Joselin Jeya Sheela J, Gul Shaira Banu Jahangeer, N Duraichi, M Logeshwaran, B Jeyapoornima
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The resulting images offer visual insights into the location of fractures.</p><p><strong>Results: </strong>Through experimentation, the efficacy of the images varies considerably in terms of their capacity for noise and artifact suppression. While DAS exhibits reasonable effectiveness, it suppresses noise and artifacts comprehensively. In contrast, DMAS offers clearer and more precise images of bone fractures.</p><p><strong>Conclusion: </strong>In summary, the research introduces a cost-effective and non-invasive strategy for detecting bone fractures. By involving a patch antenna at 2.4 GHz, along with image reconstruction algorithms like DMAS and DAS, one can effectively visualize the location of bone fractures. 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引用次数: 0
摘要
背景:人体骨骼系统在很大程度上依赖于骨骼的完整性,骨骼提供结构支撑并保护重要器官。准确检测对有效诊断至关重要。手动识别骨折的传统方法不仅耗时,而且容易出错:方法:所提出的方法依赖于一个工作频率为 2.4 GHz 的贴片天线和一个放置模拟骨折的骨模型,在骨模型中对天线进行扫描。然后用延迟和(DAS)和延迟-乘法和(DMAS)重建算法处理收集到的信号。由此生成的图像可直观地显示裂缝的位置:结果:通过实验,图像在抑制噪音和伪影方面的效果差异很大。虽然 DAS 具有合理的效果,但它能全面抑制噪声和伪影。相比之下,DMAS 可提供更清晰、更精确的骨折图像:总之,这项研究提出了一种检测骨折的经济、非侵入性策略。通过使用 2.4 GHz 的贴片天线以及 DMAS 和 DAS 等图像重建算法,人们可以有效地观察到骨折的位置。实验结果凸显了 DMAS 在对比分辨率方面优于 DAS,使其成为一种极具前景的骨折检测方法。
Microwave Imaging: Locating Bone Fractures using Patch Antenna of ISM Band.
Background: The human skeletal system relies heavily on the integrity of bones, which provide structural support and safeguard vital organs. Accurate detection is paramount for effective diagnosis. Conventional methods for identifying fractures manually are not only time-consuming but also susceptible to errors.
Methods: The proposed methodology hinges on a patch antenna operating at 2.4 GHz and a bone phantom housing a simulated fracture, where the antenna is scanned. The collected signals are then processed with Delay-and-Sum (DAS), and Delay-Multiply-and-Sum (DMAS) reconstruction algorithms. The resulting images offer visual insights into the location of fractures.
Results: Through experimentation, the efficacy of the images varies considerably in terms of their capacity for noise and artifact suppression. While DAS exhibits reasonable effectiveness, it suppresses noise and artifacts comprehensively. In contrast, DMAS offers clearer and more precise images of bone fractures.
Conclusion: In summary, the research introduces a cost-effective and non-invasive strategy for detecting bone fractures. By involving a patch antenna at 2.4 GHz, along with image reconstruction algorithms like DMAS and DAS, one can effectively visualize the location of bone fractures. The experimental results highlight the superiority of DMAS over DAS in terms of contrast resolution, making it a highly promising avenue for fracture detection.
期刊介绍:
Current Medical Imaging Reviews publishes frontier review articles, original research articles, drug clinical trial studies and guest edited thematic issues on all the latest advances on medical imaging dedicated to clinical research. All relevant areas are covered by the journal, including advances in the diagnosis, instrumentation and therapeutic applications related to all modern medical imaging techniques.
The journal is essential reading for all clinicians and researchers involved in medical imaging and diagnosis.
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