Adaptive Object Detection for Indoor Navigation Assistance: A Performance Evaluation of Real-Time Algorithms
It addresses the problem of accurate and efficient object detection for visually impaired individuals in indoor navigation, but is incremental as it evaluates existing methods on new data.
This study evaluated four real-time object detection algorithms (YOLO, SSD, Faster R-CNN, Mask R-CNN) for indoor navigation assistance, finding trade-offs between precision and efficiency to guide algorithm selection.
This study addresses the need for accurate and efficient object detection in assistive technologies for visually impaired individuals. We evaluate four real-time object detection algorithms YOLO, SSD, Faster R-CNN, and Mask R-CNN within the context of indoor navigation assistance. Using the Indoor Objects Detection dataset, we analyze detection accuracy, processing speed, and adaptability to indoor environments. Our findings highlight the trade-offs between precision and efficiency, offering insights into selecting optimal algorithms for realtime assistive navigation. This research advances adaptive machine learning applications, enhancing indoor navigation solutions for the visually impaired and promoting accessibility.