EnerHarv 2018 data repository

EnerHarv 2018 proceedings now made FREE and OPEN to public!!!

EnerHarv Proceedings – Lecture, panels, misc.(Large download ~70mb)

EnerHarv Proceedings – Posters and Demos(Large download ~24mb)

EnerHarv 2018 Photo Gallery

You can download individual presentations by clicking on the titles below.

EnerHarv Presenter Abstracts

EnerHarv Presenter Bios

• INTRODUCTION – Mike Hayes and Brian Zahnstecher
• CLOSING REMARKS – Mike Hayes and Brian Zahnstecher
• EnABLES at EnerHarv
• KEYNOTE
  • Yogesh Ramadass, Texas Instruments, “Energy Harvesting: Past, Present and Future”
  • Eric Yeatman, Imperial College London, “Alternative Powering Methods for Miniature Wireless Sensors”
• TRANSDUCERS
  • Ausrine Bartasyte, FEMTO-ST, “From Green Piezoelectric Materials to Designed Hybrid Piezoelectric Energy Harvesters”
  • Dhiman Mallick, Tyndall National Institute, “Broadband Vibrational Energy Harvesting using Nonlinear Systems”
  • Jane Cornett, Analog Devices, “Optimization of Chip-scale Thermoelectric Energy Harvesters for Room Temperature Energy Harvesting Applications”
• LOW POWER LOADS
  • Brandon Lucia, Carnegie Mellon University, “Reliable Software and Programming for Intermittent Energy-Harvesting Systems”
  • Mehmet Ozturk, North Carolina State University, “Flexible Thermoelectric Generators with Bulk Thermoelectric Materials and Stretchable, Low-Resistivity Liquid Metal Interconnects”
  • Luis Martins, Boston Scientific Limited, “COMPOSITION – Industry 4.0 IoT Device Retrofit and Energy Harvesting Use Cases”
• STORAGE
  • Denis Pasero, Ilika, “Review of Energy Storage Solutions for IoT Edge Nodes”
  • Pierre Mars, CAP-XX, “Using Supercapacitors to Manage Your Power”
  • Thomas Fletcher, Cambridge Display Technologies, “Progress in Printable Energy Harvesting and Storage Devices”
• POWER MANAGEMENT
  • Roberto La Rosa, ST Micro, “A System on Chip for Energy Harvesting and Wireless Power Transfer”
  • Katherine Kim, Ulsan National Institute of Science and Technology (UNIST), “Power Circuitry Design Considerations for Photovoltaic Energy Harvesting Applications in Uneven Lighting Conditions”
  • Seamus O’Driscoll, Tyndall National Institute, “ULP Energy Harvesting PMIC for Smart Sensor Node”
• SYSTEM INTEGRATION
  • Peter Woias, IMTEK-University of Freiburg, “Energy-autonomous Systems Based on Thermoelectric Energy Harvesting: application-oriented system design and integration”
  • Peter Spies, Fraunhofer IIS, “Micro-Energy Management for Broadband Energy Harvesting Systems”
  • Alex Weddell, University of Southampton / ARM, “Energy Harvesting in Future Integrated IoT Devices”
• APPLICATIONS PANEL DISCUSSION
  • Stephen Savulak, United Technologies Research Center, “Perspectives on Energy Harvesting for Aerospace Sensors” 
• ENERGY OPTIMISATION PANEL DISCUSSION
  • Ivan O’Connell, Tyndall National Institute, “Methodologies for Reducing ULP Device Power Consumption”
• FUTURE DIRECTIONS PANEL DISCUSSION
  • Francesco Carobolante, G2nd Systems, “The Future of the Energy Harvesting Ecosystem”
• FUNCTIONAL DEMOS
  • Combined Demo Slides #1
    • Shane Hollmer, Adesto, “Non-volatile Serial Memory for Energy Harvesting Power Applications”
    • Mehmet Ozturk, North Carolina State University, “Wearable Flexible Thermoelectric Generator Using Liquid Metal Interconnects and Bulk BiTe Legs”
    • Dushan Vuckovic, FORCE Technology (DELTA), “Implementing Energy Harvesting Solutions Using Commercial Off-the-shelf Components”
    • Peter Spies, Fraunhofer IIS, “BlueTEG – Self-powered Wireless Sensor”
    • Gerd vom Bögel, Fraunhofer IMS, “TEG Powered Wireless Sensor System for Process Monitoring and Control”
    • Philip Schmidt, Fraunhofer IMS, “RF Powered Wireless Sensors for Industry 4.0”
