Whether there is a necessity to pull someone from a collapsed building, find a survivor trapped in a pile of debris, locate a lost child, or save victims by putting out a fire, robots will be an intrinsic member of the first responders in the future.
From Thanos 6DOF Motion Simulator Electronics blog : Lately we see more and better DIY 6DOF platforms being build. The community is growing strong and the interest in 6DOF systems is bigger than ever. Its the only way to provide full immersion for motion simulation at the moment, that combined with other new technologies like the oculus rift or fully enclosed detailed cockpits can really make the difference. The times that desktop racers or flight enthusiasts were enjoying their simulation games or training for the real thing is past without return. Even older motion systems that provide 2DOF (seat movers) or 3DOF platforms are now the past, offering too little to the immersion of gaming... ( more projects )
Imagine a world, where Tiny robots can go inside your body, see what's wrong it with and target therapies only for that area. Here are 3 Tiny Robots to make you believe your imagination could come true.
By tech2 News Staff: Earlier this year, Google had released an interesting video of Spot, a 160-pound dog robot navigating an office and then heading outside on its own. It is a smaller version of the Big Dog that first popped its head when Google acquired Boston Company. As the new changes come into effect, Boston Company is now Alphabet-owned and not a part of Google. It will continue to build robots, and falls under Google X Projects (for now), a subsidiary of Alphabet. The other subsidiaries include Google, Nest Labs, Google X, Calico, Google Ventures, Google Capital and Google Life Sciences. A new report says that the “company will create a separate division for robotics within the renamed umbrella entity Alphabet”, citing a person related to the matter. Google has acquired roughly eight companies related to robotics including military grade robotics company Boston Dynamics. It will likely allow Boston Dynamics to operate with some independence. Cont'd...
By Steve Brachmann for IPWatchDog: More and more, the agricultural world is looking towards the mechanization of labor processes through robotics as a way of potentially increasing their productivity. Robotics was identified as a sector of investment growth in agricultural tech by an April 2014 white paper on agriculture technologies published by the entrepreneurship and education non-profit Kauffman Foundation. Robotics is a regular focus of ours here on IPWatchdog, most recently visited in our coverage of the incredible advancements in walking and jumping robotics pioneered by Boston Dynamics, a Google Inc. (NASDAQ:GOOG) subsidiary. With American farmers already heavily involved in the regulatory conversation involving the commercial use of unmanned aerial vehicles (UAVs), or drones, we thought that it would be interesting to delve into the world of farming robotics and see the recent advances in that particular field. It’s important to understand first that the robotics being developed for commercial use on farms won’t be stand-alone humanoid units ranging through fields to pick crops. Any piece of hardware implementing an algorithm which automates some of the manual work of farming falls under this heading. One good example of this is the LettuceBot, a precision thinning technology which works to visually characterize plants in a lettuce row, identify which plants to keep and eliminating unwanted plants to optimize yield. The unit doesn’t move by itself but is guided along by a tractor instead. The technology has been developed by Blue River Technology of Sunnyvale, CA, a company which has attracted $13 million in investment between 2011 and 2014 to commercialize this product. The LettuceBot’s creators hope toprovide the technology as a third-party service to farm owners before manufacturing the unit for commercial sale. Cont'd...
Who wouldn't want to be the next Ironman wearing an indestructible suit? Fear not, help is on the way from a few cutting edge companies. Here are 5 of them.
Sixth day of euRathlon 2015 - euRathlon 2015 Grand Challenge - Part 2 25 September 2015, Piombino, Italy. View euRathlon 2015 Grand Challenge - Part 1. Day Five View euRathlon 2015 Challenge: Two-domain Scenarios. Day Four. View euRathlon 2015 Challenge: Two Domain Trials - Day Th ree View euRathlon 2015 Challenge: Single Domain Trials - Day Two View euRathlon 2015 Challenge: Single-domain trials - Day One
By Corinne Iozzio for Scientific American: Hong Kong–based WowWee's success stems from bringing university research projects to life that might otherwise languish in the prototype stage. A licensing agreement with the Flow Control and Coordinated Robotics Labs at the University of California, San Diego, for example, provides WowWee with access to patents and the labs with a healthy cash infusion. The collaboration has already netted a series of toy robots that balance like Segways. More recently, the avionics lab at Concordia University in Montreal began working with the company to perfect flight algorithms for a four-rotor drone. Next, chief technology officer Davin Sufer says he has his eye on the Georgia Institute of Technology and its work with swarming behaviors, which would allow a group of robots to function in tandem. In the case of Switchbot, WowWee adapted a locomotion system developed in part by former U.C. San Diego student Nick Morozovsky. The robot moves on tank-tread legs either horizontally to navigate uneven terrain or on end to stand and scoot fully upright. Morozovsky built his prototype with off-the-shelf parts, including a set of $50 motors. The motors were a compromise; each one had the size and torque he wanted but not the speed. Over the past few years he has worked with WowWee to customize a motor with the exact parameters needed and to cut the final cost of the part down to single digits. That back and forth yields low-cost, mass-producible parts, which means university-level robotics could become available to everyday people. “One of the reasons I went into mechanical engineering was so I could create real things that have a direct impact,” Morozovsky says. “I didn't expect that to necessarily happen in the process of grad school.” Cont'd...
