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Drone or Rover – New System Lets You Decide

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Rocketship Systems Inc. releases BoxBotix, a new 3D printable robotics system that supports multiple configurations, including copter, plane and rover.

BoxBotix is an open source, modular robotics framework that is designed to be easy to hack, make, use and sustain. BoxBotix is the creation of Rocketship Systems Inc., a small robotics company in Fort Collins, CO.

“We run a small shop that machines robot parts, and we get a lot of calls from customers who have a new sensor or technology they want to test, but no robot to put them on,” says Coby Leuschke, President of Rocketship Systems. So for the last two years they have been designing and testing a new system to meet these needs. BoxBotix is the result.

Leuschke continues, “We have seen many different drone and robot systems emerge in the last year that try to meet the demands of a growing industry, but most are mass produced and difficult to customize. We wanted to create a system that allows people to move the design, build, maintenance cycle closer to the point of use, so they can control their own robot destiny. ” In order to meet these requirements BoxBotix has been designed to be built using desktop 3D printing and readily available parts and tools. Garrett Day, Rocketship Systems Lead Engineer adds, “We are releasing all of our design files under an open source license, so we can provide people the opportunity to modify the design to meet their specific needs, and help improve the overall design.”

The initial release of BoxBotix will feature robots, called BBots, which include the BBCopter, BBPlane and BBRover. Rocketship Systems will provide kits in two versions: A Bring Your Own Printer Kit, where they will provide everything needed to build a frame, excluding the printed parts, and they will also provide a Full Frame Kit that will include everything required to build the frame.

“BoxBotix is not about Rocketship Systems building a million robots. BoxBotix is about enabling a community of a million people to build their own robots,“ Leuschke concludes.

In order to fund the creation and growth of a strong open source community BoxBotix has taken to Kickstarter. To follow their project, be sure to find them on Twitter , Facebook or YouTube, and spread the word to your social media networks. Consider donating as little as $1 to help their project come to life. If you decide to donate more, you can be among the first in the world to build a BBot.

A Cute Robot That Dares to Fight: Self-balancing Robot “Gemini” Launches Kickstarter Campaign

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Gemini, a waterdrop-shaped, two-wheel, self-balancing robot with two distinct personalities, will accommodate consumers’ leisure needs more than ever before. The Gemini Kickstarter campaign launches on November 10th, 2015.

After the wild success of Makeblock, an educational robot kit series targeting makers and educators, the Shenzhen-based hardware startup Shenzhen Maker Works Technology Co., Ltd expanded its reach and designed the user-friendly smart robot Gemini, which requires no programming knowledge or assembling efforts on users’ behalf.

While standing, Gemini moves like a cute puppy, spreading joy via iridescent LED lights and flashing emoticons, and dancing to music at your command. When Gemini is equipped with a turret and crouches down, however, the robot transforms into a fearless warrior who is ready to combat.

The key to Gemini’s accurate signaling and angular actions lies in the self-balancing technology. With one MPU-6050 3-Axis Accelerometer and Gyro working with STM32 MCU, through real-time analysis of related state parameters, Gemini can minimize the displacement both vertically and horizontally, in a timely manner, and control the angular offset with the utmost accuracy, remaining level with ease.

 

Additional Features:

 

Stable Movement

The waterdrop-shaped, two-wheel, streamlined structure, empowered by the dual encoder motors with high resolution, ensures Gemini’s extraordinary agility and mobility.

 

Innovative Control Systems

Based on the free iPad app, the robot can perform complex motions and tasks with tap-and-swipe finger movements, tilting techniques (gravity control), and voice control.

 

Fluent Intercommunication

Together, the 2.4G and Wi-Fi modules offer seamless and timely communication, instantly transmitting and updating all parties’ data throughout the game.

 

High-Sensitivity LED Blue Light

Inheriting the signature Makeblock blue LED lighting, Gemini improves the transmission efficiency and undermines unstable performance from the reflection of the sun, which is often encountered by IR light-enabled devices. Overall, Gemini offers users an enhanced interactive experience.

 

Starting at USD $99.00, the team provides different bundles for buyers. “Our mission is to make an ‘Apple product’ for consumer robot kits,” says the founder and robot hobbyist Jasen Wang.

 

See Kickstarter page: https://www.kickstarter.com/projects/1818505613/gemini-entertainment-and-educational-robot-for-kid

PHIRO: A LEGO® compatible robot for all kids. Learn to Code in 5 ways.

