Precision time protocol (PTP), a state-of-the-art clock synchronization protocol primarily designed for wired networks, has recently gained attention in the wireless community, due to the increased use of the IEEE 802.11 wireless local area networks (WLAN) in real-time distributed systems. However, all the existing WLAN-based PTP designs either incorporate software timestamping (TS) delivering poor clock synchronization accuracy, or hardware (HW) TS providing better synchronization accuracy at the cost of a significant amount of HW overhead. Moreover, the performance of the existing PTP solutions is mostly evaluated in single-hop wireless networks, while the performance across wired and wireless networks is taken for granted. In this articl...
Accurate and precise clock synchronization is one of the fundamental requirements for various applic...
In this thesis an investigation will be done on how time and frequency can be synchronized over Ethe...
This article presents an overview and some evaluation results of our PSynUTC1 prototype system for G...
We demonstrate a precision time protocol (PTP) used to synchronize clocks in industrial wireless loc...
Precise time synchronization amongst network devices is a basic requirement for time critical applic...
A high precision time base is important for distributed systems in measurement and automa-tion appli...
Time-Sensitive Networking (TSN) requires clock synchronization superior to the well-known Network Ti...
Abstract. Keeping system time closely synchronized among all nodes of a cluster is a hard problem. T...
The IEEE 1588 precision time protocol (PTP) is a time synchronization protocol with sub-microsecond ...
A high precision time base is especially important for distributed systems in automation. The Precis...
Accurate time synchronization is important in industrial automation. Precision time protocol (PTP) i...
By using Precision Time Protocol across high-speed data networks, it is possible to achieve good tim...
The Precision Time Protocol (PTP) according to IEEE 1588 and its variants are increasingly being use...
—In this paper, we describe an algorithm built on top of a precision time protocol (PTP) implementat...
A common time reference among nodes is one of the key requirements in telecommunication, distributed...
Accurate and precise clock synchronization is one of the fundamental requirements for various applic...
In this thesis an investigation will be done on how time and frequency can be synchronized over Ethe...
This article presents an overview and some evaluation results of our PSynUTC1 prototype system for G...
We demonstrate a precision time protocol (PTP) used to synchronize clocks in industrial wireless loc...
Precise time synchronization amongst network devices is a basic requirement for time critical applic...
A high precision time base is important for distributed systems in measurement and automa-tion appli...
Time-Sensitive Networking (TSN) requires clock synchronization superior to the well-known Network Ti...
Abstract. Keeping system time closely synchronized among all nodes of a cluster is a hard problem. T...
The IEEE 1588 precision time protocol (PTP) is a time synchronization protocol with sub-microsecond ...
A high precision time base is especially important for distributed systems in automation. The Precis...
Accurate time synchronization is important in industrial automation. Precision time protocol (PTP) i...
By using Precision Time Protocol across high-speed data networks, it is possible to achieve good tim...
The Precision Time Protocol (PTP) according to IEEE 1588 and its variants are increasingly being use...
—In this paper, we describe an algorithm built on top of a precision time protocol (PTP) implementat...
A common time reference among nodes is one of the key requirements in telecommunication, distributed...
Accurate and precise clock synchronization is one of the fundamental requirements for various applic...
In this thesis an investigation will be done on how time and frequency can be synchronized over Ethe...
This article presents an overview and some evaluation results of our PSynUTC1 prototype system for G...