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Related Concept Videos

PD Controller: Design01:26

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In automotive engineering, car suspension systems often employ Proportional Derivative (PD) controllers to enhance performance. PD controllers are utilized to adjust the damping force in response to road conditions. A controller, acting as an amplifier with a constant gain, demonstrates proportional control, with output directly mirroring input.
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The human nervous system handles vast amounts of information by translating sensory stimuli into neural impulses, which the brain processes, creating thoughts expressed through language or stored as memories. The brain also synthesizes information from emotions and memories, which significantly influence thoughts and behaviors. This intricate process creates a comprehensive mental picture.
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Proportional Integral (PI) controllers are a fundamental component in modern control systems, widely used to enhance performance and mitigate steady-state errors. They are particularly effective in applications such as automatic brightness adjustment on smartphones, where they excel at mitigating steady-state errors for step-function inputs. Unlike PD controllers, which require time-varying errors to function optimally, PI controllers leverage their integral component to address residual...
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A Basic Positron Emission Tomography System Constructed to Locate a Radioactive Source in a Bi-dimensional Space
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Concept Development of an On-Chip PET System.

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    Summary
    This summary is machine-generated.

    We developed an On-Chip Positron Emission Tomography (PET) system using monolithic LYSO crystals and Convolutional Neural Networks (CNNs) to image Organs-on-Chips (OOCs) with high spatial resolution.

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    Area of Science:

    • Medical Imaging
    • Microdevice Technology
    • Nuclear Instrumentation

    Background:

    • Organs-on-Chips (OOCs) are increasingly used for disease modeling and drug discovery.
    • High-resolution imaging is crucial for OOC applications, but current Positron Emission Tomography (PET) systems lack the necessary spatial resolution.
    • There is a growing demand for advanced imaging techniques to support OOC research.

    Purpose of the Study:

    • To propose and demonstrate an On-Chip PET system for high-resolution imaging of OOCs.
    • To develop a novel method for predicting gamma-ray interaction positions using Convolutional Neural Networks (CNNs).
    • To achieve sub-millimeter spatial resolution for OOC imaging.

    Main Methods:

    • Designed an On-Chip PET system with four detectors, each comprising monolithic Lutetium-yttrium oxyorthosilicate (LYSO) crystals and Silicon photomultipliers (SiPMs).
    • Utilized a CNN trained with Monte Carlo Simulation (MCS) data to predict gamma-ray interaction points from SiPM light patterns.
    • Employed Simultaneous Algebraic Reconstruction Technique (SART) for image reconstruction using predicted Line of Responses (LORs).

    Main Results:

    • The CNN achieved a mean average prediction error of 0.78 mm.
    • A mean spatial resolution of 0.53 mm was obtained when imaging a grid of 21 point sources.
    • Demonstrated the feasibility of achieving nearly 0.5 mm spatial resolution in a PET system using monolithic LYSO crystals and CNN-based scintillation position prediction.

    Conclusions:

    • The proposed On-Chip PET system, leveraging CNNs and monolithic LYSO detectors, can achieve high spatial resolution suitable for OOC imaging.
    • CNNs, particularly ResNet architectures, show superior performance for predicting scintillation positions compared to EfficientNet.
    • Specific detector surfaces provide more informative patterns for accurate scintillation-point prediction.