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Cambridge, MA, November 2nd, 2015- Robotics Education Startup Robotix USA, LLC, lead by two sisters, Deepti Suchindran and Aditi Prasad, with a mission to inspire the innovators of tomorrow, announced today it is raising funds via a crowdfunding campaign on Kickstarter to develop coding toys for kids, that makes learning to code fun and easy. The company set out to raise funds on Kickstarter to produce the first batch of their innovative robots, Phiro, that is going to change the educational robotics market. (Phiro on Kickstarter is selected as a Kickstarter ‘Staff Pick’. Link to Kickstarter http://kck.st/1SjqW7H)

Robotix has many years of experience teaching coding and robotics to several K-12 schools. They have evaluated educational robots from all over the world and found gaps. The robots are usually expensive, use proprietary programming languages and are not so fun for kids. Robotix has created Phiro, an affordable robotics & coding toy that helps kids learn to code and develop computational thinking skills. Kids can learn to code in 5 ways, either without a computer or with open-source programming languages that millions of kids use and love. Phiro is a LEGO® compatible robotics toy that kids can play, code & innovate with to develop 21st century skills.

“In today’s technology-driven and rapidly changing world, being computational thinkers to solve problems is an essential skill for children to learn. Computational thinking is a critical 21st century skill that is relevant to all fields from economics, sports, medicine, law, and engineering. Research shows that one of the most effective ways for kids, as young as 4, to learn computational thinking is through coding and robotics”- said Deepti Suchindran, PhD, CEO, Robotix USA.

“With Phiro children get to see the practical application of programmes they have created instantaneously”- said Dr. Wolfgang Slany, Professor of Computer Science & Head of the Institute for Software Technology, Graz University of Technology, Austria.

With Phiro, kids can play music, make a movie, create games, flash lights, detect faces and much more. Coding and playing with Phiro empowers and inspires kids to be creators and innovators of tomorrow.  Robotix has created two robots: Phiro Unplugged & Phiro Pro. Both robots come fully assembled and are ready to learn from & play with, right out of the box.

Phiro Unplugged for kids ages 4 to 8. Kids can learn to code & program the robot without a computer! Phiro Unplugged is a great robotic tool to learn Sequential programming and Binary Coding.

Phiro Pro for young people ages 9 to 18. Kids can program Phiro Pro with a computer, tablet or smartphone connected wirelessly via Bluetooth to Scratch 2.0 (MIT, USA), Snap4Arduino (UC Berkeley/Citilab, Spain), Pocket Code mobile apps (Graz University of Technology, Austria). Learners can connect to a community on-line enabling collaboration, sharing & learning. Phiro Pro also has all the capabilities of Phiro Unplugged.

“In one package Phiro does what a whole lot of other systems do individually so it really helps to bring all those together … and make it more cost effective for the classroom”- said Daniel Riles, Technology Integration Specialist, Brookwood School, Boston, USA.

Robotix has launched a Kickstarter campaign to raise funds to manufacture the robots for the global market, which will be ready for Kickstarter supporters in the 2nd quarter of 2016 with special Kickstarter launch prices at $99 (Phiro Unplugged) and $149 (Phiro Pro) during the campaign. Crowdfunding and detailed features of Phiro Unplugged and Phiro Pro can be found here:  www.robotixedu.com and on our Twitter at twitter.com/RobotixLS and Facebook at facebook.com/robotixedu

Personal Intelligent Robots with Android Phone and LEGO

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ELFi Robotics startup by Google Science Fair finalist Mark Drobnych is now on Kickstarter

 

28 of October 2015 – New startup ELFi Robotics based in Ukraine announced today that it is raising funds via  rewards crowdfunding campaign on Kickstarter to finish the development of their revolutionary Android apps for robotic applications. The company set out to raise £33,000 on KickStarter to finish development of innovative software platform for DIY smart robots built with wide-accessible construction sets of Lego, Tetrix, Arduino and Raspberry Pi .

ELFi Robotics offers a Minimal Viable Product – Robotic Platform for learning and building intelligent robots. This platform comprises of: Brain App for Android (iOS soon), Robots, Platform Tools, RoboMarket, Training program.

ELFi Brain App is a robotic brain which can be installed on Android device and connected to LEGO EV3, Arduino or Raspberry Pi controllers. So any LEGO Robot can receive its missed brain from now on!

