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Discover the expansive world of quaternion algebra with this comprehensive guide tailored for electrical engineers. This book bridges theoretical concepts with practical applications, featuring detailed Python code examples for each chapter to enhance your learning experience. Whether you're involved in digital signal processing, computer graphics, or advanced control systems, this book is your key to mastering quaternions. Key Features: * Practical Python Examples: Engage with hands-on Python code that complements each chapter's theoretical concepts. * Breadth of Topics: Covers the essentials of quaternion algebra and its vast applications in modern engineering and simulation. * Real-World Applications: Learn how quaternions are utilized in control systems, signal processing, robotics, and more. * Step-by-Step Explanations: Accessible content designed to guide you through complex mathematical transformations. * Interdisciplinary Approach: Suitable for both students and professionals in engineering, physics, computer science, and more. What You Will Learn: * Master the fundamentals of quaternion algebra and their application in 3D modeling. * Develop a deep understanding of quaternion multiplication and rotation composition. * Comprehend quaternion conjugates and inverses for rotation correction and normalization. * Represent 3D rotations with quaternions and derive the mathematical framework. * Explore quaternion norm concepts and the significance of unit quaternions in rotations. * Convert between rotation matrices and quaternions with precise algorithms. * Delve into the quaternion exponential and logarithm functions for interpolation. * Implement spherical linear interpolation (SLERP) using quaternions in simulations. * Solve quaternion differential equations for rotational dynamics modeling. * Integrate quaternion-based rotational motions with advanced numerical techniques. * Apply quaternion calculus to model 3D kinematic motion in rigid bodies. * Represent angular velocity as quaternion derivatives in dynamic simulations. * Use quaternions to compute spacecraft attitude in aerospace applications. * Design quaternion-based control algorithms for stable electrical systems. * Implement quaternion state Kalman filters for sensor fusion and tracking. * Formulate feedback control laws for attitude systems using quaternions. * Master advanced quaternion interpolation with Squad techniques. * Create smooth 3D animations using quaternion splines. * Optimize 3D rendering pipelines with quaternion rotations in graphics. * Extend Fourier transforms to quaternion functions for signal processing. * Explore Clifford algebra relations in geometric computations with quaternions. * Combine translations and rotations using dual quaternions. * Model electromagnetic fields with quaternion algebra in simulations. * Formulate and simulate Maxwell's equations using quaternionic representations. * Process 3D signals retaining spatial fidelity with quaternion transformations. * Utilize quaternion filters for enhanced image and data processing. * Develop powerful quaternion neural network architectures for 3D learning. * Extend Hilbert spaces to quaternions for quantum computing applications. * Solve eigenvalue problems with quaternion matrices for stability analysis. * Perform spectral decomposition using quaternionic algebra for signals. * Use quaternions to model antenna orientations in electromagnetic simulations.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.