Internet of Things (IoT) is expected to change the everyday life of its users by enabling data
exchanges among pervasive things through the Internet. Such a broad aim, however, puts …

The joint localization and synchronization (JLAS) of moving agents with clock offsets is
critical to facilitating location services for Internet of Things (IoT). Existing methods using one …

Clock synchronization is essential for the operation of upper layer applications in Wireless
Sensor Networks. When the network hops needed for clock synchronization message …

In wireless sensor networks (WSNs), implementing an energy-efficient, high-precision time
synchronization scheme on resource-constrained sensor nodes is challenging but essential …

Clock synchronization is a significant basis for many operations in wireless sensor networks.
The distributed consensus-based clock synchronization has gained popularity for its …

In this article, we consider the receiver-only-based time synchronization in underwater
wireless sensor networks with exponential delays emerging during the message exchanges …

Accurate network synchronization is crucial to orchestrate distributed infrastructures in
Industrial Internet of Things (IIoT) systems for accomplishing network-wide tight temporal …

Clock synchronization has been a challenging task in the design of wireless networks
because the synchronization accuracy suffers from uncertain transmission delay and/or …

Clock synchronization provides fundamental timing reference for various services in the
Internet of Things. Unlike centralized synchronization algorithm, which relies heavily on the …

Time-difference-of-arrival (TDOA) localization systems estimate the difference in
propagation delay between a target transmitter and pairs of receivers in order to locate the …