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iChip01:24

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The cultivation of environmental microorganisms has long been hindered by the inability to replicate complex native conditions in vitro. The isolation chip (iChip) addresses this limitation by facilitating the growth of previously uncultivable microorganisms through in situ incubation. Designed for high-throughput microbial cultivation, the iChip comprises hundreds of microchambers, each capable of housing a single microbial cell. These microchambers are loaded with a mixture of molten agar and...
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Single chip interrogation system for a smart shoe wireless transponder.

Shahrzad Sheibani, Meisam Roshan, Haiying Huang

    Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
    |January 9, 2015
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    This study presents a novel wireless transponder for shoe-based sensors to simultaneously measure shear and pressure forces, aiding in diabetic foot diagnosis. The compact design integrates an energy harvester and identification system for efficient data transmission.

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    Area of Science:

    • Biomedical Engineering
    • Sensor Technology
    • Wireless Communication

    Background:

    • Diabetic foot complications require advanced monitoring solutions.
    • Existing diagnostic methods for foot pressure and shear forces can be invasive or lack continuous monitoring capabilities.
    • Wireless sensor systems offer potential for non-invasive, real-time assessment.

    Purpose of the Study:

    • To design and develop a compact wireless transponder for simultaneously measuring shear and pressure forces.
    • To integrate an identification system with an energy harvester for self-powered operation.
    • To enable real-time data transmission for diabetic foot diagnosis.

    Main Methods:

    • Design of a wireless transponder incorporating sensor antennas and an identification system.
    • Integration of an energy harvester, crystal oscillator, and passive mixer within the identification system.
    • Development of a single-chip interrogation circuit using IBM 130 nm CMOS technology.

    Main Results:

    • A functional wireless transponder capable of simultaneous shear and pressure force measurement was designed.
    • The integrated identification system achieved a compact size of 1.2 mm × 0.8 mm, including bond pads.
    • The system utilizes signal modulation of reflected antenna signals for data transmission.

    Conclusions:

    • The developed wireless transponder is a promising technology for non-invasive diabetic foot monitoring.
    • The compact and integrated design facilitates easy incorporation into footwear.
    • This system has the potential to improve early detection and management of diabetic foot issues.