341 research outputs found
An implementation of EURORADIO protocol for ERTMS systems
European Rail Traffic Management System (ERTMS)
is the European reference for interoperable and safer signaling
systems to efficiently manage trains running. If implemented, it
allows trains cross seamlessly intra-European national borders.
ERTMS has defined a secure communication protocol, EURORADIO,
based on open communication networks. Its RadioInfill
function can improve the reaction of the signaling system to
changes in line conditions, avoiding unnecessary braking: its
advantages in terms of power saving and travel time has been
analyzed.
In this paper a software implementation of the EURORADIO
protocol with RadioInfill for ERTMS Level 1 using GSM-R
is illustrated as part of the SR-Secure Italian project. In this
building-blocks architecture the EURORADIO layers communicates
together through modular Application Programm Interfaces.
Security coding rules and railway industry requirements specified
by EN 50128 standard have been respected. The proposed
implementation has successfully passed conformity tests and has
been tested on a computer-based simulator
Experimental Demonstration of Impairment-Aware PCE for Multi-Bit-Rate WSONs
In emerging multi-bit-rate wavelength switched optical networks (WSONs), the coexistence of lightpaths operating at different bit-rates and modulation formats (e.g., based on amplitude and phase modulation) induces relevant traffic dependent detrimental effects that need to be considered during impairment-aware routing and wavelength assignment (IA-RWA). The considerable complexity of IA-RWA computation has driven the Internet Engineering Task Force (IETF) to propose specific path computation element (PCE) architectures in support of IA-RWA for WSONs. In this paper, following the IETF indications, we expand two PCE architectures and experimentally evaluate five different PCE architectural solutions, performing either combined or separated impairment estimation and RWA, with on-line and off-line computation of impairment validated paths, and with the possible utilization of a novel PCE Protocol (PCEP) extension. Results in terms of traffic engineering performance, path computation delivery time and amount of exchanged PCEP messages are reported and discussed to highlight the benefits and application scenarios of the considered PCE architectures
Segment routing for effective recovery and multi-domain traffic engineering
Segment routing is an emerging traffic engineering technique relying on Multi-protocol Label-Switched (MPLS) label stacking to steer traffic using the source-routing paradigm. Traffic flows are enforced through a given path by applying a specifically designed stack of labels (i.e., the segment list). Each packet is then forwarded along the shortest path toward the network element represented by the top label. Unlike traditional MPLS networks, segment routing maintains a per-flow state only at the ingress node; no signaling protocol is required to establish new flows or change the routing of active flows. Thus, control plane scalability is greatly improved. Several segment routing use cases have recently been proposed. As an example, it can be effectively used to dynamically steer traffic flows on paths characterized by low latency values. However, this may suffer from some potential issues. Indeed, deployed MPLS equipment typically supports a limited number of stacked labels. Therefore, it is important to define the proper procedures to minimize the required segment list depth. This work is focused on two relevant segment routing use cases: dynamic traffic recovery and traffic engineering in multi-domain networks. Indeed, in both use cases, the utilization of segment routing can significantly simplify the network operation with respect to traditional Internet Protocol (IP)/MPLS procedures. Thus, two original procedures based on segment routing are proposed for the aforementioned use cases. Both procedures are evaluated including a simulative analysis of the segment list depth. Moreover, an experimental demonstration is performed in a multi-layer test bed exploiting a software-defined-networking-based implementation of segment routing
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