London, England ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2015

©2015

1-118-99813-8

1-118-99815-4

1-118-99814-6

1 online resource (96 p.)

Energy Series : Energy Storage - Batteries and Supercapacitors Set

621.31242

Electric batteries - Materials

Energy storage - Materials

Power electronics - Materials

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Cover; Title Page ; Copyright ; Contents; Introduction; 1: Batteries and Supercapacitors: Some Reminders; 1.1. Main evolution of batteries from the 1980's to now; 1.2. Supercapacitors: recent developments; 2: Advanced Li-ion; 2.1. Positive electrode materials for Li-ion technology; 2.2. Negative electrode materials for Li-ion technology; 2.3. The question of electrolytes for Li-ion technology; 3: Capacitive Storage; 3.1. Carbonated materials for capacitive storage; 3.2. Pseudocapacitive materials; 3.3. Electrolytes for supercapacitors; 3.4. Hybrid systems and middle-term goals

4: New Chemistries 4.1. Li-air technology; 4.2. Li-S technology; 4.3. Na-ion technology; 4.4. Redox-flow technology; 4.5. All-solid state batteries; 5: Eco-Compatible Storage; 5.1. Ionothermal synthesis; 5.2. Bioinspired synthesis/approach; 5.3. Organic electrodes for "green" Li-ion batteries and more durable batteries; 5.4. Recycling and LCA; 6: Smart Materials; 6.1. Photonics of insertion materials to create photo-rechargeable batteries; 6.2. Micro-energy sources; 7: Technology Transfer, Research Promotion and Education; 7.1. Development: industrial property; 7.2. Education

7.2.1. Erasmus Mundus Master's degree: Materials for Energy Storage

and Conversion (MESC)7.2.2. Specialization in Energy Storage and Conversion (SCE), at ENSCBP (Bordeaux - INP); Conclusion; Bibliography; Index

Cham : , : Springer International Publishing : , : Imprint : Springer, , 2020

3-030-47348-1

1 online resource (XIII, 214 p.) : 49 illus., 47 illus. in color

Springer Aerospace Technology, , 1869-1749

623.4519

Aerospace engineering

Astronautics

Automatic control

Robotics

Automation

Computational intelligence

Aerospace Technology and Astronautics

Control, Robotics, Automation

Computational Intelligence

Inglese

Introduction of Optimal Guidance -- Optimality of Error Dynamics in Missile Guidance -- Three-Dimensional Optimal Impact-Time-Control Guidance Law -- Gravity-Turn Assisted Optimal Guidance Law -- Observability-Enhancement Optimal Guidance Law -- Optimal Proportional-Integral Guidance Law -- Energy-Optimal Waypoint-Following Guidance Law -- Conclusions.

This book presents a comprehensive overview of the recent advances in the domain of optimal guidance, exploring the characteristics of various optimal guidance algorithms and their pros and cons. Optimal guidance is based on the concept of trajectory optimization, which

minimizes the meaningful performance index while satisfying certain terminal constraints, and by properly designing the cost function the guidance command can serve as a desired pattern for a variety of mission objectives. The book allows readers to gain a deeper understanding of how optimal guidance law can be utilized to achieve different mission objectives for missiles and UAVs, and also explores the physical meaning and working principle of different new optimal guidance laws. In practice, this information is important in ensuring confidence in the performance and reliability of the guidance law when implementing it in a real-world system, especially in aerospace engineering where reliability is the first priority.