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#428040 Servosila Robotic Arms launched

Servosila, a robotics technology company, announced a launch of a new line of robotic arm manipulators specifically targeted at mobile robotics market.
“Servosila Robotic Arms are the first manipulators specifically designed for mobile robots,” – said the company’s spokesperson, – “it is very easy to retrofit any existing robotic chassis or a torso with a Servosila Robotic Arm”.

Servosila Robotic Arms are attachable payload modules for mobile service robots or other robotic platforms. Servosila Robotic Arms shall typically be mounted on a chassis or a torso of a mobile robot and be powered by an on-board power supply system of the host robotic platform.
The robotic arms can be used both outdoors and indoors. The arms are water-tight, dust-proof and function properly in the rain and in the snow. The arms are designed to withstand impacts, collisions with obstacles and, in general, the harsh treatment so common to mobile robotics applications.
The servo drives and external electrical connectors of the robotic arms are water-tight and dust-proof (IP68 rating). The entire arm can be occasionally submersed in water without any adverse effects on its performance. The robotic arms may be operated in cold or hot weather.
Mobile robots tend to bump into things and hit obstacles while on the move. The harsh nature of outdoor mobile robotics applications caused a profound effect on the design of Servosila Robotic Arms, especially on the internal structure of servo drives and their harmonic reduction gears.
There are no exposed cables on the outside of the robotic arms that could be torn off when a mobile robot moves through bushes or forests.
Numerous protection measures built into electronic servo controllers and mechanical parts of Servosila Robotic Arms ensure reliable operation on-board of outdoor mobile service robots.

Servosila Robotic Arms are lightweight by design. For a given lifting capability, Servosila Robotic Arms have a significantly lower weight than their industrial counterparts. The lower weight of a Servosila Robotic Arm enables a mobile robot equipped with the arm to operate longer on a single battery charge, keep its center of gravity lower for better balance, climb stairs easier or have a superior mobility.

When not in an active use, Servosila Robotic Arms can folded into a very compact form that doesn’t occupy much space on the top of a robotic chassis or on the side of a torso. This feature protects the robotic arm of a mobile robot in case of an unexpected collision with an obstacle or whenever a rough terrain is encountered by the mobile robotic platform. The compact folded form also comes handy during transportation.

By folding its robotic arm into the compact form, the robot frees up its working area for other payloads to operate in. This is useful in case the robot is equipped with additional payloads other than the robotic arm.
Photo Credits: Servosila Limited (Hong Kong)
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#428039 Naturipe Berry Growers Invests in ...

O: (813)498-4278
C: (813)335-3959

Adds to the growing list of strawberry industry investors

Tampa, FL (September 20, 2016) – Naturipe Berry Growers has joined the growing list of strawberry industry investors supporting Harvest CROO Robotics’ mission to answer the need for agricultural labor with technology. Naturipe is one of the largest strawberry growers in North America. With the support of Naturipe, now more than 20% of the U.S. strawberry industry has invested in Harvest CROO Robotics.

“The lack of availability of labor to harvest strawberries is one of the great challenges facing our industry,” said Rich Amirsehhi, President and CEO of Naturipe Berry Growers. “Harvest CROO Robotics’ technology to harvest berries has tremendous promise to solve this critical problem.”

Harvest CROO Robotics continues to develop and test the latest technology for agricultural robotics. The company will test their latest prototype during the Florida strawberry season, which begins in November. Improvements include harvest speed and the development of an autonomous mobile platform that will carry the robotic pickers through the field. After berries are picked, they will be transferred overhead to the platform level, where they will be inspected and packed into consumer units by delta robots. The development of the packing robots, next year, will mark another key milestone in Harvest CROO Robotics’ technological advances.

“The technology is prepared to make a major leap this coming season,” said Bob Pitzer, Co-founder and Chief Technology Officer of Harvest CROO. “We were at commercial speed, last March, at a rate of 8 seconds to pick a plant. Now by using embedded processors and a streamlined picking head design, we expect to easily cut that time in half.”

“Naturipe Berry Growers sees joining this collaborative effort as an important step in ensuring the sustainability of the U.S. strawberry industry and putting our growers in a position to be early adopters of the technology,” said Amirsehhi.

Harvest CROO is currently fundraising in preparation for the next round of prototypes. To learn more about Harvest CROO, including investment opportunities, contact info@harvestcroo.com.

About Harvest CROO:

Harvest CROO (Computerized Robotic Optimized Obtainer) began in 2012 on Gary Wishnatzki’s vision of creating a solution to the dwindling labor force in agriculture. With the expertise of Co-founder and Chief Technical Officer, Bob Pitzer, they began developing the first Harvest CROO machines. In Previous rounds, $1.8 million was raised through qualified investors. Many of these investors are members of the strawberry industry, including Sweet Life Farms, Sam Astin III, California Giant, Inc., Main Street Produce, Inc., Sweet Darling Sales, Inc. Innovative Produce Inc., DG Berry, Inc., Central West, and Naturipe Berry Growers. In Round C, Harvest CROO is seeking to raise $3 million to build the next version, the Alpha unit, which will be the predecessor to a production model. To learn more about Harvest CROO, including current career opportunities for experienced engineers, contact info@harvestcroo.com.

