$99 MinnowBoard MAX With Intel Bay Trail-I SoC
From MinnowBoard:
MinnowBoard MAX is another open hardware embedded board we've developed to serve the needs of both the professional developer and hacker/maker community. Based on Intel's new Atom Bay Trail SoC platform, it offers a new generation of performance and features, but remains petite in size and cost.
Our entry-level SKU will be $99 MSRP, with additional board configuration options to be made available. All models will include 64-bit processors, USB 3.0, and Intel HD graphics with open source accelerated drivers for Linux, to just name a few of the new features!
$99 MSRP: E3815 (single-core, 1.46 GHz), 1GB
$129 MSRP: E3825 (dual-core, 1.33 GHz), 2GB
HDMI (micro HDMI connector)
1 – Micro SD SDIO
1 – SATA2 3Gb/sec
1 – USB 3.0 (host)
1 – USB 2.0 (host)
1 – Serial debug via FTDI cable (sold separately)
10/100/1000 Ethernet
The low-speed expansion port is a 2×13 (26-pin) male 0.1″ pin header.
SPI, I2C, I2S Audio, 2x UARTs (TTL-level), 8x GPIO (2x supporting PWM), +5V, GND
The high-speed expansion port is a 60-pin, high-density connector.
1x PCIe Gen 2.0 Lane, 1x SATA2 3Gb/sec, 1x USB 2.0 host, I2C, GPIO, JTAG, +5V, GND
AUVSI 2014 Special News Report
This is our special news page where you can read about and post news and announcements about products and services exhibited at AUVSI 2014 Unmanned Systems.
Evolving Soft Robots With Multiple Materials
From Evolving AI Lab:
Here we evolve the bodies of soft robots made of multiple materials (muscle, bone, & support tissue) to move quickly. Evolution produces a diverse array of fun, wacky, interesting, but ultimately functional soft robots. Enjoy! (full paper)
Drones in the Water
Essentially, were creating drones for water that produce mapping capabilities; its somewhat similar to air drones (i.e.: fixed wing UAVs) that map from the sky, but were mapping from the water.
International Paper Saves Labor Costs, Improves Reliability, Quality and Work Flow
Downtime near zero vs. extended downtime of former gantry system.
Beta Testing Dynamixel XL-320 Servos
Dynamixel XL-320 is a digital servo (in this case, featuring a 8-bit STM8 controller).
Flexible Muscle-Based Locomotion for Bipedal Creatures
From John Goatstream's Vimeo Videos:
We present a muscle-based control method for simulated bipeds in which both the muscle routing and control parameters are optimized. This yields a generic locomotion control method that supports a variety of bipedal creatures. All actuation forces are the result of 3D simulated muscles, and a model of neural delay is included for all feedback paths. As a result, our controllers generate torque patterns that incorporate biomechanical constraints. The synthesized controllers find different gaits based on target speed, can cope with uneven terrain and external perturbations, and can steer to target directions... (full paper) (follow up videos)
DARPA Begins Phase One of VTOL X-Plane Program
From DARPA:
DARPA tasks four companies with designing new aircraft to revolutionize vertical takeoff and landing (VTOL) flight capabilities.
For generations, new designs for vertical takeoff and landing aircraft have remained unable to increase top speed without sacrificing range, efficiency or the ability to do useful work. DARPA’s VTOL Experimental Plane (VTOL X-Plane) program seeks to overcome these challenges through innovative cross-pollination between the fixed-wing and rotary-wing worlds, to enable radical improvements in vertical and cruise flight capabilities. In an important step toward that goal, DARPA has awarded prime contracts for Phase 1 of VTOL X-Plane to four companies:
Aurora Flight Sciences Corporation
The Boeing Company
Karem Aircraft, Inc.
Sikorsky Aircraft Corporation
“We were looking for different approaches to solve this extremely challenging problem, and we got them,” said Ashish Bagai, DARPA program manager. “The proposals we’ve chosen aim to create new technologies and incorporate existing ones that VTOL designs so far have not succeeded in developing. We’re eager to see if the performers can integrate their ideas into designs that could potentially achieve the performance goals we’ve set.”
VTOL X-Plane seeks to develop a technology demonstrator that could:
Achieve a top sustained flight speed of 300 kt-400 kt
Raise aircraft hover efficiency from 60 percent to at least 75 percent
Present a more favorable cruise lift-to-drag ratio of at least 10, up from 5-6
Carry a useful load of at least 40 percent of the vehicle’s projected gross weight of 10,000-12,000 pounds
All four winning companies proposed designs for unmanned vehicles, but the technologies that VTOL X-Plane intends to develop could apply equally well to manned aircraft. Another common element among the designs is that they all incorporate multipurpose technologies to varying degrees. Multipurpose technologies decrease the number of systems in a vehicle and its overall mechanical complexity. Multipurpose technologies also use space and weight more efficiently to improve performance and enable new and improved capabilities.