ELFi Educational Program covers both hardware and software aspects required to understand basics of robotics. Both aspects start from very simple patterns and don’t assume any previous experience in robotics. ELFi Robotics WorkBook and Building Instructions Book by Mark allow a quick start for any beginner.

The powerful concept of RoboMarket and “Robotics for programmers”  book allows third-party developers to write applications for ELFi Robots and even sell them.

According to Mark Drobnych, 15 years old CEO of ELFi robotics: “Our main target is to provide robots to everybody. Nowadays, real robots are really expensive and rare. I think it’s time to enter  the new era of technologies. Build your own robot, with own design, and own set of functions! Our Brain app and platform are flexible enough to support new robotics ventures.”

The story begun two years ago when 13-years old Mark Drobnych worked on his personal scientific research: School Presentation of  Microscope. The results of this work were presented at the Final of Google Science Fair 2014 in Mountain View, California. As functions of microscope started being more complex Mark had an idea to create an universal Robotic Brain on top of Android operating system. This Brain had to create human-friendly spoken interface not only for his Presentation of Microscope but for ANY ROBOTIC BODY built with Lego, Arduino, Tetrix or Raspberry Pi parts. It was ELFi birth.

To enforce his progress on software part Mark involved his dad, Oleksiy Drobnych, PhD, into the project as an experienced software engineer.

In the UK Mark is represented by Androcommerce Ltd., registered in England family firm focusing on mobile e-commerce offering.

Dash Robotics Unveils Kamigami, its First Line of Animal-Inspired Robots

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HAYWARD, Calif. (October 20, 2015) — Dash Robotics today unveiled the first generation of bio-inspired Kamigami robots, the first advanced robot toy available for less than $70. Kamigami are fast, lightweight, build-it-yourself robotic toys that snap together in an origami-like fashion. Kamigami fit in the palm of your hand, run very fast on six legs, and are controlled by a programmable mobile app (for iOS initially, Android coming in 2016). Kamigami will be available initially through Kickstarter, for $49 – a 30% discount off the MSRP of $69. Kamigami will be available directly from Dash Robotics and at Amazon.com in 2016.

Dash created Kamigami robots to bring programmable robotics to the mass market. Its low price point makes it the most accessible robotic toy ever. The DIY nature of Kamigami along with the simplicity of drag-and drop programming for changing and evolving each individual robot is intended to inspire kids everywhere to engage with, and learn from, advanced technology in a way that is easy, affordable, social and fun.

Kids can use easy drag-and-drop programming within the mobile app to modify the behavior of each individual robot, and can toggle between individual and team play modes. A simple yet sophisticated set of electronics included with each robot are easy for anyone to install. These include a small circuit board, battery, a light sensor, IR sensor, gyroscope and accelerometer, which combine to bring Kamigami to life. With the IR sensors, Kamigami robots can tag one another remotely in team play modes, such as tag or battle games. IR signals transmitted from one robot to another can cause different player-designed effects on the tagged robot.

Kamigami are evolved from the initial Dash Robot beta, released last year to test design and get early customer feedback. The core “skeleton” or chassis of Kamigami looks much like the original Dash beta, whose rapid movements mimic the movements of animals, particularly cockroaches and lizards. The founders of Dash studied biomimicry and robotics at the University of California, Berkeley. In a new twist, Kamigami feature interchangeable shells that snap over the chassis, turning the robot into a colorful creature from out of this world.

Nick Kohut, co-founder and chief executive officer of Dash Robotics, said, “We designed Kamigami so kids could discover a fun new way of learning. Our mantra is ‘build, program and evolve’ and Kamigami helps kids do just that. It’s the first DIY programmable robot that is affordable for everyone.”

Key Features of Kamigami Robots:

■ Do-It-Yourself: Kamigami can be assembled without tools in under an hour. No glue or soldering required.

■ High-speed: High speed and robust locomotion inspired by some of nature’s fastest runners.

■ iOS compatible: Free app allows you to control and program the robot. Android app coming soon.

■ Rechargeable: Built-in high performance rechargeable battery. Recharges in about 30 minutes. 45-60 minutes of playtime per charge.

■ Advanced sensor suite: Includes 10 different sensors, for things such as rotation, acceleration, sensing and responding to ambient light, sending and receiving infrared signals.