With an еуе оn 2020, thе gоvеrnmеnt'ѕ revised economic strategy adopted in Junе саllѕ fоr the аррliсаtiоn оf rоbоt tесhnоlоgiеѕ аѕ travel guides аt Narita International Airроrt in Chibа Prеfесturе, аnd Tоkуо'ѕ Hаnеdа airport.
From 7Bot's Kickstarter campaign: In 2014, two of us co-founded project uArm with other two makers. There we received a lot of feedback from our Angel backers: More axis for more powerful applications, and more controlling dimensions (force control, speed control and flexible-joint). More rugged material rather than Acrylic, muscular servos hardly to be burned out. More intelligent API. Better inverse kinematics and path planning algorithms to make the movement more precise and smooth. More accessories and various of end-effectors. Our custom servos with precise position feedback allow you to quickly set it up and operate in teaching mode without any codes. In this mode, you can simply drag each joint of the robot to a serious of desired way points. The movements will be recorded, and could be replayed in an optimized path. A multi-platform supported 3D visualization application will be provided for you to manipulate the 7Bot Arm intuitively. With our 3D visualization application, you can easily set and read the position of each joint separately with real-time graphic interface. If you have two 7Bot Arms, you can build this amazing Humanoid robot -7Bot Arm Dual: Estimated shipping date is January 2015... (7Bot's Kickstarter campaign)
From uBreakiFix's Youtube channel:
Part 3 includes more bionic robots like the smartbird and a handler modeled after an elephant trunk.
Focuses on Unmanned Automotive Technologies at RoboBusiness
BY HANNAH ROSE MENDOZA for 3DPrint.com: Soft robotics is a relatively new field of research that aims to create flexible robots that are more easily adaptable to human interaction. Often, the forms of these creations and the mechanics of their movement are inspired by a close study of nature in an effort to ‘go organic’ with machines. 3D printing with flexible filament is one way in which this integration of robot and movement is taking on a flexible aspect. For this particular installation, titled Exo-biote, the National Institute for Research in Computer and Control and the Department of Science and Visual Culture at the Imaginarium worked together, with support from Neuflize Bank, to create a robot organism that embodied the formal typologies and demonstrated the possibilities for movements in soft robots. After all, some of nature’s most amazing machines have nearly entirely soft bodies – think of the octopus, for example, able to lift, carry, walk, swim, shape change, camouflage itself, and fit through a tube no bigger than a quarter! Cont'd...
Richard Waters for FT.com: Toyota has hired the top robotics expert from the US defence department’s research arm and promised $50m in extra funding for artificial intelligence research, as it steps up the race between the world’s biggest carmakers to pioneer new forms of computer-assisted driving. However, the Japanese carmaker maintained on Friday that completely driverless cars were still years away, and that AI and robotics would have a more complex effect on the relationship between humans and their vehicles than Google’s experiments with “robot cars” suggest. Gill Pratt, who stepped down recently from the Defense Advanced Research Projects Agency (Darpa), will move to Silicon Valley to head Toyota’s robotics efforts, the company said. Darpa played a key role in stimulating interest in driverless cars with a competition in 2005 — the leader of the winning entry, Sebastian Thrun, who was then a professor at Stanford University, went on to found Google’s driverless car programme. Cont'd...
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With the SLS, SOS, and STO functionalities, the SCHUNK EGN gripping system certified in accordance with DIN EN ISO 13849 enables safe human/machine collaboration. If the production process is interrupted by an emergency shut-off, the SCHUNK EGN goes into either a safely limited speed mode or a safe stop mode depending on the activated protection zone. In contrast to other solutions available on the market, the SCHUNK safety gripping system is continuously powered even in the safe operating stop so that the gripped parts are reliably held even without mechanical maintenance of gripping force. As soon as the protection zone is released, the gripper immediately switches back to the regular operating mode without the system having to be restarted.