TY - GEN

T1 - Tracking of "smart" Debris Location Based on the RFID Technique

AU - Goseberg, N.

AU - Nistor, I.

AU - Stolle, J.

PY - 2017/7/11

Y1 - 2017/7/11

N2 - Determining the location of floating or partially submerged objects during an extreme hydrodynamic event is an important task the investigation of impact loading resulting from debris impacts. This study investigates the application of a novel tracking system which is based on the radio frequency identification (RFID) technology and exploits the measured angles of arrival and time of arrival of radio waves used to locate an object in space. The system is deployed in a carefully controlled laboratory environment to analyze the performance and accuracy of the system. The standard error and standard deviation are used as metrics for the system's performance. During testing, the system is subjected to linear and oscillatory motions. Good accuracy and repeatability is found for the tests conducted; however, a number of factors can compromise its accuracy and precision, such as a cluttered environment exhibiting solid obstacles, protruding walls or other disturbing items in the tracking area. In hydraulic and coastal engineering, this RFID technology has significant potential for use in laboratory investigations involving not only the tracking of debris but also in tracking the elements of the coastal structures' armor layers and also for locating and recording of vessel motions.

AB - Determining the location of floating or partially submerged objects during an extreme hydrodynamic event is an important task the investigation of impact loading resulting from debris impacts. This study investigates the application of a novel tracking system which is based on the radio frequency identification (RFID) technology and exploits the measured angles of arrival and time of arrival of radio waves used to locate an object in space. The system is deployed in a carefully controlled laboratory environment to analyze the performance and accuracy of the system. The standard error and standard deviation are used as metrics for the system's performance. During testing, the system is subjected to linear and oscillatory motions. Good accuracy and repeatability is found for the tests conducted; however, a number of factors can compromise its accuracy and precision, such as a cluttered environment exhibiting solid obstacles, protruding walls or other disturbing items in the tracking area. In hydraulic and coastal engineering, this RFID technology has significant potential for use in laboratory investigations involving not only the tracking of debris but also in tracking the elements of the coastal structures' armor layers and also for locating and recording of vessel motions.

UR - http://www.scopus.com/inward/record.url?scp=85028593227&partnerID=8YFLogxK

U2 - 10.1061/9780784480311.005

DO - 10.1061/9780784480311.005

M3 - Conference contribution

AN - SCOPUS:85028593227

T3 - Coastal Structures and Solutions to Coastal Disasters 2015: Tsunamis - Proceedings of the Coastal Structures and Solutions to Coastal Disasters Joint Conference 2015

SP - 43

EP - 53

BT - Coastal Structures and Solutions to Coastal Disasters 2015

A2 - Cox, Daniel T.

A2 - Wallendorf, Louise

PB - American Society of Civil Engineers (ASCE)

T2 - Coastal Structures and Solutions to Coastal Disasters Joint Conference 2015

Y2 - 9 September 2015 through 11 September 2015

ER -