Electromagnetic Energy Harvesting for Sensing, Communication, and Actuation

The harsh construction environment requires unusually robust sensing and actuation technology to make real-time pro-active safety alerts a reality. We have developed a batteryless, wireless sensing and actuation device as an option to advance pro-active safety in construction. By employing electromagnetic energy harvesting and eliminating the need for a battery, our device will function in harsh environments for many years without requiring service or maintenance. In addition to the sensing capabilities normally associated with passive RFID tags, which also employ electromagnetic energy harvesting, we have also included a piezoelectric speaker to generate and transmit audio warning signals to warn workers of dangerous situations. Ultimately, the device will be affixed to a safety hard hat, dubbed a "SmartHat" which will audibly alert a worker if an RFID reader-equipped hazard is nearby. We have developed a custom antenna design for plastic hard hats that exhibits good omni-directional performance. We will describe our "SmartHat" sensor tag in this paper along with presenting preliminary laboratory and field performance data.

[1]  Burcu Akinci,et al.  Utilizing Radio-Frequency Identification on Precast Concrete Components - Supplier's Perspective , 2002 .

[2]  Carlos H. Caldas,et al.  Tracking the Location of Materials on Construction Job Sites , 2006 .

[3]  Alanson P. Sample,et al.  Design of an RFID-Based Battery-Free Programmable Sensing Platform , 2008, IEEE Transactions on Instrumentation and Measurement.

[4]  Joseph A. Paradiso,et al.  Energy scavenging for mobile and wireless electronics , 2005, IEEE Pervasive Computing.

[5]  Y. Fujita,et al.  A 950 MHz rectifier circuit for sensor networks with 10 m-distance , 2005, ISSCC. 2005 IEEE International Digest of Technical Papers. Solid-State Circuits Conference, 2005..

[6]  Charles T. Jahren,et al.  RADIO-FREQUENCY IDENTIFICATION APPLICATIONS IN CONSTRUCTION INDUSTRY , 1995 .

[7]  Burcu Akinci,et al.  Tracking Components and Maintenance History within a Facility Utilizing Radio Frequency Identification Technology , 2007 .

[8]  Gangbing Song,et al.  Smart Aggregates: a Distributed Intelligent Multi-purpose Sensor Network (DIMSN) for Civil Structures , 2007, 2007 IEEE International Conference on Networking, Sensing and Control.

[9]  Low Sui Pheng,et al.  Just-in-Time Management of Precast Concrete Components , 2001 .

[10]  B. Carkhuff,et al.  Corrosion sensors for concrete bridges , 2003 .

[11]  Burcu Akinci,et al.  Field Trials of RFID Technology for Tracking Pre-Fabricated Pipe Spools , 2004 .

[12]  Burcu Akinci,et al.  Tracking and locating components in a precast storage yard utilizing radio frequency identification technology and GPS , 2007 .

[13]  D.P. Neikirk,et al.  Unpowered wireless corrosion sensor for steel reinforced concrete , 2005, IEEE Sensors, 2005..

[14]  Paul M. Goodrum,et al.  Assessing the impact of materials tracking technologies on construction craft productivity , 2009 .