Upload
others
View
11
Download
0
Embed Size (px)
Citation preview
Applications of Mobile Cell Vehicles
Sporting events Public emergencies Important network site
failure Rapidly developing
situations that result in dense pockets of subscribers
Features of Projex CI’s MCV
Ultra-rapid deployment in less than 15 minutes
Independent power generation for more than 7 hours or can be connected to existing supply with Commando socket
Requires a much smaller footprint than a traditional COW
Can be driven by anyone with a full car license (less than 3.5t)
Technical Specifications Iveco Daily 2.3 HPI (35S14 LWB) 12.5m Clarke Masts pneumatic
mast(total height agl is 13.5m) Rated for operation at
windspeeds up to 21m/s (70km/h)
Cambridge Broadband Networks Limited VectaStar or NEC Pasolink backhaul
Kathrein Tri-Band (G/U900, G1800 & U2100) 65° sector antennas
Radio Equipment Cabin Spacious and well lit cabin to
accommodate radio equipment which is separated from rear generator and mast location
2 x NSN FlexiStacks providing GSM900, GSM1800, UMTS900 and UMTS2100 service
Single phase 13A sockets available for installation staff use
LED strip lights powered from vehicle battery and traditional fluorescent strip light powered from 240VAC supply
High roof allows deployment engineer to stand in cabin
Simple and Quick Deployment 1. Park vehicle on generally flat and level hard-standing ground 2. Level vehicle with levelling chocks (if required) 3. Fit vehicle stabilisers (not levellers)
Simple and Quick Deployment 4. Lift and align backhaul dish to required switch site 5. Release and lift top of mast head and secure in place with captive steel pin 6. Connect antenna feeders to base station antenna ports and select VET
Simple and Quick Deployment 7. Confirm that current wind speed is within safe operating range 8. Extend mast using remote control 9. Connect antenna feeders to panel on vehicle roof 10. Configure radio equipment
Simple and Quick Deployment
Within 20 minutes you can have a fully operational, multi-technology, independently powered macro site
London Marathon 2012 Case Study
• Projex CI CoW deployed at the finish of the London Marathon in St. James Park, London in a very sensitive location within a Royal Park.
London Marathon 2012 Case Study • CoW deployed with the following capacity:
– 4 x GSM900 TRX – 2 x GSM1800 TRX – 1 x UMTS900 TRX – 2 x UMTS2100 TRX
London Marathon 2012 Case Study • Peak traffic observed between 12:00 and 15:00 as most runners
completed the marathon and were re-united with friends and family. • Total site traffic more than 300 Erlangs and 6GB of data
0
2000000
4000000
6000000
8000000
10000000
12000000
14000000
16000000
18000000
07:0
0:00
07:1
5:00
07:3
0:00
07:4
5:00
08:0
0:00
08:1
5:00
08:3
0:00
08:4
5:00
09:0
0:00
09:1
5:00
09:3
0:00
09:4
5:00
10:0
0:00
10:1
5:00
10:3
0:00
10:4
5:00
11:0
0:00
11:1
5:00
11:3
0:00
11:4
5:00
12:0
0:00
12:1
5:00
12:3
0:00
12:4
5:00
13:0
0:00
13:1
5:00
13:3
0:00
13:4
5:00
14:0
0:00
14:1
5:00
14:3
0:00
14:4
5:00
15:0
0:00
15:1
5:00
15:3
0:00
15:4
5:00
16:0
0:00
16:1
5:00
16:3
0:00
16:4
5:00
17:0
0:00
17:1
5:00
17:3
0:00
17:4
5:00
17:4
6:00
U9+U21 RXTotCells
U9+U21 TXTotCells
London Marathon 2012 Case Study • The local O2 network was configured to distribute the traffic between
the CoW and adjacent macro sites
CoW Serving Area (UMTS900)
Whitehall Serving Area (UMTS900)
Buckingham Gate Serving
Area (UMTS900)
Great Scotland Yard Serving
Area (UMTS900)