 |  |  |
| | | |
Beyond Visualization – Vivid Frameworks for Ubiquitous Sensor Data
Unleashing Ubiquitous and Unobtrusive Context Sensing: Towards More Practical AI-Powered Homes and Environments
Deep Learning-enabled Computational Imaging and Sensing
GE’s Predix Edge – Enabling the Asset Based SW Defined Machine Symposium Sessions | ||
Monday May 14 | ||
| 1:30 | Flexible Electronics | |
Tuesday May 15 | ||
| 10:30 | Sensors Keynotes & Panel Discussion | |
| 1:30 | Photonics Sensors | |
Wednesday May 16 | ||
| 8:30 | Sensors Oil & Gas Industry Applications | |
| 10:30 | Environmental Sensors: Air and Water | |
| 1:30 | Biosensors & MEMS | |
| 3:30 | Sensors: Posters | |
Symposium Program | ||
Monday May 14 | ||
| 1:30 | Flexible Electronics | 251 B |
| Session chair: Yiliang Wu, TE Connectivity, US; Mandakini Kanungo, Corning, Inc., US | ||
| 1:30 | Flexible Hybrid Electronics Manufacturing: Enabling Electronics Out of the Box (invited presentation) P. Semenza, NextFlex, US | |
| 1:55 | 3D printed flexible sensor systems (invited presentation) W.S. Kim, Simon Fraser University, CA | |
| 2:20 | Flexible Mid-IR photonic chip for real-time and label-free chemical sensing P.T. Lin, Texas A&M University, US | |
| 2:40 | A Stretching/Bending-Insensitive Flexible Pressure Sensor with Carbon Nanotube-PDMS R. Zhang, Stevens Institute of Technology, US | |
| 3:00 | Textile-enable Flexible and Foldable Lithium-ion Batteries Z. Zheng, The Hong Kong Polytechnic University, HK | |
Tuesday May 15 | ||
| 10:30 | Sensors Keynotes & Panel Discussion | 251 A |
| Session chair: Martin E. Poitzsch, Aramco Research Center, US | ||
| 10:30 | GE’s Predix Edge – Enabling the Asset Based SW Defined Machine (invited presentation) A. Berner, GE Global Research, US | |
| 10:55 | Unleashing Ubiquitous and Unobtrusive Context Sensing: Towards More Practical AI-Powered Homes and Environments (invited presentation) G. Laput, Carnegie Mellon University, US | |
| 11:20 | Beyond Visualization – Vivid Frameworks for Ubiquitous Sensor Data (invited presentation) J. Paradiso, Massachusetts Institute of Technology, US | |
| 11:45 | Sensors Panel Discussion | |
| A. Berner, GE Global Research, US | ||
| G. Laput, Carnegie Mellon University, US | ||
| J. Paradiso, Massachusetts Institute of Technology, US | ||
| 1:30 | Photonics Sensors | 251 A |
| Session chair: Martin E. Poitzsch, Aramco Research Center, US; Loucas Tsakalakos, GE Global Research, US | ||
| 1:30 | Photonics & Sensing at GE Global Research (invited presentation) L. Tsakalakos, GE Global Research, US | |
| 1:55 | Chemical and Biological Sensing on the AIM Photonics Platform (invited presentation) B. Miller, University of Rochester Medical Center, US | |
| 2:20 | Magnetic Surface-Enhanced Raman Scattering (SERS) Composite Nanoparticles for In-situ Optical Sensing and Nanoprobes Applications S. Chang, S. Eichmann, W. Yun, M. Poitzsch, W. Wang, Aramco Research Center–Boston, US | |
| 2:40 | SERS Detection of DNA-Bound Methylthioninium Chloride on Gold Coated Substrates. M.R. Shattique, M. Stepanova, Missouri State University, US | |
| 3:00 | Computational sensing with mobile optical readers designed by machine learning Z.S. Ballard, D. Shir, A. Bhardwaj, S. Bazargan, S. Sathianathan, A. Ozcan, University of California, Los Angeles, US | |
| 3:20 | Deep Learning Improves Smartphone Microscopy Using a Convolutional Neural Network Y. Rivenson, H. Ceylan Koydemir, H. Wang, Z. Wei, Z. Ren, H. Günaydın, Y. Zhang, Z. Göröcs, K. Liang, D. Tseng, A. Ozcan, UCLA, US | |
Wednesday May 16 | ||
| 8:30 | Sensors Oil & Gas Industry Applications | 252 A |
| Session chair: Alex Norman, ExxonMobil Chemical, US; Michele L. Ostraat, Aramco Services Company, US | ||
| 8:30 | Microfluidic and Nanofluidics phase behaviour characterization for CO2, oil and gas (invited presentation) D. Sinton, University of Toronto, CA | |
| 8:55 | Non-invasive and Real-time Gas Mixture Analysis Using Mid-infrared Micro-cavities P.T. Lin, Texas A&M University, US | |
| 9:15 | A platform for extremely sensitive gas sensing: 2D materials on silicon carbide J. Eriksson, M. Rodner, R. Yakimova, A.L. Spetz, Linköping University, SE | |
| 9:35 | Surface-Enhanced Fluorescence and Raman (SEF-SERS) Multifunctional Nanoparticles for Nanoprobe Applications W. Wang, S. Chang, T.-Y.S. Huang, S. Eichmann, Aramco Services Company, US | |
