ERTMS line certification using mobile diagnostic solutionsVito CaliandroP d t Li M Si lli S l tiProduct Line Manager, Signalling Solutions
Agenda
RAMS according to EN 501261
2 Diagnostic Vehicle “CAR ON TEchnology”
GSM-R / GPRS Diagnostic3
Balise Diagnostic4
Italian experience5
EN CENELEC 50126 continued
Provide information for specifications and confirmation of RAMS in all phases of the product life cycle
Phase 11 of the product life cycle is called “Operation and Maintenance”Phase 11 of the product life cycle is called Operation and Maintenance Phase 11 ensures the operation, maintenance and logistic support in order to
maintain the system compliance to the RAMS requirements. This is the phase where “mobile diagnostic” is requiredwhere mobile diagnostic is required
System 10System Acceptance
10
Operation and Maintenance
11Preference Monitoring
12 Modificationand Retrofit
13
De-commissioning and Disposal
14 Re-apply Lifecycle
EN CENELEC 50126 Mobile diagnostics allows collection of statistical data regarding functional and
RAMS performances before and during the revenue service of the trackside and train-borne subsystems.
Diagnostic data are evaluated and used for planning the consequent maintenance actions.
Agenda
RAMS according to EN 501261
2 Diagnostic Vehicle “CAR ON TEchnology”
GSM-R / GPRS Diagnostic3
Balise Diagnostic4
Italian experience5
Diagnostic Vehicle “CAR ON TEchnology”
The vehicle has been conceived together with RFI for the requirements of diagnostic systems. Design and development of the diagnostic systems and railway vehicle have been completely implemented in MER MEC facilities.V hi l i d f t d l i di ti Vehicle is used for trend analysis, predictive maintenance planning, trackside test commissioning.
Vehicle Informations: Vehicle Informations: Rank B
Clearance UIC 505-1 Track gauge 1435 mm
Agenda
RAMS according to EN 501261
2 Diagnostic Vehicle “CAR ON TEchnology”
GSM-R / GPRS Diagnostic3
Balise Diagnostic4
Italian experience5
GSM-R /GPRS Diagnostic System – Overview
ARCHITECTUREARCHITECTUREARCHITECTUREo RF Train Antennaso RF Scanner Moduleso Voice response module
Processing Unit
ARCHITECTUREo RF Train Antennaso RF Scanner Moduleso Voice response module
Processing Unito Processing Unito Acquisition Unito Processing Unito Acquisition Unit
Diagnostic Levels
GSM-R Diagnostic System – Measurements
System architecture for voice quality assessment
SYSTEM EVENTSo Start callo Stop callo Handover complete
SYSTEM EVENTSo Start callo Stop callo Handover completeo Handover failureo Dropped callo Failed callo No service
o Handover failureo Dropped callo Failed callo No service
GPRS Diagnostic System – Measurements
System architecture to evaluate the data connection performance
SYSTEM EVENTSo GPRS attach completeSYSTEM EVENTSo GPRS attach completeo GPRS attach completeo GPRS detach completeo GPRS ra update completeo GPRS pdp activate completeo GPRS pdp deactivate complete
o GPRS attach completeo GPRS detach completeo GPRS ra update completeo GPRS pdp activate completeo GPRS pdp deactivate completeo GPRS pdp deactivate complete o GPRS attach rejecto GPRS ra update rejecto GPRS pdp context rejecto GPRS authentication and
o GPRS pdp deactivate complete o GPRS attach rejecto GPRS ra update rejecto GPRS pdp context rejecto GPRS authentication and
ciphering rejectciphering reject
GSM-R /GPRS Diagnostic System – Application Interfaces
GSM-R /GPRS Diagnostic System – Detailed measurements
RF coverage Quality of Service Packet switching data transmission performances (GPRS) Speech
RxLev Broadcast Control Channel (BCCH) Base Station Identity Code (BSIC)
Throughput Round-Trip Time (RTT)
Parameter relating to speech quality degradation y ( )
Time Slot (TS) Hopping Flag (use of frequency hopping) Hopping Sequence Number (HSN) Mobile Allocation Index Offset (MAIO)
M i R di Li k Ti t C t
p ( ) Establishment Time Cell Reselection Time GPRS Attach Setup Time GPRS Detach Time
GPRS PDP C t t A ti ti Ti
occurring through the telephony network: Mean Opinion Score (MOS).
