geo-localisation in cern’s underground facilities
DESCRIPTION
Fq C+D from TBS2/OMU 6. IT. Beam Line. LHC4. Geo- localisation in CERN’s underground facilities. CERN. TBS 2 TRX C TRX D. Indoor Repeater. Indoor Repeater. OMU 2. IT. Repeater. Geo-localisation in CERN’s underground facilities. Outdoor Repeater. Concrete Wall. OMU 4. - PowerPoint PPT PresentationTRANSCRIPT
Geo-localisation in CERN’s underground facilities
CERN has recently deployed a digital radio network, based on TETRA technology, to be used by the Fire Brigade and other services, both on the surface and in CERN’s underground facilities. As a key TETRA feature for the Fire Brigade is the integrated GPS localisation system, we faced the challenge of providing an Indoor Localisation System to cover the underground facilities.The solution chosen is based on autonomous beacons placed in strategic locations, each broadcasting a specific identification number. TETRA handsets compare signal strengths from beacons within range and transmit the ID of the closest beacon to the Fire Brigade Control Center where, by making use of CERN’s Geographic Information System (GIS), the localisation system highlights the position of TETRA handsets on a detailed map.
IT
CERN TETRA network architecture
Localisation System concept
TETRA (TErrestrial Trunked RAdio)
E.T.S.I. standard digital radio technology working in the 410-430MHz frequency band based on TDMA (Time Division Multiple Access) multiplexing and phase modulation uses up to 2 Control Channels for signalling and SDS (Short Data Messages)
This technology provides voice services (individual and group calls), message services (SDS), pre-emptive prioritisation, busy queuing and many other services. Its main purpose is to enhance radio communication services for professional users in their safety and security daily operations.
Conceptual view of CERN’s TETRA network
Challenges Faced—and Overcome!
Indoor Localisation System (ILS) components
Beacons integrating a transmitter in ISM 868MHz band and an antenna. They are identified by an ID stored in internal memories
A receiver module in the TETRA handsets An Indoor Localisation and Dispatcher Add-on (ILDA) application integrated in the TETRA dispatcher
workstation A GIS server recording beacon locations
System configuration
Application
With beacons deployed, TETRA handsets transmit, encapsulated into an SDS, the beacon IDs they detect to the ILDA. Then the position (ID) of the beacon is displayed, indicating the information on the last known location of the handset. The application also allows to display the direction of radio moving in CERN indoor infrastructure.Combined with ManDown (lose of verticality) and Emergency alarming features, the ILS brings crucial additional information in case of rescue intervention.
1
2
3
1. Beacons located in the tunnel each broadcast their ID through an integrated antenna
2. Handsets forward the ID of the nearest beacon to the Indoor Geolocalisation Display at the Fire Brigade (via a "leaky feeder " which provides GSM and radio coverage in the tunnel)
3. In case of incident (loss of verticality or emergency button pressed) an emergency SDS and an alarm are sent to the Fire Brigade Dispatcher
Firebrigade Operator
A High Radiation Environment (up to 600Gy/yr!)
Problem: spontaneous beacon ID changes due to radiation.
Solution: ID is stored in triplicate; beaconfirmware ensures recovery from single corruption, only halting ID transmission if all stored IDs are inconsistent.
CERN’s TETRA architecture
3 TBS (TETRA Base Stations) ensure outdoor radio coverage 5 TMO (Trunked Mode Operation) frequencies enable up to 17 simultaneous calls 2 redundant TETRA Switches handle handover between TBS 2 PABX gateways link TETRA to GSM and fixed telephones OMUs (Optical Master Units), Optical/RF repeaters and 50km of radiating cable allow deliver radio coverage to underground sites a dedicated, fibre-based, IP network a backup microwave link between the two main TBS
SDS overload
Problem: Transmission of beacon IDs presents heavy load due to number of SDS messages---from handsets to TBS and from TBS to ILDA
Solution: Enable direct IP connection from TBS to ILDA reducing SDS messages by factor of two
Frequency planning: very complicated!
Multiple frequencies needed!
How to deal with both Swiss and French regulatory authorities?
How to ensure failover for redundancy?
Providing Power
Problem: Beacon placement must ensure full coverage of the underground areas; external electrical power is not available in all selected locations.
Solution: Beacons are powered by a high-capacity battery; the normal 10-year duration is reduced to 5-years in the LHC environment, but this is sufficient to cover the time between major maintenance periods.
By configuring specific settings on the beacons (output power, sensibility threshold, ID corresponding to beacon’s location, ID sending period) a precise mapping of the area can be established. Beacon icons can then be placed on a dedicated layer into a GIS server. A simple request from ILDA to this server enables the display of the expected map.
Geo-localisation in CERN’s underground facilities
Aurélie PASCAL – IT-CS
CERNITDepartment
UTP cabling : ~100m
Beam Line
Concrete Wall
Beacons Antennas
USB cables
Ethernet/USB converters
Electrical boxes enabling remote reboot
~ AC 230V
Laptop running beacons
configuration tool
Ethernet/USB converters
~ AC 230V
USB Hub
TerminalServer
LHC2
LHC3
LHC4
LHC5
LHC6
LHC7
LHC8
SPS1
OMU 7
OMU 5
OMU 6
TBS 3TRX E
IndoorRepeater Indoor
Repeater
IndoorRepeater
IndoorRepeater
IndoorRepeater
IndoorRepeater
Outdoor Repeater
Outdoor Repeater
OutdoorRepeater
IndoorRepeater
Fq C+D to Core
SPS2
IndoorRepeater
SPS3 IndoorRepeater
SPS4 IndoorRepeater
SPS5
IndoorRepeater
SPS7IndoorRepeater
Fq A+B to Core
Bac
kup
Mic
row
ave
link
IndoorRepeater
IndoorRepeater
IndoorRepeater
SDI2
PS/Booster
LINAC4
OMU 2
OMU 1
OMU 4Repe
ater
Repe
ater
OMU 3
LHC1
IndoorRepeater
BA80Core
IndoorRepeater
Outdoor Repeater
IndoorRepeater
Fq C+D from TBS2/OMU 6
Fq A+B from TBS1/OMU 5
Fq
A+
B a
nd
Fq
C+
D t
o r
epea
ters
Fq E to outdoor repeaters
Legend:
Optical fiber link
RF link
Radiating cable
TBS 2TRX CTRX D
TBS 1TRX ATRX B