| 10:30 | Environmental Sensors: Air and Water | 252 A |
| Session chair: YuanQiao Rao, The Dow Chemical Company, US ; Baoxia Mi, UC Berkeley, US | ||
| 10:30 | In-Gel Loop Mediated Isothermal Amplification (gLAMP) Enables Coliphage Quantification within 30 Minutes X. Huang, California Institute of Technology, US | |
| 10:50 | Electromechanical Detection of Pathogens with Self-Assembled Nucleic Acid Biosensors K. Urmann, J. Bahnemann, Z. Chikneyan, L.M. Kasmaee, M.R. Hoffmann, California Institute of Technology, US | |
| 11:10 | Selective and Sensitive Sensors Based on Molecularly Imprinted Polymers for Detection of Pollutants in Water S.F.Y. Li, National University of Singapore, SG | |
| 11:30 | An innovative device to determine the partial pressure of volatile components via substrate-integrated hollow waveguide infrared spectroscopy with integrated microfluidics C. Penisson, J. Theisen, V. Kokoric, A. Wilk, G. Bernard, T. Zemb, B. Mizaikoff, J.-C.P. Gabriel, CEA, FR | |
| 11:50 | Silicon Nanowire Vertical Arrays with Porous Top Electrodes for Trace Vapor Preconcentration and Partial Separation B. Giordano, P. Pehrsson, K. Johnson, U.S. Naval Research Laboratory, US | |
| 1:30 | Biosensors & MEMS | 252 A |
| Session chair: Martin E. Poitzsch, Aramco Research Center, William (Cy) Wilson, NASA, US | ||
| 1:30 | Deep Learning-enabled Computational Imaging and Sensing (invited presentation) A. Ozcan, University of California, Los Angeles, US | |
| 1:55 | Fully Transparent Field-Effect Biosensors X. Du, G.S. Herman, Oregon State University, US | |
| 2:15 | Fast-reacting smart hydrogel-based sensor platform for biomedical applications J. Koerner, C.F. Reiche, H-Y Leu, J. Magda, F. Solzbacher, University of Utah, US | |
| 2:35 | Urea Electrolysis as a Medical Devices Platform G.G. Botte, Ohio University - Center for Electrochemical Engineering Research, US | |
| 2:55 | A novel co-resonantly coupled cantilever sensor platform J. Koerner, University of Utah, US | |
| 3:15 | Analytical Modeling of Microfluidic Cantilever Sensor with Evaporating Ethanol L. K. Marepalli, V. Sukhotskiy, I. V. A. K. Reddy, A. Verma and E. P. Furlani, University at Buffalo, US | |
| 3:35 | Silicon lens arrays for wafer level packaging of IR-sensors A. Kulkarni, V. Stenchly, J. Quenzer, R. Dudde, Fraunhofer Institute Silicon Technology, DE | |
| 3:30 | Sensors: Posters | 2nd Floor |
| CMOS compatible gas sensor for selective detection of volatile organic compounds (VOCs) J. Hayon, Tel Aviv University, IL | ||
| Micro-Sized Power Controllers for Space K. Frohling, Iris Technology, US | ||
| Mobile data collection system for next generation transportation systems management and operations P. Bhavsar, N. Bouaynaya, Rowan University, US | ||
| Label-free Quantitative Sensing in Single Living Cell with Nano-cavity Antenna assisted Plasmonic Nanowire Endoscope S. Kim, Y. Zhu, L. Apontti, R. Yan, University of California, Riverside, US | ||
| Reusable Biosensor for Detecting Diabetes by Microwave LC Resonator on Integrated Passive Design (IPD) Process E.S. Kim, Z. Chuluunbaatar, C. Wang, Z. Yao, K.K. Adhikari, N.Y. Kim, Kwangwoon University, KR | ||
| High-Sensitivity and Low-Hysteresis Inter-digital Type Capacitive Humidity Sensor on Glass Substrate by Aerosol Deposited BaTiO3 E.S. Kim, Z.J. Wang, C. Wang, Z. Yao, J.G. Liang, N.Y. Kim, Kwangwoon University, KR | ||
| A Microfluidic Aspirator based Platform for Flow and Viscosity Sensing for Automated Tissue Culture Applications J. Mcfall, T. Huang, D. Purcell, K. Haffey, S. Ghosh, A. Azad, P. Nath, Los Alamos National Lab, US | ||
Sensors seem to be everywhere in the environment and equipment around us; and they are expected to become even more omnipresent! They are the enablers that trigger alarms and processes to keep our world running smoothly and hopefully, to conserve resources and assets by managing them more efficiently. In this Symposium, we place a special focus on sensors that are enabled by novel measurement physics or chemistry and in particular, by emergent areas of Nanotechnology. Specific topics that we would like to consider in this Symposium include the following
To receive announcements and news, please join our mailing list.
