Design Paper on Dynamic Gesture Based Mathematical Interface and Problem Solver
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Abstract
The "Dynamic Gesture-Based Mathematical Interface and Problem Solver" paper aims to create a revolutionize in the way users interact with mathematical problems by utilizing gesture-based input for intuitive and natural interaction. This system employs real-time hand gestures recognition to capture written mathematical expressions, which are then processed to provide accurate solutions. By leveraging computer vision techniques and advanced mathematical algorithms, the interface allows users to draw equations in the air or on a surface, which are dynamically recognized and solved. The solution integrates gesture recognition, mathematical parsing, and a robust calculation engine to enhance educational engagement, assist in mathematical research, and offer an innovative approach to problem-solving in engineering. Adding dynamic gesture recognition to the new interactive teaching system is of great significance to improve the teaching efficiency. However, the features extracted by traditional dynamic gesture recognition methods are usually difficult to accurately represent the differences between dynamic gestures.