    • Bobby Bornemann, Tyndall National Institute, “MOEEBIUS – Energy Harvesting Powered Multi-radio WSN Mote for Building Energy Optimisation”
    • James McCarthy, Tyndall National Institute, “COMPOSITION – Conditional Monitoring Case Studies for Energy Harvesting Opportunities in Industry 4.0”
  • Combined Demo Slides #2
    • Oskar Olszewski, Tyndall National Institute, “Evaluation of Vibrational Piezo-MEMS Harvester That Scavenges Energy From a Magnetic Field Surrounding an AC Current-Carrying Wire”
    • Denis Pasero, Ilika,  “Autonomous Wireless End Nodes Powered by Solid State Batteries and Energy Harvesting”
    • Cian O’Shea, Tyndall National Institute, “ROWBUST WSN Deployment Assistance Tool”
    • Peter Haigh, Tyndall National Institute, “COMPOSITION – Asset Tracking Case Studies for Energy Harvesting Opportunities in Industry 4.0“
    • Roberto La Rosa, ST Micro, “Powering Battery-Free Systems with PV Cell”
    • Pierre Mars, CAP-XX, “Solar Cell Energy Harvester with Supercapacitor”
    • Katherine Kim, Ulsan National Institute of Science and Technology (UNIST), “Differential Power Processing Converter Design for Photovoltaic Wearable Applications”
    • David Newell, NUI Galway. “A High Efficiency Switched Supercapacitor Energy Management Circuit for Energy Harvesting Powered Wireless Sensor”
• POSTERS
  • Valeria Nico, University of Limerick, “Multiple Degree-of-Freedom Vibrational Energy Harvester Multi-VIBE”
  • Heiko Reith, IFW Dresden, “Integrated Micro-Thermoelectric Modules for Local Heat Management”
  • William Ferguson, University of Exeter, “Auxetic Enhancement of Vibration Energy Harvesting”
  • Peter Woias, IMTEK-University of Freiburg, “Thermoelectric Energy Harvesting for Powering Wireless Sensor Nodes: from low-temperature to high-temperature applications”
  • Watcharapong Paosangthong, University of Southampton, “Performance Comparison Between Different Materials and Operation Modes of Triboelectric Nanogenerator”
  • Ausrine Bartasyte, FEMTO-ST ITN ENHANCE, “Piezoelectric Energy Harvesters for Self-Powered Automotive Sensors: from Advanced Lead-Free Materials to Smart Systems (2017-2021)”
  • James Rohan, Tyndall National Institute, “Nanoscale Cathode Materials for High Power Microbatteries”
  • Raphaël Salot, CEA-Leti, “EnSO (Energy for Smart Objects) EU Project”   
  • Ruth Houlihan, Tyndall National Institute, “Spatial Dependence of a Piezo-magnetic MEMS harvester Relative to the Electromagnetic Source”
  • Martin Kluge, Fraunhofer IPM / Imperial College / Airbus, “Dynamic Thermoelectric Energy Harvesting in Aircraft”
  • Gerd vom Bögel, Fraunhofer IMS, “Wireless Sensor System for Industrial Applications Powered by Thermoelectric Generator”
  • Philip Schmidt, Fraunhofer IMS, “Boost & Fly – RF Powering of Wireless Sensors for Industry 4.0”
  • Tracy Brennan, Boston Scientific Limited, COMPOSITION – Conditional Monitoring and Asset Tracking Sensors for Industry 4.0″
  • Cian O’Shea, Tyndall National Institute, “RECO2ST – WSN Power Modelling and Optimisation Tool for Retrofitting Intelligent Building Energy Efficiency Systems”
  • Bobby Bornemann, Tyndall National Institute, “MOEEBIUS – Low Power Multi-radio Wireless Sensor Platform Enabling Optimisation of Radios, Sensors and Energy Harvesting”
  • Oskar Olszewski, Tyndall National Institute / MCCI, “MEMS Piezoelectric Vibrational Energy Harvester – Characterisation for MISCHIEF Platform Gen II”
  • Tim Daly, Tyndall National Institute / MCCI, “MISCHIEF – Design Techniques for Ultra Low Quiescent Power Controller”
  • Paul Roseingrave, Tyndall National Institute, “EnABLES – EU Research Infrastructure Program ‘Powering the Internet of Things’”
  • Swatchith  Lal, Tyndall National Institute, “Micro-thermoelectric Cooler for the Thermal Management of Photonic Devices”