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Main Authors: Yang, Xinquan, Li, Xuguang, Luo, Xiaoling, Zeng, Leilei, Zhang, Yudi, Shen, Linlin, Deng, Yongqiang
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.04603
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author Yang, Xinquan
Li, Xuguang
Luo, Xiaoling
Zeng, Leilei
Zhang, Yudi
Shen, Linlin
Deng, Yongqiang
author_facet Yang, Xinquan
Li, Xuguang
Luo, Xiaoling
Zeng, Leilei
Zhang, Yudi
Shen, Linlin
Deng, Yongqiang
contents Surgical guide plate is an important tool for the dental implant surgery. However, the design process heavily relies on the dentist to manually simulate the implant angle and depth. When deep neural networks have been applied to assist the dentist quickly locates the implant position, most of them are not able to determine the implant depth. Inspired by the video grounding task which localizes the starting and ending time of the target video segment, in this paper, we simplify the implant depth prediction as video grounding and develop a Texture Perceive Implant Depth Prediction Network (TPNet), which enables us to directly output the implant depth without complex measurements of oral bone. TPNet consists of an implant region detector (IRD) and an implant depth prediction network (IDPNet). IRD is an object detector designed to crop the candidate implant volume from the CBCT, which greatly saves the computation resource. IDPNet takes the cropped CBCT data to predict the implant depth. A Texture Perceive Loss (TPL) is devised to enable the encoder of IDPNet to perceive the texture variation among slices. Extensive experiments on a large dental implant dataset demonstrated that the proposed TPNet achieves superior performance than the existing methods.
format Preprint
id arxiv_https___arxiv_org_abs_2406_04603
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Simplify Implant Depth Prediction as Video Grounding: A Texture Perceive Implant Depth Prediction Network
Yang, Xinquan
Li, Xuguang
Luo, Xiaoling
Zeng, Leilei
Zhang, Yudi
Shen, Linlin
Deng, Yongqiang
Computer Vision and Pattern Recognition
Surgical guide plate is an important tool for the dental implant surgery. However, the design process heavily relies on the dentist to manually simulate the implant angle and depth. When deep neural networks have been applied to assist the dentist quickly locates the implant position, most of them are not able to determine the implant depth. Inspired by the video grounding task which localizes the starting and ending time of the target video segment, in this paper, we simplify the implant depth prediction as video grounding and develop a Texture Perceive Implant Depth Prediction Network (TPNet), which enables us to directly output the implant depth without complex measurements of oral bone. TPNet consists of an implant region detector (IRD) and an implant depth prediction network (IDPNet). IRD is an object detector designed to crop the candidate implant volume from the CBCT, which greatly saves the computation resource. IDPNet takes the cropped CBCT data to predict the implant depth. A Texture Perceive Loss (TPL) is devised to enable the encoder of IDPNet to perceive the texture variation among slices. Extensive experiments on a large dental implant dataset demonstrated that the proposed TPNet achieves superior performance than the existing methods.
title Simplify Implant Depth Prediction as Video Grounding: A Texture Perceive Implant Depth Prediction Network
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2406.04603