Vehicle height laser detection system: Difference between revisions

From Teltonika Networks Wiki
No edit summary
No edit summary
 
(23 intermediate revisions by 3 users not shown)
Line 1: Line 1:
Transport for Cape Town (TCT) recently installed a 3D laser detection system in Muizenberg to prevent vehicles with a height of over 2.5m from crashing into the low railway bridge at Atlantic Road.
Transport for Cape Town (TCT) recently installed a 3D laser detection system in Muizenberg to prevent vehicles with a height of over 2.5m from crashing into the low railway bridge at Atlantic Road.
[[image:RUT950.png|thumb|right|200px|upright=0.35|RUT950]]
{{Template:Networking_rut955_usecase_device_box}}
__TOC__
==Summary==
==Summary==
The laser scans both lanes all day, while the system controller determines whether a detected vehicle is over the stipulated height.
The laser scans both lanes all day, while the system controller determines whether a detected vehicle is over the stipulated height.
If the system determines that the over-height vehicle is in the turning lane or straddling both lanes, it triggers the LED flasher.
If the system determines that the over-height vehicle is in the turning lane or straddling both lanes, it triggers the LED flasher.
Line 9: Line 11:


==Customer profile==
==Customer profile==
Transport for Cape Town (TCT)
Transport for Cape Town (TCT)


==Chalenge==
==Challenge==
 
The railway bridge crossing Atlantic Road in Muizenberg is notorious for crashes, because road users underestimate the height of their vehicles or load,” said Cape Town Councilor Brett Herron.
The railway bridge crossing Atlantic Road in Muizenberg is notorious for crashes, because road users underestimate the height of their vehicles or load,” said Cape Town Councilor Brett Herron.
Herron said a warning system was required to improve the safety of road users and to prevent crashes into the bridge.
Herron said a warning system was required to improve the safety of road users and to prevent crashes into the bridge.
TCT officials proposed a 3D laser detection system – a first for Cape Town – following international research.
TCT officials proposed a 3D laser detection system – a first for Cape Town – following international research.
==Solution==
==Solution==
The specifications for the laser system were drawn up by TCT.
The system software was developed by local company Radar Vision, which sourced the laser from Europe.
The sensor is a Class 1 laser device that emits infrared light invisible to humans and has an operating temperature range of -10C to 70C.
The system scans the roadway 50 times per second, taking a measurement every 0.5 degrees. The sensor reports distance in millimetres for each measurement.
The road is 6,600mm vertically below the sensor, while traffic with a height above 500mm from the road surface is recognised.
The sensor measures vehicles up to 5.8m in height, and 8.5m of the road’s width.
The system controller does all the calculations to determine which lane every detected point is in.
The controller runs an operating system with support for remote monitoring and configuration.
The controller has a graphical touchscreen display and logs all traffic heights to flash storage. The real-time display provides local and remote vehicle-by-vehicle height display.
==Attachments==


==Attachements==
{|style="margin: 0 auto;valign="left""
{|style="margin: 0 auto;valign="left""
| [[File:Stuttgart-M64-Controller-Overheight.jpg|thumb|left|300px|x300px]]  
| [[File:Stuttgart-M64-Controller-Overheight.jpg|thumb|left|450px|x450px]]  
| [[File:Overheight-Laser-Scanner-640x402.jpg|thumb|left|300px|x300px]]
| [[File:Overheight-Laser-Scanner-640x402.jpg|thumb|left|333px|x333px]]
| [[File:Index.jpg|thumb|left|300px|x300px]]
| [[File:Index.jpg|thumb|left|210px|x210px]]
|}
|}


==Benefits==
==Benefits==
A great success so far. Although it is too early to determine the success of the new system, it is noteworthy that no crashes have occurred since it started operating on 1 June.
==External links==
==External links==
https://mybroadband.co.za/news/gadgets/168453-how-cape-towns-impressive-new-3d-laser-detection-system-works.html
 
<ul>
    <li>[https://mybroadband.co.za/news/gadgets/168453-how-cape-towns-impressive-new-3d-laser-detection-system-works.html Related story]</li>
    <li>[https://teltonika-networks.com/product/rut955/ RUT955 homepage]</li>
</ul>
 
[[Category:RUT955 Success Stories]]

Latest revision as of 09:46, 8 May 2019

Main Page > EOL Products > RUT955 > RUT955 Usage Scenarios > RUT955 Success Stories > Vehicle height laser detection system

Transport for Cape Town (TCT) recently installed a 3D laser detection system in Muizenberg to prevent vehicles with a height of over 2.5m from crashing into the low railway bridge at Atlantic Road.

RUT955
RUT955

Summary

The laser scans both lanes all day, while the system controller determines whether a detected vehicle is over the stipulated height. If the system determines that the over-height vehicle is in the turning lane or straddling both lanes, it triggers the LED flasher. If a vehicle is over the admitted height but not in the turning lane, the system records the event but does not trigger the LED system. The LED flasher will flash for a configurable amount of time, typically 40 seconds. The system can also be remotely monitored at the Transport Management Centre.

Customer profile

Transport for Cape Town (TCT)

Challenge

The railway bridge crossing Atlantic Road in Muizenberg is notorious for crashes, because road users underestimate the height of their vehicles or load,” said Cape Town Councilor Brett Herron. Herron said a warning system was required to improve the safety of road users and to prevent crashes into the bridge. TCT officials proposed a 3D laser detection system – a first for Cape Town – following international research.

Solution

The specifications for the laser system were drawn up by TCT. The system software was developed by local company Radar Vision, which sourced the laser from Europe. The sensor is a Class 1 laser device that emits infrared light invisible to humans and has an operating temperature range of -10C to 70C. The system scans the roadway 50 times per second, taking a measurement every 0.5 degrees. The sensor reports distance in millimetres for each measurement. The road is 6,600mm vertically below the sensor, while traffic with a height above 500mm from the road surface is recognised. The sensor measures vehicles up to 5.8m in height, and 8.5m of the road’s width. The system controller does all the calculations to determine which lane every detected point is in. The controller runs an operating system with support for remote monitoring and configuration. The controller has a graphical touchscreen display and logs all traffic heights to flash storage. The real-time display provides local and remote vehicle-by-vehicle height display.

Attachments

Benefits

A great success so far. Although it is too early to determine the success of the new system, it is noteworthy that no crashes have occurred since it started operating on 1 June.

External links