Minimally Invasive Pressure Sensor System for Tumor Monitoring
Yejoong Kim, Gyouho Kim, Zhiyoong Foo, Yoonmyung Lee, Suyoung Bang, Inhee Lee, Pat Pannuto, Benjamin Kempke, Ye-Sheng Kuo, Dennis Sylvester, Prabal Dutta, David Blaauw

Citation
Yejoong Kim, Gyouho Kim, Zhiyoong Foo, Yoonmyung Lee, Suyoung Bang, Inhee Lee, Pat Pannuto, Benjamin Kempke, Ye-Sheng Kuo, Dennis Sylvester, Prabal Dutta, David Blaauw. "Minimally Invasive Pressure Sensor System for Tumor Monitoring". Talk or presentation, 5, November, 2013; Poster presented at the 2013 TerraSwarm Annual Meeting.

Abstract
Medical implantation calls for the smallest, lowest power sensing devices to minimize the invasiveness of surgical procedures and maximize the lifetime of the devices. This work presents an 1.4mm x 2.91mm x 1.4mm sensing system consisting of a capacitive pressure sensor, capacitive-to-digital converter, ARM-based processor, a custom 915 MHz radio transmitter and 2uAh thin-film battery, all of which can fit inside the needle used for biopsy. The chips used in the system is designed on the ultra-low power M3 platform, limiting the active power to only 24uW and 8nW in sleep mode.

Electronic downloads


Internal. This publication has been marked by the author for TerraSwarm-only distribution, so electronic downloads are not available without logging in.
Citation formats  
  • HTML
    Yejoong Kim, Gyouho Kim, Zhiyoong Foo, Yoonmyung Lee,
    Suyoung Bang, Inhee Lee, Pat Pannuto, Benjamin Kempke,
    Ye-Sheng Kuo, Dennis Sylvester, Prabal Dutta, David Blaauw.
    <a
    href="http://www.terraswarm.org/pubs/200.html"><i>Minimally
    Invasive Pressure Sensor System for Tumor
    Monitoring</i></a>, Talk or presentation,  5,
    November, 2013; Poster presented at the <a
    href="http://www.terraswarm.org/conferences/13/annual"
    >2013 TerraSwarm Annual Meeting</a>.
  • Plain text
    Yejoong Kim, Gyouho Kim, Zhiyoong Foo, Yoonmyung Lee,
    Suyoung Bang, Inhee Lee, Pat Pannuto, Benjamin Kempke,
    Ye-Sheng Kuo, Dennis Sylvester, Prabal Dutta, David Blaauw.
    "Minimally Invasive Pressure Sensor System for Tumor
    Monitoring". Talk or presentation,  5, November, 2013;
    Poster presented at the <a
    href="http://www.terraswarm.org/conferences/13/annual"
    >2013 TerraSwarm Annual Meeting</a>.
  • BibTeX
    @presentation{KimKimFooLeeBangLeePannutoKempkeKuoSylvesterDuttaBlaauw13_MinimallyInvasivePressureSensorSystemForTumorMonitoring,
        author = {Yejoong Kim and Gyouho Kim and Zhiyoong Foo and
                  Yoonmyung Lee and Suyoung Bang and Inhee Lee and
                  Pat Pannuto and Benjamin Kempke and Ye-Sheng Kuo
                  and Dennis Sylvester and Prabal Dutta and David
                  Blaauw},
        title = {Minimally Invasive Pressure Sensor System for
                  Tumor Monitoring},
        day = {5},
        month = {November},
        year = {2013},
        note = {Poster presented at the <a
                  href="http://www.terraswarm.org/conferences/13/annual"
                  >2013 TerraSwarm Annual Meeting</a>.},
        abstract = {Medical implantation calls for the smallest,
                  lowest power sensing devices to minimize the
                  invasiveness of surgical procedures and maximize
                  the lifetime of the devices. This work presents an
                  1.4mm x 2.91mm x 1.4mm sensing system consisting
                  of a capacitive pressure sensor,
                  capacitive-to-digital converter, ARM-based
                  processor, a custom 915 MHz radio transmitter and
                  2uAh thin-film battery, all of which can fit
                  inside the needle used for biopsy. The chips used
                  in the system is designed on the ultra-low power
                  M3 platform, limiting the active power to only
                  24uW and 8nW in sleep mode.},
        URL = {http://terraswarm.org/pubs/200.html}
    }
    

Posted by Yejoong Kim on 12 Nov 2013.

Notice: This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright.