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Presents the introductory welcome message from the conference proceedings. May include the conference officers' congratulations to all involved with the conference event and publication of the proceedings record.
Keeping a high-precision time base in cloud clusters is still a big challenge, even using the Precision Time Protocol version 2 (PTPv2) specified in IEEE 1588. One of the main factors on this issue is that too many uncertainties in the network path from the master clock to the slave one, which is likely residing on the Kernel-based Virtual Machine (KVM). The Transparent Clock (TC) of PTPv2 may be...
A range of issues apply to getting time from GNSS receivers, depending strongly on what the user needs. The words "accurate time" mean very different things to different users. Accurate time from GNSS receivers becomes challenging as the required accuracy is better than a microsecond or so. While this paper discusses a broad range of issues related to accurate timing from GNSS, it focusses...
A central processing unit (CPU) and peripheral devices are discussed for which all data processing and data transfer is uniquely time tagged using a timestamp generated by the embedded processing system master clock. The Time Aware Processor (TAP) introduces time into the processor computing language to relate data to temporal events, including the processors own internal functions.
As evolving security concerns have prevailed, the network time synchronization protocol community has been actively engaged in the development of improved security mechanisms for both the IEEE 1588 Precision Time Protocol (PTP) and the IETF Network Time Protocol (NTP). These activities have matured to the point where this year should see the finalization of the first new security mechanisms for time...
The Beaglebone Black single-board computer is well-suited for real-time embedded applications because its system-on-a-chip contains two "Programmable Real-time Units" (PRUs): 200-MHz microcontrollers that run concurrently with the main 1-GHz CPU that runs Linux. This paper introduces "Cyclops": a web-browser-based IDE that facilitates the development of embedded applications on...
Precision time synchronization is critical for distributed sensing, and coordinated actuation in various low-range wireless applications in Internet of Things and Robotics. The state-of-the-art time synchronization protocol however, known as Precision Time Protocol (PTP) is designed for wired networks. In this work, we make an effort to enable PTP for Low Range Wireless Personal Area Networks (LR-WPAN)...
Synchronization has become a main concern in communication and control systems during the last years. Although there are several standard mechanisms to accomplish timing requirements, development and improvement of high synchronization technologies is required to obtain better performance and quality of service. In this context, the enhanced version of IEEE 1588v2 synchronization protocol, known as...
IEEE1588 (PTP: Precise Time Protocol), which aims for the sub-microsecond range of clock synchronization in a minimal network, is currently focused on highly precise clock synchronization. Boundary Clock (BC) and VLAN Priority are considered to be features that improve PTP accuracy. Although some papers addressed the accuracy, these evaluations were realized using different evaluation metrics and...
The 1588 Precision Timing Protocol (1588-PTP) states that a timestamp event is generated at the time of transmission and reception of any event message and that the timestamp event occurs when the message's timestamp point crosses the boundary between the node and the network (event generation points). The protocol defines the message timestamp point for an event message as the beginning of the first...
Distributed cyber-physical systems cover a wide range of applications such as automotive, avionic or industrial automation. These applications require a global notion of time to fullfill their timing requirements. Multi-processor system on chips (MPSOCs) are an attractive implementation option since they offer several benefits such as parallelism and power efficiency. However, MPSOCs have a Globally...
The Smart Cities concept implies the integration of vertical application pillars, such as mobility, smart grid and public illumination, and more, for an optimal management of the resources and a reduction of the energy footprint of large cities. This approach requires the use of existing heterogeneous communication infrastructures to allow a peer to peer interconnection of services exposed by sensors...
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