1. Container Positioning Technology �Convention DGPS-�Savcor RAAS DGPS
2. GPS Systems First systems early 90’s
Mount a GPS antenna on top of a Straddle Carrier in order to track the location of containers
6. GPS Promise TOS (Terminal Operating System) optimises yard planning
GPS ensures the correct execution of plan
Warn driver for container pick & place errors
7. GPS Promise Report all container moves
Also unplanned moves
Also changes to plans
? Accurate yard inventory
8. GPS Reality GPS industry is using term ’Accuracy’ in statistical meaning, not literally
The end-user could be confused
9. GPS Reality ’Sub-meter’ accuracy (s, CEP or RMS) means that 1 meter is the typical deviation.
Almost half of measurements have greater error than 1 meter, even 2-3 meters
10. ’Sub-meter’ DGPS performance GPS antenna placed in the middle of container
24 hours of data (open sky)
1 of May 2006
Full visibility to sky
100 seconds carrier smoothing
11. DGPS performance in port environment Performance will be even worse
Cranes will reduce the satellite visibility
Multi-path reflections will degrade performance near the cranes
No 100 seconds carrier smoothing when a Straddle Carrier passes under crane
12.
Using a standard DGPS receiver, 2%...5% container slot errors are generated
DGPS performance in port environment
13. 2%...5% Slot Errors
14. Effect to operational accuracy Assume 5000 container moves per day
2% slot errors ?
100 false container positions each day
Yard inventory will not stay accurate
GPS Promise not fulfilled
15. What about RTK GPS ?
16. RTK, Real Time Kinematic GPS
RTK is ’centimeter-accurate’ GPS, +/- 2cm
Measures wavelengths between satellite and antenna
But: 2…5 minutes initialisation time
17. Each time when straddle carrier passes under the crane, GPS signal is broken and a new RTK initialisation starts
21. The straddle arrives to container stack faster than 2…5 minutes
GPS is not ready when needed
RTK GPS can not be used
22. The whole problem:
23. There is a solution The GPS problems are not caused (entirely) by laws of nature
The conventional system is not using all data
24. There is a solution Standard GPS-receivers are designed for general use (surveying, ships, airplanes)
They do not use the special informaton of port application or layout !
They try to solve ’too general’ problem
25. Conventional setup
26. Bottleneck is created !
27.
GPS can be used in a more intelligent way in port applications
28. Let us remove the bottleneck !
29. The solution:�integrated system RAAS, Re-Acquisition Accelerate System
30. Conventional DGPS*
31. Improvement: Container slot detection reliability improved by a factor of 100
New generation of GPS reliability
32. RAAS GPS, same data set
33. RAAS System Operates with high-quality GPS HW-platforms
Increased computing power, algorithms re-designed
Co-operation with selected GPS-vendors
Retrofits possible
34. RAAS references First RAAS installation 2004
RAAS has been in operational use on several straddle carrier sites more than one year now
Installations have been made also for top-handlers and reach stackers
Patent pending
35. Conclusions Traditional DGPS-solutions have not provided the best possible operational accuracy
It is possible to improve reliability by a factor of 10…100
The solution is to integrate yard and layout data in GPS-calculation
? GPS technology has moved to next level