Maximum Radio Link Timeout Counter (Radio Link Failure procedure)
Cell Identity (CI) Location Area Code (LAC) Mobile Network Code (MNC)
GPRS PDP Context Activation Time GPRS PDP Context Deactivation Time GPRS Service Access Time GPRS Routing Area Update Time GPRS Service Access Rate
Mobile Country Code (MCC) Network Type (e.g. GSM-900) RxLev Full RxLev Sub RxQual Full
GPRS Attach Success Rate GPRS PDP Context Activation Success Rate GPRS Routing Area Success Rate GPRS Mean User Data Rate
RxQual Full RxQual Sub Carrier to Interference Ratio (C/I) TxPower Time Advance (TA) C1, C2 (Cell selection criterion, Cell
reselection criterion) Current Radio Link Timeout Counter Layer 3 messages, that the MS exchanges
with the BTS, included the direction (uplink/downlink)
Agenda
RAMS according to EN 501261
2 Diagnostic Vehicle “CAR ON TEchnology”
GSM-R / GPRS Diagnostic3
Balise Diagnostic4
Italian experience5
Balise Diagnostic – Overview
ARCHITECTUREo BTMARCHITECTUREo BTMo Antenna RSDD (BTM Antenna)o Processing Unito Acquisition Unit
o Antenna RSDD (BTM Antenna)o Processing Unito Acquisition Unit
Diagnostic Levels
Balise Diagnostic – Logical parameters measurement Correct positioning on the track Correct distance between balises within the same Balise Group (BG) Correct distance between BGsCorrect distance between BGs Functional coherence and consistency of the received telegram to the expected one for
that balise Balise Status Balise Status
Silent balise “Default Balise” message, in order to detect a LEU failure or a break on the connection cable “Default LEU” message in order to verify the correct functioning of the LEU Default LEU message, in order to verify the correct functioning of the LEU
Number of received telegrams (air-gap index)
Balise Diagnostic – Physical parameters measurement Irradiation Diagram
Contact length Axial symmetryy y Compliance with the expected patterns
Central frequency value FSK frequency deviation of modulationFSK frequency deviation of modulation
Agenda
RAMS according to EN 501261
2 Diagnostic Vehicle “CAR ON TEchnology”
GSM-R / GPRS Diagnostic3
Balise Diagnostic4
Italian experience5
CAR ON TE Operational Program 2011
The following information have been kindly provided byRete Ferroviaria Italiana
Pre-operational phase carried out during 2010F ll ti t t d i J 2011 Full operation started in January 2011
2011 Operation Program main outcomes: 2 complete measuring campaigns (six months timeframe)p g p g ( ) 13.000+ km of lines inspected 108.000+ eurobalises checked Defective balise rate < 0 003% (2 36 defects on average every 100 km) Defective balise rate < 0,003% (2,36 defects on average every 100 km)
o Default telegrams from baliseso Lost of balises
W di t b t b li b l i t tho Wrong distance between balises belonging to the same groupo Wrong distance between linked balise groups
Lost of Balise – An interesting case
Fault in Balise Group identification d i l liwas reported on a commercial line
near Rome causing sudden trains stop
Emergency brake was caused by “Lost Balise” error in a specific “Balise Group”. Immediate maintenance intervention and Balise Group replacement didn’t fix the problem
Caronte detected the existence of strong external interference from a radio station affecting data uplink frequency modulation.
Thank you!
Vito CaliandroProduct Line Manager, Signalling
vito caliandro@mermecgroup com
www.mermecgroup.com
Headquarters: Via Oberdan [email protected] Headquarters: Via Oberdan, 7070043 Monopoli (BA), ITALY
Tel. +39 080 9171Fax +39 080 9171 112
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