Add to ORKGEfficient spectrum usage and optimized energy consumption directly depend on the radio duty cycle of the communicating devices. Tight synchronization of communicating nodes enables optimal orchestration of the access to the medium as nodes turn their radios on precisely when needed. Achieving synchronization, however, requires a reference time source to synchronize with and a periodic discipline mechanism to cope with the inherent clock drift. Packet-based synchronization or external time sources, such as GPS, are usually required to achieve that goal. When low-power operation is combined with bandwidth limitations and scale, as in the case of low power wide area networks, the overhead of such approaches is not affordable and advanced clock...
Time synchronization is a fundamental service in many wireless applications. While the synchronizati...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Efficient spectrum usage and optimized energy consumption directly depend on the radio duty cycle of...
Efficient spectrum usage and optimized energy consumption directly depend on the radio duty cycle of...
As a fundamental networking service, time synchronization allows nodes in a network to have a common...
As a fundamental networking service, time synchronization allows nodes in a network to have a common...
As a fundamental networking service, time synchronization allows nodes in a network to have a common...
Low-duty-cycle radio operations have been proposed for wireless networks facing severe energy constr...
<p>Time synchronization in wireless sensor networks is important for event ordering and efficient co...
Time synchronization in wireless sensor networks is important for event ordering and efficient commu...
Abstract—Low-duty-cycle radio operations have been proposed for wireless networks facing severe ener...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations often rely on ...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Time synchronization is a fundamental service in many wireless applications. While the synchronizati...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Efficient spectrum usage and optimized energy consumption directly depend on the radio duty cycle of...
Efficient spectrum usage and optimized energy consumption directly depend on the radio duty cycle of...
As a fundamental networking service, time synchronization allows nodes in a network to have a common...
As a fundamental networking service, time synchronization allows nodes in a network to have a common...
As a fundamental networking service, time synchronization allows nodes in a network to have a common...
Low-duty-cycle radio operations have been proposed for wireless networks facing severe energy constr...
<p>Time synchronization in wireless sensor networks is important for event ordering and efficient co...
Time synchronization in wireless sensor networks is important for event ordering and efficient commu...
Abstract—Low-duty-cycle radio operations have been proposed for wireless networks facing severe ener...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations often rely on ...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Time synchronization is a fundamental service in many wireless applications. While the synchronizati...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...
Time synchronization is crucial for wireless sensor networks (WSNs), where operations ofte...