TY - GEN
T1 - Robust RFID-Based Multi-Object Identification and Tracking with Visual Aids
AU - Yin, Junjie
AU - Liao, Sicong
AU - Duan, Chunhui
AU - Ding, Xuan
AU - Yang, Zheng
AU - Yin, Zuwei
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021/7/6
Y1 - 2021/7/6
N2 - Obtaining fine-grained spatial information is of practical importance in RFID-based applications. However, high-precision positioning remains a challenging task in commercial-off-The-shelf (COTS) RFID systems. Inspired by progress in the computer vision (CV) field, researchers propose to combine CV with RFID systems and turn the positioning problem into a matching problem. Promising though it seems, current methods fuse CV and RFID through converting traces of tagged objects extracted from videos by CV into phase sequences for matching, which is a dimension-reduced procedure causing loss of spatial resolution. Consequently, they fail in more harsh conditions such as small tag intervals and low reading rates of tags. To address the limitation, we propose TagFocus, a more robust RFID-enabled system for fine-grained multi-object identification and tracking with visual aids. The key observation of TagFocus is that traces generated by different methods shall be compatible if they are acquired from one identical object. Leveraging this observation, an attention-based sequence-To-sequence (seq2seq) model is trained to generate a simulated trace for each candidate tag-object pair. And the trace of the right pair shall best match the observed trace directly extracted by CV. A prototype of TagFocus is implemented and extensively assessed in lab environments. Experimental results show that our system maintains a matching accuracy of over 89% in harsh conditions, outperforming state-of-The-Art schemes by 25%.
AB - Obtaining fine-grained spatial information is of practical importance in RFID-based applications. However, high-precision positioning remains a challenging task in commercial-off-The-shelf (COTS) RFID systems. Inspired by progress in the computer vision (CV) field, researchers propose to combine CV with RFID systems and turn the positioning problem into a matching problem. Promising though it seems, current methods fuse CV and RFID through converting traces of tagged objects extracted from videos by CV into phase sequences for matching, which is a dimension-reduced procedure causing loss of spatial resolution. Consequently, they fail in more harsh conditions such as small tag intervals and low reading rates of tags. To address the limitation, we propose TagFocus, a more robust RFID-enabled system for fine-grained multi-object identification and tracking with visual aids. The key observation of TagFocus is that traces generated by different methods shall be compatible if they are acquired from one identical object. Leveraging this observation, an attention-based sequence-To-sequence (seq2seq) model is trained to generate a simulated trace for each candidate tag-object pair. And the trace of the right pair shall best match the observed trace directly extracted by CV. A prototype of TagFocus is implemented and extensively assessed in lab environments. Experimental results show that our system maintains a matching accuracy of over 89% in harsh conditions, outperforming state-of-The-Art schemes by 25%.
KW - RFID
KW - computer vision
KW - fusion
KW - identification
UR - http://www.scopus.com/inward/record.url?scp=85111715233&partnerID=8YFLogxK
U2 - 10.1109/SECON52354.2021.9491612
DO - 10.1109/SECON52354.2021.9491612
M3 - Conference contribution
AN - SCOPUS:85111715233
T3 - Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks workshops
BT - 2021 18th IEEE International Conference on Sensing, Communication and Networking, SECON 2021
PB - IEEE Computer Society
T2 - 18th IEEE International Conference on Sensing, Communication and Networking, SECON 2021
Y2 - 6 July 2021 through 9 July 2021
ER -
