Machinery & Automation

Testing Military Vehicle Steering Systems

Military vehicles play a vital role in protecting our society — and inevitably encounter many extreme conditions across their lifespan. From the varying weight, to the rough terrain, there is a lot that can go wrong. Military steering systems must therefore be engineered to take on such extremes. This begins at the design stage and ends with analysis through testing. It's here the parts are tested to their limits and validated against the original specification and real-life requirements.

Posted in: Articles, Aerospace, Defense, Manufacturing & Prototyping, Automation, Instrumentation, Measuring Instruments, Monitoring, Test & Measurement, Transportation
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Producing Manufacturing Aids with HP Multi Jet Fusion 3D Printing

In the era of mass production and lean manufacturing, companies are looking for ways to help boost productivity and reduce unit costs while maintaining quality and repeatability. The focus is on continuously improving production techniques, accelerating the various phases within the Product Lifecycle while keeping costs at a minimum. Manufacturing aids such as jigs, fixtures, quality control aids, dies and punches and dummy parts play a critical role here.

Posted in: White Papers, White Papers, White Papers, Manufacturing & Prototyping, Coatings & Adhesives, Automation, Robotics
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Army Developing Next Generation Combat Vehicles

While the Army's current combat fleet is composed of very capable vehicles, they have been in the inventory for decades and their ability to overmatch peer capabilities in close combat is starting to wane. As the Army prepares for future combat operations, it needs new platforms, with future growth margins, to maintain the ability to dominate the battlefield.

Posted in: INSIDER, News, Defense, Automation, Automotive, Transportation
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Army to Purchase Additional Soldier Borne Sensor Systems

For soldiers in combat, situational awareness – knowing where the enemy is and where friendly forces are – is critical.

To help soldiers maintain situational awareness, the U.S. Army submitted a draft Request for Proposal for Soldier Borne Sensors, which will have two components – an unmanned aerial vehicle and a ground control station. With a camera in the air vehicle, soldiers will be able to see further and around obstacles that they previously wouldn't be able to see in near-real-time.

Posted in: News, Defense, Robotics, Data Acquisition, Detectors, Sensors
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Optical Seeker for Munitions Systems

BAE Systems
Nashua, NH
603-885-4321
www.baesystems.com

The U.S. Defense Advanced Research Projects Agency (DARPA), through the U.S. Air Force Research Laboratory, has awarded BAE Systems a $13.1 million contract to demonstrate a new, cost-effective optical seeker for precision-guided munitions. The seeker is designed to improve navigation, as well as automate target location and homing, for different types of munitions that are used in GPS-denied and other contested environments.

Posted in: Application Briefs, Defense, Lasers & Laser Systems, Optical Components, Optics, Propulsion, Automation
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Army Researchers Teach Robots to be Better Teammates for Soldiers

Researchers at the U.S. Army Research, Development and Engineering Command Research Laboratory and the Robotics Institute at Carnegie Mellon University developed a new technique to quickly teach robots novel traversal behaviors with minimal human oversight. The technique allows mobile robot platforms to navigate autonomously in environments while carrying out actions a human would expect of the robot in a given situation.

Posted in: INSIDER, News, Defense, Robotics
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Streamlining Machinery and Production Lines With HP Multi Jet Fusion 3d Printing

Machinery and production line component production has typically been served with traditional processes such as CNC machining and injection molding. However, as industries strive to find greater efficiencies and add more value for their customers, machinery and production line manufacturers and runners are looking for ways to enhance and optimize how they produce components–in order to offer unique/customized solutions at low cost to their internal or external customers, drive greater production line efficiencies with lightweight, high performance parts, and maximize equipment uptime. 3D printing opens up a world of new opportunities for machinery and production line component production–both for original and spare parts.

Posted in: White Papers, White Papers, White Papers, Aeronautics, Manufacturing & Prototyping, Robotics
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Validation of Ubiquitous 2D Radar

Seastema SpA, a company owned by Fincantieri (Genova, Italy), designs, develops, and supplies integrated automation systems for different areas of the marine industry. The company established an Innovation Division in Rome to verify the feasibility of an unconventional radar system by means of a demonstrator built as much as possible with commercial off-the-shelf (COTS) devices.

Posted in: Articles, Aerospace, Defense, Antennas, RF & Microwave Electronics, Automation, Data Acquisition, Detectors, Sensors
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Soldier-Robot Team Communication: An Investigation of Exogenous Orienting Visual Display Cues and Robot Reporting Preferences

The advancement of robot capabilities and functionality has changed the way in which soldiers perform many of their operational tasks. The various unmanned air, ground, and submersible vehicles currently deployed have significantly impacted present-day warfare.

Posted in: Briefs, Aeronautics, Aerospace, Aviation, Communications, Wireless, Defense, Industrial Controls & Automation, Manufacturing & Prototyping, Automation, Robotics, Test & Measurement, Automotive, Transportation
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GPS Enabled Semi-Autonomous Robot

The primary objective of this research is to integrate GPS and local sensory data to allow a robot to operate semi-autonomously outside of a laboratory environment. The Pioneer 3-AT, a robust platform capable of operating in the outdoors, is utilized in this project. The P3-AT has acoustic sensors that can calculate distances to obstacles and encoders that calculate how much each wheel has turned. In a laboratory environment, sensory and encoder information can be used to triangulate position or measure distance and direction traveled from a known starting point. Operating outdoors limits the effectiveness of both systems as the obstacles are not known and wheels can often slip and slide on different surfaces. This necessitates external data to determine the location of the robot. GPS was chosen to provide that data. GPS, acoustic, and encoder data were integrated within MATLAB and provided control signals to the robot.

Posted in: Briefs, Aerospace, Communications, Data Acquisition, Defense, MEMs, Motion Control, Automation, Robotics, Data Acquisition, Sensors, Computer-Aided Design (CAD), Computer-Aided Engineering (CAE), Computer-Aided Manufacturing (CAM), Software, Transportation
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