Acumine
- About Acumine
- Products
- Collision Avoidance
- HaulCheck
- Mining Safety Design
- Fleet Monitoring Systems
- Resources and Personnel tracking
- Orecheck
- 2D High Speed Scanner
- 3D High Speed Scanner
- Multimedia
- News
Short News
Acumine is an innovative company that develop systems using the latest information technology. These systems are devoted to the safety and performance of capital intensive companies. The following are short news of the last activities and product development that our company are involved
ACASS Succesful Demonstration in Andina
13.Aug.2009
Acumine has succesfully demonstrated the ACASS collision avoidance system at the Codelco mine Andina in Chile. The new Komatsu 930 Haul Trucks, light vehicles and other resources were retrofitted with ACASS and has been operating under extreme temperatures.
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Acumine ACASS in Anglo Ashanti
13.Aug.2009
Acumine has deployed the first stage of ACASS at the Sunrise Dam Gold Mine (SDGM) of Anglo Ashanti in Western Australia. The extension of ACASS to a larger number of resources is expected to be completed by November 2009.
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Acumine in Chile
11.Apr.2009
Acumine started the deployment of the ACASS collision avoidance system at the Codelco mine Andina in Chile. The new Komatsu 930 Haul Trucks, light vehicles and other resources are being retrofitted with ACASS.
See it complete
Acumine 2D High Speed Scanner
Overview
under Construction
| Topic |
Details |
| Operational Frequency |
94 GHz |
| Transmitted Power |
10 mW |
| Antenna Beamwidth |
1.5 degrees |
| Angle Accuracy |
< 0.1 degree |
| Operationa range |
1 - 100m |
| Range Resolution |
25 cm |
| Rotation Rate |
5 rps |
| Measurement Output |
Ethernet (client server) |
| Supply Voltage |
24 V DC at 5A |
Size |
800 mm long x 200 mm max Diameter |
Radar Mass |
8 kg |
Processor Mass |
8 kg |
Environmental |
IP 67 |
Options
Beam Shape
Two options are available:
| Topic |
Details |
Pencip beam |
1.5 degrees |
Fan beam |
1.5 degrees |
Situational Awareness
For autonomous navigation applications, it is often useful to generate a high resolution sector in the direction of travel with lower resolution over the rest of the 360° scan. This is achieved by offering the user control of the radar swept bandwidth (hence range resolution) and the mirror rotation speed.