Experience

Neurex transforming your data into actionable insights with our expert data processing services, designed to optimize decision-making and drive business success

Tennis video Analysis

Tennis AI video analysis uses artificial intelligence to track player movements, analyse shots, and deliver performance insights. It detects shot types, speed, spin, and positioning, providing valuable match statistics, tactical recommendations.

Golf ball trajectory

AI in golf pitch analysis uses sensors, video, and data to track and improve a golfer's technique. It analyzes swing mechanics, predicts ball flight, and provides personalized feedback to optimize performance. AI-powered tools offer real-time insights on posture, grip, and shot accuracy, while wearable devices track motion for detailed feedback. By factoring in course conditions and weather, AI helps golfers make smarter decisions, and continuous performance tracking ensures steady improvement over time.

Post-op recovery

Post-operation player analysis focuses on evaluating a player's recovery and performance after surgery or treatment. This includes monitoring healing progress, assessing physical therapy outcomes, and comparing pre- and post-operation performance metrics like strength, speed, and endurance. The analysis also emphasizes injury prevention, ensuring the player is not at risk of reinjury, and addressing any psychological factors, such as confidence and readiness to return to competition. This holistic approach helps ensure a safe and effective transition back to play, while optimizing the player's long-term performance and well-being.

Basketball travel detection

Ball travel detection in computer vision involves detecting and tracking the ball’s movement through video frames. Techniques like color-based segmentation, circular Hough Transform, or deep learning models can be used for detection, while tracking can be achieved using optical flow, Kalman filters, or algorithms like SORT. Once tracked, the ball's trajectory, speed, and direction can be analyzed, allowing for predictions and event detection such as ball crossing boundaries or bouncing. This approach is widely used in sports analytics and automation systems.