■ Robot-to-robot communication: Infrared communication allows robots to talk to each other, allowing the robots to cooperate or compete.

■ Durable: Robot’s flexible construction allows the robot to shrug off falls and collisions.

Programmable Behavior

Each Kamigami robot can be programmed with a unique set of behaviors and characteristics.

This enables a wide range of individual and team play modes that take advantage of the robot’s sensors and functions. Games that can be created include:

■ Sumo-bots – first to fall off the table loses points

■ Build your own battle game where robots blast each other with the IR lasers

■ Robot relay – one robot cannot run until it gets tagged by another robot

■ Tanks – take turns trying to get into firing position

Mechanical Intelligence

Most robots today are constructed either with hundreds of expensive injection-molded parts, or metal fastened together with steel bearings. They require an individual motor, or actuator, for each joint, making them slow, expensive and heavy. To overcome these fundamental challenges, Dash constructs its robots with a material made up of highly durable yet lightweight plastic.

This material fastens together using flexible plastic joints, or flexures, rather than ball bearings. Because of this design approach, Kamigami robots require only one or two actuators – another significant reduction in cost for both prototyping and manufacturing.

This rare combination of new composite material, intelligent design and innovative manufacturing results in robots that have much greater mechanical flexibility, are much faster, are lighter in weight and can be sold at a fraction of the cost of any competitor.

About Dash Robotics      

Dash Robotics was founded in 2013 by four UC Berkeley PhD students on a mission to make advanced robotics simple, fun and affordable for everyone. Dash has received a round of seed funding led by IronFire Capital, which has a track record of success investing in early-stage companies including Songza (acquired by Google), Streem (acquired by Box), Caviar (acquired by Square) and many others. Dash is headquartered in Hayward, California.

Src:Card The Card Game – The Robot Hacking, Computer Programming Card Game has launched on Kickstarter.

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Sept, 2015 – Src:Card Games has completed their first standalone card game: Src:Card.  Src:Card is a two player (3-4 player with expansion) card game that pits players against each other as nation states.  Each nation has one super robot with the ability to conduct global warfare.  With the days of human combatants in the past, players must write code in order to defeat the all-powerful combat robots.

Each player alternately develops its robot’s defences and programs an attack against its opponent’s battle robot.  The game uses fundamental concepts from programming in order to facilitate the attack mechanisms within the game.  The dynamic nature of building robotic defences leads to a remarkably agile response from players.

Src:Card is a game of anticipation, defence and programmatic offence.  The code based mechanics of the game are challenging for beginners and become more challenging as players become more adept at using the programming blocks.  Src:Card was created by Sam Boychuk, Erwin Njembo and Jacob Grossman, each big fans of tabletop gaming and computer programming.

After exploring research topics in software engineering education, Sam Boychuk – lead developer – determined that academics where stressing the need to teach programming students a handful of basic concepts.  Two years ago Sam decided to create a Java-based visual programming language called Pipes, as a continuation of these studies.  Six months ago, the team decided that the ideas in Pipes could be better represented in a tactile standalone card game.  While incorporating cutting edge research in teaching programming, Src:Card incorporates foundational computer science lessons in an effort to entertain and educate players of the game.

While it is the primary goal of the Src:Card team to entertain, they are confident that exploring foundational topics in computer science can introduce a whole new generation of technology enthusiasts to the world of software development.  Erwin Njembo, a teacher and technology student stated “Src:Card is engaging, it is fun, it is competitive, it’s actually a game that keeps you on the edge, you have to use your brain all the time.”  Src:Card is looking forward to releasing the game on Kickstarter immediately.

Src:Card on Kickstarter

Cannybots Launches New Robot Smart Toys that Allow Kids to Design, Build, Program and Race their Own Custom Cars

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London, UK – Cannybots, the programmable smart toy robots that can be controlled from a smartphone or tablet, and that get kids excited about robotics, today launched on Kickstarter.

Cannybots are smart toy robots that encourage children to play and spend time together, rather than spending their days in front of screens playing virtual games online. Cannybots teaches kids about robotics, programming, design and 3D printing while they are playing.

Children receive a construction kit for their Cannybot containing all the parts and detailed instructions to build their robot. They can then be programmed and controlled from phone, tablet, PC or a Raspberry Pi.

