| Description |
1 online resource |
| Series |
Springer theses: recognizing outstanding Ph. D. research |
|
Springer theses.
|
| Contents |
Introduction -- Involved vehicles -- Mathematical background -- Navigation lter -- Results -- Conclusion |
| Summary |
This book focuses on pose estimation algorithms for Autonomous Underwater Vehicles (AUVs). After introducing readers to the state of the art, it describes a joint endeavor involving attitude and position estimation, and details the development of a nonlinear attitude observer that employs inertial and magnetic field data and is suitable for underwater use. In turn, it shows how the estimated attitude constitutes an essential type of input for UKF-based position estimators that combine position, depth, and velocity measurements. The book discusses the possibility of including real-time estimates of sea currents in the developed estimators, and highlights simulations that combine real-world navigation data and experimental test campaigns to evaluate the performance of the resulting solutions. In addition to proposing novel algorithms for estimating the attitudes and positions of AUVs using low-cost sensors and taking into account magnetic disturbances and ocean currents, the book provides readers with extensive information and a source of inspiration for the further development and testing of navigation algorithms for AUVs |
| Bibliography |
Includes bibliographical references |
| Notes |
Online resource; title from PDF title page (EBSCO, April 18, 2019) |
|
Vendor-supplied metadata |
| Subject |
Autonomous underwater vehicles -- Design and construction
|
|
Autonomous underwater vehicles -- Testing
|
|
Navigation -- Mathematics
|
|
TECHNOLOGY & ENGINEERING -- Military Science.
|
|
Navigation -- Mathematics
|
| Form |
Electronic book
|
| ISBN |
9783030155964 |
|
303015596X |
|
3030155951 |
|
9783030155957 |
|
9783030155971 |
|
3030155978 |
|
9783030155988 |
|
3030155986 |
|
