TY - GEN
T1 - Distributed Tracking and Verifying
T2 - 8th Annual IEEE/ACM Symposium on Edge Computing, SEC 2023
AU - Mhasakar, Purva Makarand
AU - Doshi, Kevin
AU - Wang, Ning
AU - Ho, Shen Shyang
AU - Haibin, Haibin
N1 - Publisher Copyright:
© 2023 ACM.
PY - 2023
Y1 - 2023
N2 - We observe that accurate and fast tracking in Internet of Things (IoT) devices is still a challenging problem. Several deep learning models have emerged which provide higher accuracy scores in ob-ject detection and tracking, however, due to their computationally expensive nature they are not useful in enabling real-time tracking at IoT devices. Correlation filters have emerged to show better speed in real-time tracking and provide good tracking results in cases of occlusion, rotation, illumination and other distractions. To get better speed as well as accuracy we use combination of corre-lation filter and deep learning methods. We propose a distributed tracking and verifying (DTAV) framework. Specifically, we run two object tracking algorithms, one on the client and another on the server. The algorithm run on the client is referred to as the Tracker, which is based on correlation filter and runs easily in real-time. The server hosts the verifier algorithm which performs high accuracy verification. Thus, while the client performs fast object tracking, the server's tracking algorithm verifies the output and corrects the server whenever required to maintain the accuracy of the model. We present our edge computing-based framework and discuss the mo-tivation, system setup and series of experiments performed for the framework and present our experimental results. DTAV achieved 7.78% improvement on accuracy and 15% improvement in FPS.
AB - We observe that accurate and fast tracking in Internet of Things (IoT) devices is still a challenging problem. Several deep learning models have emerged which provide higher accuracy scores in ob-ject detection and tracking, however, due to their computationally expensive nature they are not useful in enabling real-time tracking at IoT devices. Correlation filters have emerged to show better speed in real-time tracking and provide good tracking results in cases of occlusion, rotation, illumination and other distractions. To get better speed as well as accuracy we use combination of corre-lation filter and deep learning methods. We propose a distributed tracking and verifying (DTAV) framework. Specifically, we run two object tracking algorithms, one on the client and another on the server. The algorithm run on the client is referred to as the Tracker, which is based on correlation filter and runs easily in real-time. The server hosts the verifier algorithm which performs high accuracy verification. Thus, while the client performs fast object tracking, the server's tracking algorithm verifies the output and corrects the server whenever required to maintain the accuracy of the model. We present our edge computing-based framework and discuss the mo-tivation, system setup and series of experiments performed for the framework and present our experimental results. DTAV achieved 7.78% improvement on accuracy and 15% improvement in FPS.
UR - https://www.scopus.com/pages/publications/85186126474
UR - https://www.scopus.com/pages/publications/85186126474#tab=citedBy
U2 - 10.1145/3583740.3626810
DO - 10.1145/3583740.3626810
M3 - Conference contribution
AN - SCOPUS:85186126474
T3 - Proceedings - 2023 IEEE/ACM Symposium on Edge Computing, SEC 2023
SP - 360
EP - 364
BT - Proceedings - 2023 IEEE/ACM Symposium on Edge Computing, SEC 2023
PB - Institute of Electrical and Electronics Engineers Inc.
Y2 - 6 December 2023 through 9 December 2023
ER -