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ShapeMetriX UAV Aerial 3D images High quality photographs are taken with a calibrated camera from an adequate remote controlled aircraft (micro-drone) from which accurate 3D images are generated on the computer. 3GSM provides it one-stop: volumetric measurements, blast design, and rock mass characterisation.
Bench face profiling
Open Source Uav Software
Reduce your drill and blast costs by applying 3GSM's easy to use systems
Complete 3D coverage of the bench face for fly-rock reduction
Uav Design Software free. download full Version
3GSM packages - Simply Measure!
Uav Design software, free download Mac
Blast design
Less cumbersome with
BlastMetriX 3D!
The innovative BlastMetriX 3D system for bench face profiling and geometric blast design using 3D images
Simply Measure!
Geological mapping
Contact-free measurements in 3D simply geological documentation works in tunnelling and mining
3GSM software generates 3D models from digital imagery
Aerial 3D images
Aerial 3D images of heaps for documentation and conservation of evidence
Volumetric and slope measurements in surface mines made easy
Combine it with blast design and rock mass characterisation
BlastMetriX UAV
Blast Design and Blast Analysis with 3D images
3D images from drones are a perfect survey of large blast sites
Logo Design software, free download
ShapeMetriX TBM
3D imaging and analysis system for digital tunnel face documentation during hard rock tunnelling with a TBM.
Areas of application
3GSM's systems are used in more than 40 countries worldwide.
Our clients appreciate the efficiency and simple application of our systems such as ShapeMetriX 3D und BlastMetriX 3D
Contact-free acquisition and assessment of rock and terrain surfaces by metric 3D images
New! Fragmentation analysis for drone imagery in 3D – Learn more…
New! Request about our full software demo version – available for BlastMetriX and ShapeMetriX! more…
3GSM's systems provide easy application in geological mapping, volumetric measurements, or blast design
Our systems are used in more than 40 countries all over the world.
BMX Fragmenter is the newest modul of the 3GSM software. It is the first real 3D fragmentation analysis from drone imagery.
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3GSM congratulates DI Stefan Stauder on receiving the OeGG Award, which was awarded for his very good Diplom theses in the field of of Geology and Geomechanics.
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3D image measurementsTunnelling
• Digital tunnel face documentation
• Geotechnical data acquisition • Conservation of evidence NEW: now also for TBM excavations
Benefits More
• Quick, comprehensive, complete, objective • Measurements also in inaccessible areas • Permanent documentation Mining
• Bench face profiling
• Blast design • Volumetric measurements • Stability assessment
Benefits
• Fly-rock prevention • Improved blasting results • Reduction of drill and blast costs Uav Design software, free download For Windows 7MoreConstruction
• Data acquisition for engineering geologists
• Rock mass characterisation • Determinaton of rock mass parameters • Documentation / Conservation of evidence
Benefits More
• Contact-free measurements • Comprehensive documentation • Reduced data acquisition time Applied all over the World
It seems that the quality of our systems and their innovative strength are highly appreciated by our customers together with our fast support.
That’s why our clients in more than 40 countries proudly range from smallest engineering consultant firms to the largest mining enterprises of the world.
Let us convince you with our systems such as ShapeMetriX 3D and BlastMetriX 3D!
Afghanistan – Australia – Belgium – Bosnia and Herzegovina – Botswana – Brazil – Chile – China – Germany – Finland – France – Great Britain – Greenland – India – Ireland – Israel – Italy – Canada – Colombia – Korea – Croatia – Malaysia – Morocco – Mexico – New Zealand – Niger – Norway – Austria – Romania – Russia – Sweden – Switzerland – Serbia – Singapore – Slovakia – Slovenia – Spain – South Africa – Thailand – Czech Republic – Hungary – United States – United Arab Emirates
As career opportunities in the Unmanned Aerial Vehicle (UAV) field evolve, universities around the globe are offering varied degrees related to UAV engineering, operation, and maintenance. Designing, operating and maintaining UAV systems requires knowledge in a number of different fields including mechanical, aerospace, and computer engineering.
Uav Design software, free download 2012
ComQuest Ventures LLC is working with a number of leading UAV academic institutions to leverage its Typhon UDX UAV design and simulation software to facilitate and enhance education in these areas.
Typhon UDX: The UAV Design Explorer is an integrated software package for accelerated design, analysis and simulation of UAV airframes and their flight control systems. It offers a real-time interactive and visual design environment where designs ranging from fixed-wing aircraft to multicopter and Vertical Take-off and Landing (hybrid or VTOL) systems can be quickly analyzed and simulated. As such, it is an ideal learning tool for students which can be used for in-class demonstrations, hands-on projects, capstone courses, or graduate-level research projects.
Typhon UDX is being deployed in aerospace engineering courses, where it can be used to teach subjects such as aircraft design, aerodynamics, and flight dynamics and control. Real-time performance predictions allow students to gain an intuition of how design choices affect aircraft performance, complementing the theoretical understanding already offered by the courses. At the same time, the high-fidelity simulation capability allows students to have hands-on experience in operating a UAV, an experience which is often not possible due to time and budget constraints.
The software also allows students to create their own flight control code using the popular Python scripting language. In this way students can learn basic to advanced concepts in flight control theory.
Typhon UDX is also used for UAS operation training and mission planning through software- and hardware-in-the-loop simulations. The software is capable of simulating specific UAV platforms, with specific ground control station interfaces in varied flight environments and environmental conditions. Thus, students can learn how to operate specific Unmanned Aerial Systems in a virtual environment, complementing and enhancing existing training methods offered by the academic institutions.
Design Of Uav Systems
Source: Press Relaese
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