The 2015 Prize for Contributions in Soft Robotics rewards academic researchers for sharing their work and advancing the field. The competitions include $10,000 in prizes!
Fanuc claims that it is the first robot manufacturer to produce a heavy-duty robot designed to work safely alongside humans. Its CR-35iA robot can perform tasks involving payloads of up to 35kg without needing the protective guards and fences that have previously been needed for robots with similar lifting capacities. Although there are already several other collaborative robots on the market, most are designed for much lower payloads. The new robot will stop automatically if it touches a human operator. A soft covering material also reduces the force of any impacts and prevents human operators from being pinched by the mechanism. And if the robot comes too close to an operator, they can simply push it away. The covering has a green colour to distinguish it from Fanuc’s usual yellow robots. The six-axis robot is designed for duties such as transferring heavy workpieces or assembling parts. By avoiding the need for safety barriers, it is claimed to improve production efficiencies and allow higher levels of automation.
A Competitive Alternative to Traditional Linear and Rotary Position Sensors.
Vicki Speed for Inside Unmanned Systems: It would seem that robotic systems could provide an extra measure of safety, as well as a higher level of efficiency and machine-consistent quality. Yet, to date, the use of robotic systems on construction jobsites has been minimal. The building industry, however, is looking with fresh eyes at robots—including at least three new systems expected to be available this year—with a focus on near-term efficiencies that make investment in the systems make sense. Demolition Days Among the first fully-realized applications of robots in the construction environment are those used to support work that comes at the end of a structure’s life, namely demolition. In fact, remotely operated demolition robots have been around for more than a decade. Robotic Building Blocks The short answer is, ‘Yes.’ There are robotic systems in development around the world that can lay bricks, set tile or finish concrete floors. Bionic Builders? While not autonomous systems, robotic exoskeletons, those high-tech wearable suits seen in futuristic movies that help mere mortals defend Earth against other beings, could be a very real part of tomorrow’s jobsite and a possible precursor to autonomous robots in the field.
Jared Newman for PCWorld: At the 2015 Build conference, Microsoft tried to prove that HoloLens is more than just a neat gimmick. The company showed off several new demos for its “mixed reality” headset, which can map digital imagery onto the user’s physical surroundings. While previous demos had focused on fun ideas like a virtual Mars walk and a living room-sized version of Minecraft, the Build presentation emphasized real-world applications for businesses and education. For instance, Microsoft showed how architects could use HoloLens to interact with 3D models, laid out virtually in front of them on a table. They might also be able to examine aspects of a building site at full scale, with virtual beams and walls rendered before their eyes. Not all the presentations were so serious. Microsoft also showed off an actual robot whose controls appeared in the virtual space above the robot’s head. Users could then create a movement pattern for the robot by tapping on the ground. Another demo showed how users could create their own personal screens that followed them around in real space.
8tree's portable 3D scanner enables easy, fast surface inspection in the automotive and aerospace industries. A Manta digital camera from Allied Vision contributes to rapid and accurate measurement.
This is an example of high speed milling of a soft foam statue into a sculpture using Robotmaster and a KUKA Robot. The 7-axis robot allows accurate cutting from all angles.
From Fetch Robotics (the core team from Unbounded Robotics/all former employees of Willow Garage): The Fetch Robotics’ system is comprised of a mobile base (called Freight) and an advanced mobile manipulator (called Fetch). Fetch and Freight can also use a charging dock for autonomous continuous operations; allowing the robots to charge when needed and then continue on with their tasks. In addition, the system includes accompanying software to support the robots and integrate with the warehouse environment. Both robots are built upon the open source robot operating system, ROS. Fetch is an advanced mobile manipulator, including features such as: Telescoping spine with variable height from 1.09 to 1.491 meters Capacity to lift approximately 6 kgs. 3D RGB Depth Sensor Back-Drivable 7DOF Arm Modular Gripper Interface Head Expansion Mount Points Pan-Tilt Head Differential Drive ROS-Enabled Freight is a modular base, used separately or in conjunction with Fetch. Features include: Base Expansion Mount Points Payload support of approximately 68 kgs. 2D Laser Scanner Stereo Speaker Computer Access Panel Run-Stop ROS-Enabled ( full press release )
From The Independent: A drone start-up is going to counter industrial scale deforestation using industrial scale reforestation. BioCarbon Engineering wants to use drones for good, using the technology to seed up to one billion trees a year, all without having to set foot on the ground... ( cont'd ) ( projects website )
From François Maillet: In Montréal this time of year, the city literally stops and everyone starts talking, thinking and dreaming about a single thing: the Stanley Cup Playoffs. Even most of those who don’t normally care the least bit about hockey transform into die hard fans of theMontréal Canadiens, or the Habs like we also call them. Below is a Youtube clip of the epic goal celebration hack in action. In a single sentence, I trained a machine learning model to detect in real-time that a goal was just scored by the Habs based on the live audio feed of a game and to trigger a light show using Philips hues in my living room... ( full article )
From AGROBOT: AGB® manages a set of robotic manipulators able to locate and identify your strawberries, selecting them based on their size and degree of ripeness. This system analyzes your fruit one by one, and it is responsible for ordering cutting movements that guarantee accuracy, smoothness, and sensitivity in the strawberry treatment. The fruit, picked with the strictest hygiene conditions, is driven by our FlexConveyor System to the packaging area. Select the ripeness you would pick up. AGvision ® is an artificial vision system that identifies your fruit with maximum accuracy and consistency. Its advanced technology, implement in real time a protocol for morphological and color analysis which systematically return the ripeness of the fruit, discriminating exclusively those strawberries which meets the quality standards previously set by the farmer... ( more details )
SMAC's LAR Series linear-rotary actuators provide the ideal technology for improving capping quality while cost-effectively providing 100% real time on- and off-torquing validation.
From Rethink: Introducing Sawyer – the revolutionary new high performance collaborative robot designed to execute machine tending, circuit board testing and other precise tasks that are impractical to automate with industrial robots. Smaller Footprint, Longer Reach Smaller and lighter weight than Baxter, and with 7 DOF and a 1026 mm reach, Sawyer can maneuver into the tight spaces and varied alignments of work cells designed for humans. International Availability With a base price of $29,000, Sawyer will initially be available in North America, Europe, China and Japan, with limited availability beginning in mid-2015. Intera 3 Like Baxter, Sawyer is powered by the industry’s best and most intuitive software platform, Intera. It features the same iconic “face” screen (with a refreshed and even more expressive design) that helps it communicate with co-workers, along with the train-by-demonstration user interface that revolutionized how robots can be deployed on factory floors. Sawyer runs on the same version of Intera as Baxter, and will continue to evolve and improve with regular upgrades... (more details) (more about Intera software)
ABB leapt into the collaborative robotics space at the Hannover Messe trade show by launching their two-armed YuMi robot and simultaneously announcing their acquisition of German startup gomTec
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The Russell AMPro Sieve Station™ guarantees the quality of your additive manufacturing (AM) powder, and has been designed to provide optimum sieving efficiency, ensuring your powder is ready for use or reuse as and when you require it. With a simple one-button operation and mobile design, this automated check screener ensures your powder at every stage of the process is qualified for use quickly and safely. The flexibility of the Russell AMPro Sieve Station™ means you can use the system for numerous powder handling tasks - being a modular design ensures the machine can be configured to meet your exact requirements.