Abstract
Geometric Algebra (GA) has proven to be an advanced language for mathematics, physics, computer science, and engineering. This review presents a comprehensive study of works on Quaternion Algebra and GA applications in computer science and engineering from 1995 to 2020. After a brief introduction of GA, the applications of GA are reviewed across many fields. We discuss the characteristics of the applications of GA to various problems of computer science and engineering. In addition, the challenges and prospects of various applications proposed by many researchers are analyzed. We analyze the developments using GA in image processing, computer vision, neurocomputing, quantum computing, robot modeling, control, and tracking, as well as improvement of computer hardware performance. We believe that up to now GA has proven to be a powerful geometric language for a variety of applications. Furthermore, there is evidence that this is the appropriate geometric language to tackle a variety of existing problems and that consequently, step-by-step GA-based algorithms should continue to be further developed. We also believe that this extensive review will guide and encourage researchers to continue the advancement of geometric computing for intelligent machines.
Highlights
The recent reviews ‘‘Applications of Clifford’s Geometric Algebra’’ by E
The study focuses on research works in which the development and mechanism of applied Geometric Algebra (GA) are studied by statistical mathematical methods
This review presents a comprehensive study of works on applications of Quaternion Algebra and Geometric Algebra in computer science and engineering from 1995 to 2020
Summary
The recent reviews ‘‘Applications of Clifford’s Geometric Algebra’’ by E. Since 1995, Eduardo Bayro-Corrochano and Joan Lasenby pioneered in the application of geometric algebra to computer vision [14]–[18], [152], [153], [153], [155]–[157], [213], Bayro et al in robotics [15], [19], [33], [74] and Bayro et al in neurocomputing [20]–[24] In the beginning, their articles were hardly accepted and not understood as they proposed a new geometric approach using exclusively the geometric algebra framework which was fairly unknown by the community and completely different from the usual methods based on matrix algebra, vector calculus, and tensor algebra.
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