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OSM 5000 launch

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SOMAG AG Jena launches

Offshore/Offroad Gyro Stabilization Mount OSM 5000

SOMAG AG Jena announces the launch of the new OSM 5000, the most powerful gyro-based stabilization platform ever developed by SOMAG. With the launch of the OSM 5000 and the launch of the RSM 50, SOMAG introduces two gimbals of the new series 5 for industry-leading stabilization in offshore and offroad settings.

High-class gyro stabilization for offroad and offshore environments

The gyro stabilizer is equipped with high-precision built-in sensors to detect in real-time movements of land vehicles caused by rough terrain, as well as angular movements of boats, ships, Unmanned Surface Vessels (USVs), autonomous platforms and buoys caused by sea swell. The Gyro Stabilization Mount automatically compensates the movements to keep the sensor payload in a leveled position even when the ground is moving to provide razor-sharp imagery and comprehensive situational awareness. The IP class 67 weatherproof design allows the gimbal to do its job perfectly in humid, salty as well as dry, dusty environments.

Two stabilization range configurations available

“We offer the OSM 5000 in two different configurations, depending on the customer’s application, in order to do justice to the variety of possible use cases of our device and the resulting requirements,” says Sebastian Schreiber CTO, SOMAG AG Jena.

With its symmetrical stabilization range, the Gyro Stabilization Mount compensates movements in roll and pitch up to ≤± 14.1°. This configuration is particularly interesting for customers who want to install their sensor on a land vehicle or floating support, since the general motion stimulation is rather symmetrical. However, if the OSM is to be installed on ships, the asymmetric configuration with ≤± 12.2° pitch and ≤±17.4° roll axis stabilization is recommended. As shown by studies on ship motions, motions in the roll axis pose greater challenges than in the pitch axis. Because ships are longer than they are wide, motions in the pitch axis are quite limited. In contrast, movements in the roll axis in sea state 6 can reach between 13° to 19°, depending on the width of the vessel1.

1 Data is based on US Navy ship motion studies

Most powerful gimbal ever developed by SOMAG

The hydraulic gimbal system was designed to ensure precise leveling of heavy sensor payloads up to 300 kg (660 lbs) at only 55 kg own weight. Schreiber says: “When you consider the dimensions, it is quite amazing what we have created. With the OSM, we offer our customers a unit that can theoretically balance 4 grown men with an accuracy of ≤0.3°. The Gyro Mount is extremely powerful, but not monstrous. We clearly stand out from other devices on the market in terms of form factor, which has been kept as small as possible in relation to the performance of the Mount, being able to generate a peak dynamic torque of 550 Nm.”

The OSM 5000 features advanced control algorithms, enhanced diagnosis possibilities and an Ethernet communication interface that allows integration into existing networks as well as control and monitoring of multiple Gyro Mounts within a network.

Contact us for further information

The new OSM 5000 is commercially available as of now. For further questions and prices please contact SOMAG sales team.

In order to give you the best possible assistance, please include the following information in your request:

  • Where should the Mount be installed (floating platform, buoy, ship etc.)?
  • Dimensions (length/width/weight) of the platform or vessel
  • How many meters above the waterline should the Mount and the payload be installed?
  • Center of gravity and weight of the payload
  •  Further information you consider important

Find out more

OSM 5000 – Marine

OSM 5000 – Marine

OSM 5000 – Land

OSM 5000 – Land

Newsletter

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Keep yourself informed about SOMAG and the latest Gyro Mount technology.
We will send you regular information about:

  • exhibitions and event invitations
  • new products, services and videos
  • latest application examples, projects and partnerships

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SOMAG AG Jena launches

Offshore/Offroad Gyro Stabilization Mount OSM 5000

SOMAG AG Jena announces the launch of the new OSM 5000, the most powerful gyro-based stabilization platform ever developed by SOMAG. With the launch of the OSM 5000 and the launch of the RSM 50, SOMAG introduces two gimbals of the new series 5 for industry-leading stabilization in offshore and offroad settings.

High-class gyro stabilization for offroad and offshore environments

The gyro stabilizer is equipped with high-precision built-in sensors to detect in real-time movements of land vehicles caused by rough terrain, as well as angular movements of boats, ships, Unmanned Surface Vessels (USVs), autonomous platforms and buoys caused by sea swell. The Gyro Stabilization Mount automatically compensates the movements to keep the sensor payload in a leveled position even when the ground is moving to provide razor-sharp imagery and comprehensive situational awareness. The IP class 67 weatherproof design allows the gimbal to do its job perfectly in humid, salty as well as dry, dusty environments.