The next major milestone for VTOL X-Plane is scheduled for late 2015, when the four performers are required to submit preliminary designs. At that point, DARPA plans to review the designs to decide which to build as a technology demonstrator, with the goal of performing flight tests in the 2017-18 timeframe.
Soft Robotic Fish
MIT News:
Soft robots — which don't just have soft exteriors but are also powered by fluid flowing through flexible channels — have become a sufficiently popular research topic that they now have their own journal, Soft Robotics. In the first issue of that journal, out this month, MIT researchers report the first self-contained autonomous soft robot, a "fish" that can execute an escape maneuver, convulsing its body to change direction, in just 100 milliseconds, or as quickly as a real fish can.
What to Look for When Specifying a Robot Cable
In order for a cable to withstand repeated torsional movement, its necessary for the cable to have a special design. Its important that the conductors, shield construction and jacket materials of the cable compensate for major changes in bending load and diameter.
Robotic Welding Series: Robotic Flexibility Can Open Up Opportunities For Job Shops
This is the final installment of a 4-part series by KC Robotics about the automated arc welding industry.
SimpleCV
SimpleCV library for Python:
WHAT IS IT?
SimpleCV is an open source framework for building computer vision applications. With it, you get access to several high-powered computer vision libraries such as OpenCV – without having to first learn about bit depths, file formats, color spaces, buffer management, eigenvalues, or matrix versus bitmap storage. This is computer vision made easy... (cont'd)
Spherical Parallel Manipulators
The Agile Eye by Gosselin, Université Laval:
The Agile Eye is a 3-DOF 3-RRR spherical parallel manipulator developed for the rapid orientation of a camera. Its mechanical architecture leads to high velocities and accelerations.
The workspace of the Agile Eye is superior to that of the human eye. The miniature camera attached to the end-effector can be pointed in a cone of vision of 140° with ±30° in torsion. Moreover, due to its low inertia and its inherent stiffness, the mechanism can achieve angular velocities above 1000 °/sec and angular accelerations greater than 20000 °/sec2 which is beyond the capabilities of the human eye... (cont'd)
Hip Joint of the Bipedal Autonomous Robot LISA by Institute of Automatic Control:
The hip joint consists of three active rotational degrees of freedom whose rotational axes intersect in one point. In contrast to most hip joints of other bipedal robots LISA's hip joint are built as spherical parallel manipulators. A comparable cardanian joint would lead to a heavier weight and due to the functionality the masses of some engines would have to be accelerated by other engines during motion.
Due to the parallel manipulator all engines rest to the trunk. Only a coordinated interaction of all engines leads to a controlled motion of the thigh. This enables a design with a thigh of minimal and a trunk of maximal weight which is an advantageous weight distribution for bipedal walking. Because of the parallel manipulator structure forces applied on the thigh are distributed among all three engines and therefore the power of the engines adds up... (cont'd)
Robot Launch 2014 Startup Competition
From Robot Launch:
Robot Launch 2014 is open to any robot startup pre/partial Series A. We're looking for startups with prototypes and business models. But we're also interested in any great robot startup idea.
What is a robot startup? Well, it could be a robot or an autonomous mobile manipulator. OR it could be an appliance or connected device. OR it could be a sensor or actuator or AI that makes robots better.
Prizes include money, mentoring, meetings and free legal and startup services from our supporting organizations, Silicon Valley Robotics, Indiegogo, WilmerHale, Grishin Robotics, Bosch Venture Capital, Lemnos Labs, Luxr, Robolution Capital, Lux Capital, OATV, Khosla Ventures, a showcase at Solid and media coverage by Robohub.
Round One entries open Feb 20
Round One entries close March 30 midnight (PST)
Top 30 announced April 10
Finalists announced April 30
Final Showcase (tbc) May 20
You can enter here.
Why I Automate: Vickers Engineering
Robotics allows us to draw a different level of employee. Employees that arent just looking for a paycheck, but looking for a career.
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Industrial Robotics - Featured Product
High Performance Servo Drives for localized and distributed control applications from Servo2Go.com
Engineered to drive brushless and brush servomotors in torque, velocity or position mode, Servo2Go.com offers a broad selection of servo drives in a wide range of input voltages and output power levels.
Robotics and Automation - Featured Company
FAULHABER MICROMO
Since 1961, FAULHABER MICROMO has partnered with OEMs to deliver high precision, high performance, custom micro motion system solutions to markets such as medical, robotics and automation in North America. FAULHABER MICROMO's tradition of innovation started decades ago in Germany. The groundbreaking invention of the FAULHABER coreless winding started it all for a market that produces millions of motors today.
How can the FAULHABER MICROMO team help you deliver your next innovation to market first?
Learn more about MICROMO's solutions for the most demanding applications, our diverse motion products and technologies, online ordering, Engineering and R&D teams, Clean Room Assembly, Machining Center and other services at our Clearwater, FL facility at https://www.faulhaber.com.
