Kenji > Publications

Publications List (Partial from dblp)

  2019 (4)
Desynchronization of Self-Powered FN Tunneling Timers for Trust Verification of IoT Supply Chain. Zhou, L.; Kondapalli, S. H.; Aono, K.; and Chakrabartty, S. IEEE Internet of Things Journal, 6(4): 6537–6547. 2019.
Desynchronization of Self-Powered FN Tunneling Timers for Trust Verification of IoT Supply Chain [link]Paper   doi   bibtex
Exploiting Self-Capacitances for Wireless Power Transfer. Alazzawi, Y.; Aono, K.; Scheller, E. L.; and Chakrabartty, S. IEEE Trans. Biomed. Circuits and Systems, 13(2): 425–434. 2019.
Exploiting Self-Capacitances for Wireless Power Transfer [link]Paper   doi   bibtex
Real-time Infrastructure-to-Vehicle Communication using RF-Triggered Wireless Sensors. Pochettino, O.; Kondapalli, S. H.; Aono, K.; and Chakrabartty, S. In 62nd IEEE International Midwest Symposium on Circuits and Systems, MWSCAS 2019, Dallas, TX, USA, August 4-7, 2019, pages 556–559, 2019.
Real-time Infrastructure-to-Vehicle Communication using RF-Triggered Wireless Sensors [link]Paper   doi   bibtex
Long-term, Time-synchronized Temperature Monitoring using Self-Powered CMOS Timers. Kondapalli, S. H.; Zhou, L.; Aono, K.; and Chakrabartty, S. In 62nd IEEE International Midwest Symposium on Circuits and Systems, MWSCAS 2019, Dallas, TX, USA, August 4-7, 2019, pages 856–859, 2019.
Long-term, Time-synchronized Temperature Monitoring using Self-Powered CMOS Timers [link]Paper   doi   bibtex
  2018 (5)
A CMOS Timer-Injector Integrated Circuit for Self-Powered Sensing of Time-of-Occurrence. Zhou, L.; Aono, K.; and Chakrabartty, S. J. Solid-State Circuits, 53(5): 1539–1549. 2018.
A CMOS Timer-Injector Integrated Circuit for Self-Powered Sensing of Time-of-Occurrence [link]Paper   doi   bibtex
Quasi-self-powered Infrastructural Internet of Things: The Mackinac Bridge Case Study. Aono, K.; Hasni, H.; Pochettino, O.; Lajnef, N.; and Chakrabartty, S. In Proceedings of the 2018 on Great Lakes Symposium on VLSI, GLSVLSI 2018, Chicago, IL, USA, May 23-25, 2018, pages 335–340, 2018.
Quasi-self-powered Infrastructural Internet of Things: The Mackinac Bridge Case Study [link]Paper   doi   bibtex
Self-powered Sensing and Time-Stamping of Tampering Events. Mehta, D.; Zhou, L.; Aono, K.; and Chakrabartty, S. In IEEE 61st International Midwest Symposium on Circuits and Systems, MWSCAS 2018, Windsor, ON, Canada, August 5-8, 2018, pages 968–971, 2018.
Self-powered Sensing and Time-Stamping of Tampering Events [link]Paper   doi   bibtex
Gaussian Process Regression for Improving the Performance of Self-powered Time-of-Occurrence Sensors. Zhou, L.; Aono, K.; and Chakrabartty, S. In IEEE 61st International Midwest Symposium on Circuits and Systems, MWSCAS 2018, Windsor, ON, Canada, August 5-8, 2018, pages 996–999, 2018.
Gaussian Process Regression for Improving the Performance of Self-powered Time-of-Occurrence Sensors [link]Paper   doi   bibtex
Hybrid-Powered Internet-of-Things for Infrastructure-to-Vehicle Communication. Kondapalli, S. H.; Pochettino, O.; Aono, K.; and Chakrabartty, S. In IEEE 61st International Midwest Symposium on Circuits and Systems, MWSCAS 2018, Windsor, ON, Canada, August 5-8, 2018, pages 1000–1003, 2018.
Hybrid-Powered Internet-of-Things for Infrastructure-to-Vehicle Communication [link]Paper   doi   bibtex
  2017 (1)
Infrasonic scene fingerprinting for authenticating speaker location. Aono, K.; Chakrabartty, S.; and Yamasaki, T. In 2017 IEEE International Conference on Acoustics, Speech and Signal Processing, ICASSP 2017, New Orleans, LA, USA, March 5-9, 2017, pages 361–365, 2017.
Infrasonic scene fingerprinting for authenticating speaker location [link]Paper   doi   bibtex
  2016 (2)
Monitoring of Postoperative Bone Healing Using Smart Trauma-Fixation Device With Integrated Self-Powered Piezo-Floating-Gate Sensors. Borchani, W.; Aono, K.; Lajnef, N.; and Chakrabartty, S. IEEE Trans. Biomed. Engineering, 63(7): 1463–1472. 2016.
Monitoring of Postoperative Bone Healing Using Smart Trauma-Fixation Device With Integrated Self-Powered Piezo-Floating-Gate Sensors [link]Paper   doi   bibtex
Infrastructural health monitoring using self-powered Internet-of-Things. Aono, K.; Lajnef, N.; Faridazar, F.; and Chakrabartty, S. In IEEE International Symposium on Circuits and Systems, ISCAS 2016, Montréal, QC, Canada, May 22-25, 2016, pages 2058–2061, 2016.
Infrastructural health monitoring using self-powered Internet-of-Things [link]Paper   doi   bibtex
  2015 (1)
Self-Powered Monitoring of Repeated Head Impacts Using Time-Dilation Energy Measurement Circuit. Feng, T.; Aono, K.; Covassin, T.; and Chakrabartty, S. IEEE Trans. Biomed. Circuits and Systems, 9(2): 217–226. 2015.
Self-Powered Monitoring of Repeated Head Impacts Using Time-Dilation Energy Measurement Circuit [link]Paper   doi   bibtex
  2014 (1)
Monitoring of repeated head impacts using time-dilation based self-powered sensing. Aono, K.; Covassin, T.; and Chakrabartty, S. In IEEE International Symposium on Circuits and Systemss, ISCAS 2014, Melbourne, Victoria, Australia, June 1-5, 2014, pages 1620–1623, 2014.
Monitoring of repeated head impacts using time-dilation based self-powered sensing [link]Paper   doi   bibtex
  2013 (2)
Exploiting Jump-Resonance Hysteresis in Silicon Auditory Front-Ends for Extracting Speaker Discriminative Formant Trajectories. Aono, K.; Shaga, R. K.; and Chakrabartty, S. IEEE Trans. Biomed. Circuits and Systems, 7(4): 389–400. 2013.
Exploiting Jump-Resonance Hysteresis in Silicon Auditory Front-Ends for Extracting Speaker Discriminative Formant Trajectories [link]Paper   doi   bibtex
Noise-Shaping Gradient Descent-Based Online Adaptation Algorithms for Digital Calibration of Analog Circuits. Chakrabartty, S.; Shaga, R. K.; and Aono, K. IEEE Trans. Neural Netw. Learning Syst., 24(4): 554–565. 2013.
Noise-Shaping Gradient Descent-Based Online Adaptation Algorithms for Digital Calibration of Analog Circuits [link]Paper   doi   bibtex