Two stabilization range configurations available

“We offer the OSM 5000 in two different configurations, depending on the customer’s application, in order to do justice to the variety of possible use cases of our device and the resulting requirements,” says Sebastian Schreiber CTO, SOMAG AG Jena.

With its symmetrical stabilization range, the Gyro Stabilization Mount compensates movements in roll and pitch up to ≤± 14.1°. This configuration is particularly interesting for customers who want to install their sensor on a land vehicle or floating support, since the general motion stimulation is rather symmetrical. However, if the OSM is to be installed on ships, the asymmetric configuration with ≤± 12.2° pitch and ≤±17.4° roll axis stabilization is recommended. As shown by studies on ship motions, motions in the roll axis pose greater challenges than in the pitch axis. Because ships are longer than they are wide, motions in the pitch axis are quite limited. In contrast, movements in the roll axis in sea state 6 can reach between 13° to 19°, depending on the width of the vessel1.

1 Data is based on US Navy ship motion studies

Most powerful gimbal ever developed by SOMAG

The hydraulic gimbal system was designed to ensure precise leveling of heavy sensor payloads up to 300 kg (660 lbs) at only 55 kg own weight. Schreiber says: “When you consider the dimensions, it is quite amazing what we have created. With the OSM, we offer our customers a unit that can theoretically balance 4 grown men with an accuracy of ≤0.3°. The Gyro Mount is extremely powerful, but not monstrous. We clearly stand out from other devices on the market in terms of form factor, which has been kept as small as possible in relation to the performance of the Mount, being able to generate a peak dynamic torque of 550 Nm.”

The OSM 5000 features advanced control algorithms, enhanced diagnosis possibilities and an Ethernet communication interface that allows integration into existing networks as well as control and monitoring of multiple Gyro Mounts within a network.

Contact us for further information

The new OSM 5000 is commercially available as of now. For further questions and prices please contact SOMAG sales team.

In order to give you the best possible assistance, please include the following information in your request:

  • Where should the Mount be installed (floating platform, buoy, ship etc.)?
  • Dimensions (length/width/weight) of the platform or vessel
  • How many meters above the waterline should the Mount and the payload be installed?
  • Center of gravity and weight of the payload
  •  Further information you consider important

Find out more

RSM 50 – Marine

RSM 50 – Marine

RSM 50 – Land

RSM 50 – Land

Newsletter

Subscribe today!

Keep yourself informed about SOMAG and the latest Gyro Mount technology.
We will send you regular information about:

  • exhibitions and event invitations
  • new products, services and videos
  • latest application examples, projects and partnerships

Subscribe here

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NSM 400

Successfully Completes Stabilization Performance Test

SOMAG AG AG Jena has successfully tested the stabilization performance of its Nautical Stabilization Mount 400 at the Institute of Ship Technology and Transport Systems of the University of Duisburg-Essen.

The NSM 400 was designed to stabilize sensor systems on medium to large maritime vessels even in very rough sea conditions, ensuring a stabilized field of view and high-resolution images by compensating the swell up to sea state 6 and beyond.

Extensive research on ship motion in different sea states show rotary motion given by roll, pitch and yaw and a strong presence of linear accelerations along all 3 axes.

Placing the Stabilization Mount in an elevated position on a mast high above the ship’s pivot represents a typical but also challenging case of application. This pivot offset causes the angular movements to result in tangential accelerations, to which additional sway, heave and surge accelerations add up.

„We used comprehensive data from US Navy ship motion studies and picked out the worst-ever recorded cases to calculate the maximum angles, max. angular velocities, max. angular accelerations and max. tangential accelerations occurring for our application at sea state 6,” says Jens Korneli, Application Engineer at SOMAG AG Jena.

Previous performance tests using the SOMAG test bed could already successfully demonstrate the NSM 400 stabilization performance. However, these tests were limited to roll and pitch motion only. To reproduce tangential acceleration, a hexapod test bed was chosen to simulate real-life ship motions.

A total of 13 different hexapod tests were performed simulating movements up to 20° in roll and pitch and lateral accelerations up to 0.5 g.

The residual angular deviation from perpendicular was measured with a reference sensor system to verify the stabilization performance of the Mount. The NSM 400 has successfully completed all 13 tests, delivering on the promise of an unmatched stabilization accuracy of ≤0.4° rms without external IMU data.

“The NSM 400 performance went above and beyond our own specifications and proved an average residual angular deviation of 0.17° rms,” Sebastian Schreiber, CTO at SOMAG AG Jena, summarizes the results.