“Going through the building process gives kids the hands-on experience of building a functional robot that they can also program,” said Anish Mampetta, CEO of Cannybots. “Programming is an essential skill today but it is not easy to get kids started.  We are allowing kids to do this in a fun, interactive and rewarding way.”

To introduce children to programming, the Cannybots team created a simple and intuitive app called ‘CannyTalk.  The app uses a syntax-free programming environment that works like a friendly chat tool. Using the app anyone can program the Cannybot using plain English. The complex Artificial Intelligence (AI) based engine behind CannyTalk is developed in association with researchers from the Computer Science department at the University of Cambridge in the UK.

“The children use programming to solve puzzles, control Cannybots on race tracks, and create new game play styles,” added Mampetta. “It’s an interactive, social experience that brings friends and family together.”

Once built and programmed, the bots can be used in a number of play scenarios such as high speed racing, time trials, sumo-wrestling, jousting and puzzle-solving. Apps and printable tracks are available for each game.  Children can also design new car bodies using free, easy to use, browser based CAD software from Cannybots’ partner Autodesk. The designs can be then easily 3D printed using any home 3D Printer.

The current version of Cannybots is already very popular and is being used in over 20 schools in the UK and Europe.

Pre-orders start as low as $89 for an early bird special and will be shipped in time for the holidays.

For more information visit www.cannybots.com and on their Kickstarter campaign page – www.cannybots.com/kickstarter

About Cannybots 

Cannybots are smart toy robots that can be controlled and programmed from a phone or a tablet. This engaging toy brings kids play time out of their tablets and back into the real world. It also introduces kids to Programming, 3D Printing and Robotics through play.

Cannybots can be used in a large number of play scenarios, such as –Racing, Sumo Wrestling, Jousting, Maze solving and other puzzle games. There is a dedicated phone app and track design for each game play. Customer can print the tracks at home or use the large format tracks that we supply. It is also possible to make a large track by printing segments of A4 sheets. The bots work by following black lines and colored mark printed on the track.

Cannybots can be programmed from a Phone or a Tablet using a simple, intuitive app called CannyTalk. It is a Natural Language based programming interface using which you can program the robot in plain simple English. It eliminates the complex Syntax found with other programming languages thus making it easy for kids to get started.

Cannybots designs are open source, free and 3D Printable. You can easily customize the design using free, browser based CAD software from our partner Autodesk. The customized designs can be 3D printed using any ordinary home 3D printer.

Fort Lauderdale team wins XPRIZE and Google’s STEM-based competition for kids, “MOONBOTS”

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Twin Girls, 9, Will Travel to Japan to Meet Google Lunar XPRIZE Teams

LOS ANGELES (September 24, 2015) – XPRIZE, the global leader in incentivized prize competitions, and Google today announced Linked Lunas, 9-year-old twin girls from Fort Lauderdale, Florida, is a grand prize winner in the 2015 MOONBOTS Challenge, also considered the “Google Lunar XPRIZE for Kids.” MOONBOTS is an international competition that encourages the next generation of space explorers and innovators by inviting kids ages 8-17 to design, create and program their own lunar rover, based on a legend or theory that inspires them about the moon.

Linked Lunas is comprised of twin sisters Hadley and Delaney Robertson and their team captain and mom, Shannon Robertson. The team bested 235 teams from 29 countries that entered competition in April. Next month, they will embark upon a once-in-a-lifetime trip to Japan to meet the official teams competing for a $30M Google Lunar XPRIZE, a global competition to land a privately funded robot on the moon.

Their entry was based on a historical tale and scientific theory that hits close to home for them – that the earth once had “twin” moons that collided and merged into one. The sisters used this tale as inspiration to build and program a one-of-a-kind simulated lunar mission using the MECCANO Meccanoid G15 KS robotic platform and demonstrated its capabilities during a live webcast with the judges.

“Team Linked Lunas showed ingenuity and innovation in their robotic building and programming, and were creative and imaginative in the way they interpreted their moon ‘tale,’” said Chanda Gonzales, senior director, Google Lunar XPRIZE. “Hadley and Delaney were incredibly engaging, and their mission will provide inspiration for kids all over the world.”

In addition to developing their lunar rover, the sisters contributed to science, technology, engineering and mathematics (STEM) education by sharing their innovation with children at the School is Cool initiative – a partnership between the Community Foundation of Broward and the Fort Lauderdale Museum of Discovery & Science to provide underserved and at risk 6th and 7th grade Broward county students with a comprehensive after school program.

