CurbNet: Advanced Curb Detection Framework Based on LiDAR Point Cloud Segmentation

Advanced sensors can help minimize scanning blind spots by offering a wider field of view and higher resolution. By utilizing sensors with a broader coverage range, such as multi-beam LiDAR systems or sensor fusion techniques combining LiDAR with other modalities like cameras or radar, the chances of missing critical information due to blind spots are reduced. Additionally, incorporating technologies like dynamic scanning patterns or adaptive sensor configurations can further enhance the sensor's ability to capture data from all angles effectively. These advancements in sensor technology enable more comprehensive data collection, leading to more accurate curb detection in complex road environments.

Relying solely on LiDAR technology for detecting curbs may have limitations related to scanning blind spots and occlusions. Since LiDAR operates based on line-of-sight principles, it may struggle to detect objects obstructed by obstacles or located in areas not directly within its field of view. This could result in incomplete or inaccurate curb detection, especially in scenarios where there are obstructions like parked vehicles or vegetation along the roadside. Additionally, factors such as varying light conditions and reflective surfaces might also impact the effectiveness of LiDAR-based curb detection. Therefore, depending exclusively on LiDAR technology without complementary sensing modalities could lead to gaps in curb detection accuracy and reliability.

To enhance the CurbNet framework for improved performance in multi-modal data contexts, several strategies can be implemented: Sensor Fusion: Integrating additional sensing modalities such as cameras, radar, or ultrasonic sensors alongside LiDAR can provide complementary information that enhances feature extraction and improves overall object recognition. Multi-Task Learning: Implementing multi-task learning approaches within CurbNet to simultaneously process different types of sensory inputs and optimize model performance across various tasks related to autonomous driving. Adaptive Feature Fusion: Developing mechanisms within CurbNet that dynamically adjust feature fusion strategies based on input modality strengths and weaknesses. Transfer Learning: Leveraging pre-trained models on diverse datasets encompassing multiple modalities to fine-tune CurbNet specifically for handling varied sensory inputs efficiently. By incorporating these enhancements tailored towards handling multi-modal data contexts effectively, CurbNet's capabilities can be extended beyond just LiDAR-based detections towards more robust and versatile autonomous driving applications.