Aspects -- 3.23.5 Key Interfaces -- 3.23.6 Key Design Drivers -- 3.23.7 Modelling -- 3.23.8 References -- 3.23.9 Sizing Considerations -- 3.23.10 Future Considerations -- 3.24 Brake Parachute -- 3.24.1 Purpose of System -- 3.24.2 Description -- 3.24.3 Safety/Integrity Aspects -- 3.24.4 Key Integration Aspects -- 3.24.5 Key Interfaces -- 3.24.6 Key Design Drivers -- 3.24.7 Modelling -- 3.24.8 References -- 3.24.9 Sizing Considerations -- 3.24.10 Future Considerations -- 3.24.11 Best Practice and Lessons Learned -- 3.25 Anti‐spin Parachute -- 3.25.1 Purpose of System -- 3.25.2 Description -- 3.25.3 Safety/Integrity Aspects -- 3.25.4 Key Integration Aspects -- 3.25.5 Key Interfaces -- 3.25.6 Key Design Drivers -- 3.25.7 Modelling -- 3.25.8 References -- 3.25.9 Sizing Considerations -- 3.25.10 Future Considerations -- 3.26 Galley -- 3.26.1 Purpose of System -- 3.26.2 Description -- 3.26.3 Safety/Integrity Aspects -- 3.26.4 Key Integration Aspects -- 3.26.5 Key Interfaces -- 3.26.6 Key Design Drivers -- 3.26.7 Modelling -- 3.26.8 References -- 3.26.9 Sizing Considerations -- 3.26.10 Future Considerations -- 3.27 Passenger Evacuation -- 3.27.1 Purpose of System -- 3.27.2 Description -- 3.27.3 Safety/Integrity Aspects -- 3.27.4 Key Integration Aspects -- 3.27.5 Key Interfaces.

3.27.6 Key Design Drivers.

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2014

3-319-04786-8

1 online resource (282 p.)

SxI - Springer for Innovation / SxI - Springer per l'Innovazione, , 2239-2688 ; ; 11

388.068

Operations research

Management science

Decision making

Regional planning

City planning

Sustainable development

Game theory

Operations Research, Management Science

Operations Research/Decision Theory

Landscape/Regional and Urban Planning

Sustainable Development

Game Theory, Economics, Social and Behav. Sciences

Inglese

Description based upon print version of record.

Includes bibliographical references at the end of each chapters.

1 M. Arnone, T. Delmastro and L. Saporito: Passenger mobility: new trends.- 2 G. de Jong and E. Kroes: Freight transport: main issues.- 3 B. Musso: The evolution of maritime container transportation.- 4 P. Witte and T. Spit: Sectoral drawbacks in transport. Towards a new analytical framework on European transport corridors.- 5 B. Scholl: Integrated Spatial and Infrastructural Development: the need for adequate methods and spatial strategies for collaborative action and decision-making.- 6 I. M. Lami: Evaluation tools to support decision-making process related to European Corridors.- 7 H. Drewello: Transport policy and regional development. The economic impact of regional

accessibility on economic sectors.- 8 G. de Jong and E. Kroes: Discrete choice analysis.- 9 I. Tosoni and F. Guenther: Collaborative assessment processes -- 10 E. Masala and S. Pensa: Visualisation: an approach to knowledge building -- 11 F. Abastante, M. Bottero, F. Guenther, I. M. Lami, E. Masala, S. Pensa and I. Tosoni: An integrated approach for supporting the evaluation of transport scenarios: the area of Bellinzona (CH) -- 12 F. Abastante, F. Guenther, I. M. Lami, E. Masala, S. Pensa and I. Tosoni: Analytic Network Process, InVITO and Strategic assessment: a tool-box for the evaluation of Corridor 24 spatial development strategies -- 13 M. Arnone, G. de Jong, T. Delmastro and D. Inaudi: A conjoint analysis exercise to assess quality attributes in freight transport. Outcomes from a survey among logistics managers of manufacturing firms in North West Italy.

Eurocorridors are characterized by intensive transport flows and dynamic patterns of establishment and household locations. They are also considered the backbones of powerful spatial and economic forces in the areas that connect urban regions. One of the main difficulties in the spatial planning of eurocorridors has been the need to engage in different types of collective action. Such an approach can be extremely challenging in practice, useful to researchers in the field and to professionals as well. In the light of this, the book’s main objectives are:  - To define the problem by analyzing the key features, which include freight and passenger transport policies and issues; the territorial context, with its geographical, social, economic and cultural aspects; the plurality of subjects with different aims and resources and the lack of homogeneous information. - To illustrate assessment models and evaluation frameworks (MCDA; Discrete Choice Analysis; Collaborative Assessments; Geovisualization Technologies) in theoretical terms and by the use of case studies.