The kids’ competition attracted 235 teams from 29 countries, who entered phase one by submitting a written or video entry about what inspires them about the moon. Teams are comprised of 2-4 members (ages 8-17) and one team captain at least 18 years old. A panel of judges selected 30 teams to qualify for phase two, each of which was provided one of three platform systems (LEGO MINDSTORMS EV3, VEX IQ, MECCANO Meccanoid G15 KS) to build and program a unique simulated robotic mission based on the moon tale they submitted in phase one. In addition, they were asked to contribute to STEM education by sharing their innovation with children and adults in their community.

Along with Team Linked Lunas, other grand prize winners are: Mecaliks of Cuautitlan Izcalli, Mexico; Team GalacTECHs of Tustin, Calif.; and Moonshot of Brooklyn, N.Y. and Naples, Italy.

Since 2010, MOONBOTS has challenged thousands of young people from around the world. In addition to XPRIZE and Google, competition partners include FIRST® LEGO® League, Cogmation Robotics, VEX Robotics Inc., Spin-Master Ltd., the Robotics Education and Competition Foundation (RECF), GeekDad, GeekMom, Robomatter Incorporated and Dexter Industries. More information, including the full list of finalists, can be found at moonbots.org.

 

About the Google Lunar XPRIZE 

The $30M Google Lunar XPRIZE is an unprecedented competition to challenge and inspire engineers and entrepreneurs from around the world to develop low-cost methods of robotic space exploration. To win the Google Lunar XPRIZE, a privately funded team must successfully place a robot on the moon’s surface that explores at least 500 meters and transmits high-definition video and images back to Earth. For more information, visit lunar.xprize.org/.

 

About XPRIZE 
Founded in 1995, XPRIZE is the leading organization solving the world’s Grand Challenges by creating and managing large-scale, high-profile, incentivized prizes in five areas: Learning; Exploration; Energy & Environment; Global Development; and Life Sciences.  Active prizes include the $30M Google Lunar XPRIZE, the $15M Global Learning XPRIZE, $10M Qualcomm Tricorder XPRIZE, and the $7M Adult Literacy XPRIZE. For more information, visit xprize.org.

InnoTechnix launches Maximo Robot Arm on Kickstarter starting at Only 199$USD

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SAINTE-ADELE, QuebecSept. 22, 2015PRLog — InnoTechnix a robotics company, announced the launch of its new crowdfunding campaign on Kickstarter for Maximo Robot Arm. Maximo is a 5-axis robotic arm for all ages designed to be an affordable way to discover robotics.

https://www.kickstarter.com/projects/itnx/maximo-robot-ar…

Maximo is our second generation of robotic arms. Three years ago, we created MandleBot, a 5-axis aluminum robotic arm currently being used in schools, robotics clubs, summer camps and even factories. We have enjoyed sharing our passion for robotics with a lot of people and it has inspired us to now do it on a larger scale. The new Maximo features a completely updated and optimized design to make it easier to use.

https://www.youtube.com/watch?v=bVhc2T9xoJI

Maximo is an Arduino-driven, 5-axis robotic arm with a laser-cut acrylic body. The robot comes with Robotic Studio, an InnoTechnix software program developed in-house that allows the user to control the arm with a gamepad or program a series of recorded steps to execute complex automations. Up to 10 robots can be connected at the same time in Robotic Studio. Maximo only requires a screwdriver to assemble and can easily be customized with attachments. Several head modules are available to expand the abilities of the arm. It is a great solution for schools to motivate students to learn more about robotics and science.

You can follow us on Facebook https://www.facebook.com/InnoTechnix and Twitter https://twitter.com/innotechnix with the hashtag #MaximoRobotArm

https://www.youtube.com/watch?v=qU12szKRpew

About InnoTechnix Inc.: InnoTechnix (http://www.itnx.com/) was launched in 2011. The company has since developed a variety of robotic arms, custom claws, talking robots, smart clocks and mobile robots. InnoTechnix designs the robots, manufactures all parts and develops the robotics software. InnoTechnix robots have appeared on television programs like Dragon’s Den, Mr.Net, Entrée Principale, Cogeco TV and a TV ad for the Ford Focus.

