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An experimental system for detection and localization of hemorrhage using ultra-wideband microwaves with deep learning

Eisa Hedayati, Fatemeh Safari, George C. Verghese, Vito R. Ciancia, Daniel K. Sodickson, Seena Dehkharghani, Leeor Alon

发表年份
2024
引用次数
4
访问权限
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摘要

Stroke is a leading cause of mortality and disability. Emergent diagnosis and intervention are critical, and predicated upon initial brain imaging; however, existing clinical imaging modalities are generally costly, immobile, and demand highly specialized operation and interpretation. Low-energy microwaves have been explored as a low-cost, small form factor, fast, and safe probe for tissue dielectric properties measurements, with both imaging and diagnostic potential. Nevertheless, challenges inherent to microwave reconstruction have impeded progress, hence conduction of microwave imaging remains an elusive scientific aim. Herein, we introduce a dedicated experimental framework comprising a robotic navigation system to translate blood-mimicking phantoms within a human head model. An 8-element ultra-wideband array of modified antipodal Vivaldi antennas was developed and driven by a two-port vector network analyzer spanning 0.6–9.0 GHz at an operating power of 1 mW. Complex scattering parameters were measured, and dielectric signatures of hemorrhage were learned using a dedicated deep neural network for prediction of hemorrhage classes and localization. An overall sensitivity and specificity for detection >0.99 was observed, with Rayleigh mean localization error of 1.65 mm. The study establishes the feasibility of a robust experimental model and deep learning solution for ultra-wideband microwave stroke detection. Eisa Hedayati, Fatemeh Safari and colleagues use an array of ultra-wideband microwave antennas to locate the haemorrhages in a human head phantom. The results of the measurements are processed by the deep neural network algorithm to classify the digital signatures for efficient detection and localization.

关键词

Ultra-widebandMicrowaveDeep learningMicrowave imagingWidebandArtificial intelligenceComputer scienceMaterials sciencePhysicsOptics

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