多传感器学习实现了不同感官数据之间的信息传递,并增强了多模态成像能力。

IF 20.8 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Lingting Zhu,Yizheng Chen,Lianli Liu,Lei Xing,Lequan Yu
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引用次数: 0

摘要

多模态成像被广泛应用于临床实践和生物医学研究,以全面了解成像对象。目前,多模态成像是在互信息或空间注册硬件的指导下,通过对独立重建的图像进行事后融合来实现的,这限制了多模态成像的准确性和实用性。在这里,我们研究了一种数据驱动的多模态成像(DMI)策略,用于 CT 和 MRI 的协同成像。我们揭示了多模态成像中两种不同类型的特征,即模态内特征和模态间特征,并提出了一个多传感器学习(MSL)框架,利用交叉的模态间特征来增强多模态成像。MSL 成像方法打破了传统成像模式的界限,实现了 CT 和 MRI 的最佳混合,最大限度地利用了感官数据。我们通过 CT-MRI 脑成像协同技术展示了 DMI 策略的有效性。DMI 的原理非常普遍,在各学科的各种 DMI 应用中蕴藏着巨大的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-sensor Learning Enables Information Transfer across Different Sensory Data and Augments Multi-modality Imaging.
Multi-modality imaging is widely used in clinical practice and biomedical research to gain a comprehensive understanding of an imaging subject. Currently, multi-modality imaging is accomplished by post hoc fusion of independently reconstructed images under the guidance of mutual information or spatially registered hardware, which limits the accuracy and utility of multi-modality imaging. Here, we investigate a data-driven multi-modality imaging (DMI) strategy for synergetic imaging of CT and MRI. We reveal two distinct types of features in multi-modality imaging, namely intra- and inter-modality features, and present a multi-sensor learning (MSL) framework to utilize the crossover inter-modality features for augmented multi-modality imaging. The MSL imaging approach breaks down the boundaries of traditional imaging modalities and allows for optimal hybridization of CT and MRI, which maximizes the use of sensory data. We showcase the effectiveness of our DMI strategy through synergetic CT-MRI brain imaging. The principle of DMI is quite general and holds enormous potential for various DMI applications across disciplines.
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来源期刊
CiteScore
28.40
自引率
3.00%
发文量
885
审稿时长
8.5 months
期刊介绍: The IEEE Transactions on Pattern Analysis and Machine Intelligence publishes articles on all traditional areas of computer vision and image understanding, all traditional areas of pattern analysis and recognition, and selected areas of machine intelligence, with a particular emphasis on machine learning for pattern analysis. Areas such as techniques for visual search, document and handwriting analysis, medical image analysis, video and image sequence analysis, content-based retrieval of image and video, face and gesture recognition and relevant specialized hardware and/or software architectures are also covered.
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