“However, we do not simply stop at this point” he continues. “In order to resemble the real-life challenges of seafaring more closely, we used motion data actually recorded from an LNG tanker fighting its way through waves of 9 m (30 ft.) and higher, which corresponds to sea state 7.”

Heavy swell like this pushes man and machine to their limits, but the NSM400 is not impressed at all, perfectly stabilizing the 41 kg (90,38 lbs.) payload. The measured residual angular deviation of no more than 0.12° rms once again proves that the gimbal is more than capable of getting its job done, just relying on its build in sensors.

Performance Test Video

The results of the hexapod-test using real-life ship data is shown in the video. The IMU on top of the Mount measures the residual angular deviation in roll (blue line) and pitch (green line) to prove the stabilization performance. The rms values in the diagram change according to the residual angular deviation in the respective moment.

For more information about SOMAG AG Jena’s NSM 400, click here.

You have questions? Please contact us!

Newsletter

Subscribe today!

Keep yourself informed about SOMAG and the latest Gyro Mount technology.
We will send you regular information about:

  • exhibitions and event invitations
  • new products, services and videos
  • latest application examples, projects and partnerships

Subscribe here

Subscribe to the SOMAG newsletter
SOMAG AG Jena launches

Offshore/Offroad Gyro Stabilization Mount OSM 5000

SOMAG AG Jena announces the launch of the new OSM 5000, the most powerful gyro-based stabilization platform ever developed by SOMAG. With the launch of the OSM 5000 and the launch of the RSM 50, SOMAG introduces two gimbals of the new series 5 for industry-leading stabilization in offshore and offroad settings.

High-class gyro stabilization for offroad and offshore environments

The gyro stabilizer is equipped with high-precision built-in sensors to detect in real-time movements of land vehicles caused by rough terrain, as well as angular movements of boats, ships, Unmanned Surface Vessels (USVs), autonomous platforms and buoys caused by sea swell. The Gyro Stabilization Mount automatically compensates the movements to keep the sensor payload in a leveled position even when the ground is moving to provide razor-sharp imagery and comprehensive situational awareness. The IP class 67 weatherproof design allows the gimbal to do its job perfectly in humid, salty as well as dry, dusty environments.

Two stabilization range configurations available

“We offer the OSM 5000 in two different configurations, depending on the customer’s application, in order to do justice to the variety of possible use cases of our device and the resulting requirements,” says Sebastian Schreiber CTO, SOMAG AG Jena.

With its symmetrical stabilization range, the Gyro Stabilization Mount compensates movements in roll and pitch up to ≤± 14.1°. This configuration is particularly interesting for customers who want to install their sensor on a land vehicle or floating support, since the general motion stimulation is rather symmetrical. However, if the OSM is to be installed on ships, the asymmetric configuration with ≤± 12.2° pitch and ≤±17.4° roll axis stabilization is recommended. As shown by studies on ship motions, motions in the roll axis pose greater challenges than in the pitch axis. Because ships are longer than they are wide, motions in the pitch axis are quite limited. In contrast, movements in the roll axis in sea state 6 can reach between 13° to 19°, depending on the width of the vessel1.

1 Data is based on US Navy ship motion studies

Most powerful gimbal ever developed by SOMAG

The hydraulic gimbal system was designed to ensure precise leveling of heavy sensor payloads up to 300 kg (660 lbs) at only 55 kg own weight. Schreiber says: “When you consider the dimensions, it is quite amazing what we have created. With the OSM, we offer our customers a unit that can theoretically balance 4 grown men with an accuracy of ≤0.3°. The Gyro Mount is extremely powerful, but not monstrous. We clearly stand out from other devices on the market in terms of form factor, which has been kept as small as possible in relation to the performance of the Mount, being able to generate a peak dynamic torque of 550 Nm.”

The OSM 5000 features advanced control algorithms, enhanced diagnosis possibilities and an Ethernet communication interface that allows integration into existing networks as well as control and monitoring of multiple Gyro Mounts within a network.

Contact us for further information

The new OSM 5000 is commercially available as of now. For further questions and prices please contact SOMAG sales team.

In order to give you the best possible assistance, please include the following information in your request:

  • Where should the Mount be installed (floating platform, buoy, ship etc.)?
  • Dimensions (length/width/weight) of the platform or vessel
  • How many meters above the waterline should the Mount and the payload be installed?
  • Center of gravity and weight of the payload
  •  Further information you consider important
Newsletter

Subscribe today!

Keep yourself informed about SOMAG and the latest Gyro Mount technology.
We will send you regular information about:

  • exhibitions and event invitations
  • new products, services and videos
  • latest application examples, projects and partnerships

Subscribe here

Subscribe to the SOMAG newsletter