Hoboken, New Jersey ; ; Salem, Massachusetts : , : Scrivener Publishing : , : Wiley, , 2015

©2015

1-119-11773-9

1-119-11784-4

1-119-11772-0

1 online resource (180 p.)

515/.35

Delay differential equations

Linear systems

Derivatives (Mathematics)

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

2.2 Lyapunov-Krasovskii functionals2.2.1 Structure of Lyapunov-Krasovskii quadratic functionals; 2.2.2 Elementary functionals and their properties; 2.2.3 Total derivative of functionals with respect to systems with delays; 2.3 Positiveness of functionals; 2.3.1 Definitions; 2.3.2 Sufficient conditions of positiveness; 2.3.3 Positiveness of functionals; 2.4 Stability via Lyapunov-Krasovskii functionals; 2.4.1 Stability conditions in the norm || · || H; 2.4.2 Stability conditions in the norm || · ||; 2.4.3 Converse theorem; 2.4.4 Examples; 2.5 Coefficient conditions of stability

2.5.1 Linear system with discrete delay2.5.2 Linear system with distributed delays; 3 Linear quadratic control; 3.1 Introduction; 3.2 Statement of the problem; 3.3 Explicit solutions of generalized Riccati equations; 3.3.1 Variant 1; 3.3.2 Variant 2; 3.3.3 Variant 3; 3.4 Solution of Exponential Matrix Equation; 3.4.1 Stationary solution method; 3.4.2 Gradient methods; 3.5 Design procedure; 3.5.1 Variants 1 and 2; 3.5.2 Variant 3; 3.6 Design case studies; 3.6.1 Example 1; 3.6.2 Example 2; 3.6.3 Example 3; 3.6.4 Example 4; 3.6.5 Example 5: Wind tunnel model

3.6.6 Example 6: Combustion stability in liquid propellant rocket motors4 Numerical methods; 4.1 Introduction; 4.2 Elementary one-step methods; 4.2.1 Euler'smethod; 4.2.2 Implicit methods (extrapolation); 4.2.3 Improved Euler'smethod; 4.2.4 Runge-Kutta-like methods; 4.3 Interpolation and extrapolation of the model pre-history; 4.3.1 Interpolational operators; 4.3.2 Extrapolational operators; 4.3.3 Interpolation-Extrapolation operator; 4.4 Explicit Runge-Kutta-like methods; 4.5 Approximation orders of ERK-like methods; 4.6 Automatic step size control; 4.6.1 Richardson extrapolation

4.6.2 Automatic step size control

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2023

9783031409639

3031409639

1 online resource (263 pages)

Contributions To Global Historical Archaeology

Lickliter-MundonMegan

629.1309

History

Archaeology

Archaeology - Methodology

Underwater archaeology

History, Modern

Archaeological Methodology

Maritime Archaeology

Modern History

Inglese

Chapter 1. Introduction (Hunter W. Whitehead and Megan Lickliter-Mundon) -- Chapter 2. Broken Wings, Recovered Souls: Understanding Site Formation Processes and Developing a Lexicon for Terrestrial

Military Aircraft Crash Site Types Associated with the Recovery of Missing Personnel Remains (Christopher R. Eck ) -- Chapter 3. Evolving Partnerships for Underwater Aircraft Research and Survey ( Megan Lickliter-Mundon) -- Chapter 4. Form and Function: Delta-winged Mystery Rocket Recovered from Lake Ontario (Nancy E. Binnie and Erin Gregory) -- Chapter 5. Lake Mead’s Cold War Secret: Management of a Lost B-29 Superfortress (Matthew Hanks, Susan Edwards, Jeffrey Weddings, and David L. Conlin) -- Chapter 6. Engaging the Public at the Crossroads of the World: Methods and Site Preservation of Aviation Archaeology Sites in Newfoundland and Labrador, Canada (Lisa M. Daly) -- Chapter 7. A Regional Approach to Submerged Naval Aircraft Studies(Agustin Jr. Ortiz).-)Chapter 8. Wings Over the Lakes: TuskegeeAirmen in Michigan (Wayne R. Lusardi) -- Chapter 9. Patterns of Preservation in WWII Aircraft and their Importance (Adrian P. Hunt) -- Chapter 10. Recent Developments and a Glimpse of the Future in Aeronautical Archaeology (Hunter W. Whitehead).

This volume presents a subfield overview on current research, trends, and commentary on the state of aeronautical archaeology and its development, through selections from a session on aviation archaeology at the 2020 Society for Historical Archaeology Conference. It serves to highlight those practices and projects that take strides towards standard methodologies in aeronautical archaeology. This book involves the study of aircraft crash sites, airfields, battlefields, and buildings or structures related to aviation. High profile sites and topics in this book include Lake Mead’s B-29 Superfortress, Tuskegee Airmen in Michigan, and patterns of preservation in WWII aircraft and their importance. A relatively new field, aeronautical archaeology is the sub-field of archaeology that examines past human interaction with flight. The authors aim to create more awareness for aviation cultural heritage projects and the associated community of scholars, practitioners, and enthusiasts. This volume includes contributions from leading global scholars through varied scientific inquiries, summaries of site investigations, and conservation techniques of aeronautical heritage.