InnoTechnix previously successfully achieved a Kickstarter campaign for another robotics project. The company created a diy product inspired by the useless machine invented by MIT professor Marvin Minsky at Bell Labs in 1952. The goal was to create a product that people would assemble themselves and learn about electronics along the way. It was called the Useless Can. The campaign was successfully funded by 427 backers who pledged a total of $27,011. The idea to launch a new Kickstarter campaign for Maximo came while manufacturing the Useless Can. I realised that crowdfunding on Kickstarter had the potential to bring this longtime project of mine to a much larger scale.

LEGO® MINDSTORMS® Introduces Mobile Programming With New EV3 Programmer App For Tablets

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NEW YORK and WASHINGTON, Sept. 25, 2015 /PRNewswire/ — Today the LEGO Group announced the LEGO® MINDSTORMS® EV3 Programmer App, a new application that allows builders to create programs for MINDSTORMS robots directly from iOS and Android tablet devices. Featuring a streamlined selection of the most-used commands, the EV3 Programmer App allows for more interaction away from the desktop or laptop computer, giving users even more freedom to explore and tinker with the MINDSTORMS platform.  The EV3 Programmer App will be available in free versions for iOS and Android tablets in English, German, French, Dutch, Spanish, Danish, Japanese, Chinese (Mandarin), Korean and Russian in late November 2015. The app is not a standalone experience, but designed for LEGO MINDSTORMS EV3, the LEGO construction set that allows you to build and program robots that do what you want them to do (U.S. SRP $349).

The EV3 Programmer App consists of the 11 most popular programming blocks in the LEGO MINDSTORMS software, including action blocks, flow blocks and comment blocks. After writing and saving a program within the app, a user can progress to more advanced programming by opening it in the LEGO MINDSTORMS desktop software.  To provide additional inspiration for beginner robot makers, the app will feature building missions, videos and building instructions for five starter robots that represent a variety of building and programming experiences all while delivering the fun factor for which LEGO building is known.

„By extending MINDSTORMS robotic programming to tablets, we are embracing the ‚anywhere, anytime‘ of mobile devices to unleash even more creativity in building and programming with MINDSTORMS,“ said Filippa Malmegard, LEGO MINDSTORMS community manager. „When we untether the experience from the desktop, programming really becomes a playful extension of building, allowing users to add a new behavior or interactivity to their LEGO creations. This extra level of mobility will make the EV3 Programmer App an accessible and convenient programming starter experience for a new generation of users, while at the same time adding play value for our existing MINDSTORMS Community.“

From Play to Prototype: LEGO MINDSTORMS at World Maker Faire and Smithsonian Innovation Festival
To further inspire the next generation of innovators, the LEGO Group is showcasing the creativity and innovation of the MINDSTORMS Community at two high profile events this weekend, World Maker Faire, September 26-27, in New York, NY, and the Smithsonian Innovation Festival, September 26 – 27, in Washington, DC. At each event, MINDSTORMS makers will demonstrate inventions they’ve built using MINDSTORMS building sets as prototyping tools in addition to showcasing a variety of fun LEGO robots.

A number of recipients of LEGO Prototyping Kits from this summer’s Play to Prototyping Challenge, launched during the National Week of Making in June, will participate in World Maker Faire. LEGO MINDSTORMS Community Manager Filippa Malmegard will also moderate a panel on the topic „From Play to Prototype“ where featured builders will discuss how LEGO bricks and elements can serve as a creative prototyping platform for new concepts and inventions ranging from prosthetics to 3D printers. (Saturday, September 26, 3:45PM – 4:15 PM)

At the Smithsonian Innovation Festival in Washington, DC, Shubham Banerjee, the 14-year-old founder of Braigo Labs will demonstrate his braille printer built entirely from LEGO MINDSTORMS and share his process of invention with attendees.  Alongside Shubham, Cameron Kruse, Fulbright alumni and LEGO MINDSTORMS builder will demonstrate a prototype for his baseball mudder, a machine that can apply the same amount of mud to each new baseball, eliminating inconsistencies in the ways mud was applied to new baseballs before they were used in a game. Both Shubham and Cameron will participate in 15 minute Q&A interviews as part of the event as well.

The EV3 Programmer App for tablets will be available through the App Store and Google Play in late November 2015. For more information on LEGO MINDSTORMS and examples of robots built using LEGO MINDSTORMS EV3, please visit www.LEGO.com/MINDSTORMS.