About Naturipe Berry Growers:

Naturipe Berry Growers (NBG) is a co-op of growers that was founded in 1917 as the Central California Berry Growers Association. NBG markets their fruit through Naturipe Farms LLC, which is a grower-owned producer and international marketer of healthy, best tasting, premium berries. With production primarily from multi generation family farms, located in prime berry growing regions throughout North and South America. The diverse grower base ensures year-round availability of “locally grown” and “in-season global” conventional and organic berries. Naturipe Farms, formed in 2000, is a partnership between MBG Marketing, Hortifrut SA, Naturipe Berry Growers and Munger Farms. With sales and customer service offices located strategically throughout the USA – (HQ) Salinas CA., Grand Junction MI., Estero FL., Boston MA., Wenatchee WA., Atlanta GA.
For more information visit: www.naturipefarms.com or https://www.facebook.com/Naturipe
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#428030 RPA and Artificial Intelligence Summit

RPA and Artificial Intelligence Summit unites the needs of the 250,000-strong SSON and PEX Network communities to bring together those furthest along the maturity curve in automated and intelligent service innovation, like Vodafone, Barclays, ENGIE and even NHS Wales Shared Services, with those who are just starting out, like SAB Miller, LV and National Grid, for a frank and open discussion surrounding the best ways to compete in the digital business era.
Combining scores of practical end-user case studies, multiple conference streams surrounding human workforce augmentation across the front and back-offices and over 15 hours of interactive sessions and networking, this is your one-stop shop for ensuring you build the value-adding, scalable, intelligent processes that meet the business needs of the future.
Event Website: http://www.rpaandaisummit.com/
Discount Code for Robotic Magazine: VIP_ROBOTICSMAG
(Allows 20% off all standard practitioner passes)

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#428010 Robots galore as Asia’s biggest ...

A Japanese inventor is hoping a robot that still needs humans will win over Asia's largest tech fair, offering a counterpoint to major technology firms pushing the boundaries of artificial intelligence (AI). Continue reading

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#427791 Robot Operating System (ROS) continues ...

Today by far the most commonly used robotics software is ROS, which stands for Robot Operating System. This is an open source software, and the most number of developers and robotics users are involved with this program with an ever increasing rate. It contains set of libraries, algorithms, developer tools and drivers for developing robotics projects. The first release of ROS was in 2010, and as of end of 2016, ROS has reached its 10th official release, which is called “ROS Kinetic Kame”. There are translations to 11 languages other than English, which are: German, Spanish, French, Italian, Japanese, Turkish, Korean, Portuguese, Russian, Thai and Chinese. It currently has 2000+ software libraries, which keeps increasing every year.
Many robots use ROS now, including but not limited to hobby robots, drones, educational or advanced humanoid robots, domestic robots including cleaning robot vacuums, cooking robots or telepresence robots and more, robot arms, farming robots, industrial robots, even Robonaut of NASA in space or the four legged military robots in development. A list of robots which use ROS can be found here: http://wiki.ros.org/Robots.
We were checking the Alexa.Com ranking of ROS since few years, in order to track the increase in usage, and we believe it is time to share it now, as we have enough data. The numbers on the left are dates we looked and the numbers on the right indicate the ranking of Ros.Org website from top, among all websites in the world:
May 2011: 189,000 th in the world, from top, among all other websites
April 2012: 187,900 th
January 2014: 107,821
May 2014: 112,236
September 2014: 83,875 (7219 in Canada, the country where it is most accessed)
January 2015: 83,556 (4,258 in Canada)
February 2015 : 75,680 (33185 in USA)
April 2015: 59,200 (31,334 in USA)
August 2015: 65,754 (50,132 in USA)
September 2016: 30,201 (China 5073)
This chart shows the increasing rank of ros.org among other websites in the world, which is a good indicator of its growth. The numbers on the left represent the site’s ranking from the top, among all other sites in the world. Chart Copyright: Robokingdom LLC.

As can be seen here, in May 2011, when we first checked this ranking, ROS.org was at 189,000 th place in the world from the top among all other websites in terms of unique visitors that visit the site, and it almost continuously increased its ranking. As of September 2016, it is now the 30,201st most reached website in the world, with mostly being accessed in China (5073 from top in China). Let’s not forget that even if it’s position remained the same, let alone going up, it would still mean the traffic of the site was going up, as every year there are more websites in the world which means the same ranking means better place and more traffic. The ranking of 30,201 means ROS.org is a very high traffic website in the world right now, being accessed probably by at least hundreds of thousands of people every day, with no indication of slowing down its rise yet.
The most important result of all of this, is that the use of robots is increasing, both in terms of number and type (when you look at the type of robots that use ros, as it also increases in variety all the time).
From Alexa, we were also able to see, from publicly available information, that the percentage of reach among countries for ROS.org is as follows:
China 47.5%
USA 11.5%
Japan 8.7%
South Korea 3.5%
Germany 3.4%
This also shows us that in China, a lot of things are going on for robotics development right now, as it gets most of its traffic from there with 47.5%. USA then follows with 11.5% and Japan is third with 8.7%.
With ROS, any type of sensors can be controlled, including 1d/2d range sensors, 3d range finders and cameras, audio/speech recognition sensors, cameras, environmental sensors, force/torque/touch sensors, motion capture, pose estimation, power supply, RFID, and sensor interfaces.
In ros.org site, in addition to all packages, there are also extensive tutorials and a discussion board that one can ask questions and share knowledge.
ROS also has an industrial section, the version of software modified for industrial applications. It is called ROS industrial, and can be reached at: http://rosindustrial.org/. Although we see domestic robots with new abilities or advanced research projects that aim to develop capabilities of robotics every year, according to the results of a study that is shown on http://rosindustrial.org/the-challenge/ website, the abilities of industrial robots are not progressing and the abilities are restricted to welding, material handling, dispensing, coating (although we know that they do additional tasks such as packaging, inspection, labeling etc…). ROS Industrial aims to solve this challenge by providing a common skeleton to all developers, with its extensive and stronger software architecture, than other individual robotics programs.
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