A new type of camera drone sets itself over the horizon, this time it is tiny, highly intelligent and affordable. The micro drone named ZANO has a footprint of only 6.5cm2 (about 2.5 sq inch) and weights only 55 grams, yet it is capable of fully autonomous flight and, very notable, it also has obstacle avoidance features while in the air. Other key features are HD video and photo capture via the drone’s integrated camera, digital image stabilization, as well as remote control from any iOS or Android mobile device. The tiny drone was launched a few days ago in the form of a Kickstarter campaign which is already well over its target, raising over 4 times its goal amount at the time of writing.
The drone has been created by Torquing Group, an Australian company relocated in the UK since 2007, with many years of experience in unmanned aircraft systems (UAS) for military as well as consumer segments. The idea of ZANO was born in 2010, and the first built UAV prototype had a 24cm2 footprint. Continue reading (…)
Winter holidays are approaching quickly so we need to start planning our shopping budget for the period to come. Of course, some of you might have jumped the gun already, myself included, and started placing orders to avoid inherent delays in deliveries that will usually occur from late November until the end of December. It’s better to be on the safe side, you don’t want to miss shooting that aerial footage of your friends on the ski slope, or maybe program the robot you just built in front of the fireplace, do you?
Anyway, we have prepared a fresh selection of robotic Christmas gift ideas including kits, toys and gadgets that we found interesting and well suited for your loved ones, friends or colleagues at work. This is by no means ans exhaustive list, if you know about something that would make a good robotic present please feel free to share.
Last week Audi has made an amazing demonstration, as part of their autonomous vehicle program, for which it partnered up with Stanford University and the VW Electronics Research Lab (ERL) in California, over a decade ago.
Their RS 7 Piloted Driving concept car, nicknamed Bobby, performed a full lap of the Hockenheimring GP circuit in Germany at high speed, fully autonomously and, most importantly without any error. The car maintained a superb racing line throughout the run, precisely braking and accelerating out of corners, reaching speeds up to 225 km/h (140 mph) on the straights, and 127 km/h (almost 87 mph) on average.
Driverless Audi RS 7 on the track | Photo: Audi
The robotic 560 HP 4.0 twin-turbo V8 sports sedan managed to complete the 4.6 kilometer long track in 2 minutes and 10 seconds dead, a laptime absolutely comparable with runs previously performed on the circuit. You can watch the complete lap in the video at the end of this article.
Have you ever wanted to build replicas of rovers NASA employs for exploring foreign planets? Or maybe are you looking for a high mobility wheeled platform solution for your projects, capable of travelling over various kinds of terrain?
Well look no further, recently we stumbled upon a very interesting Instructable about how to build your very own functional Mars rover replica, which you can also remote control from any mobile device or computer browser.
Created by the Product Design Research Studio, a group of students and researchers at the University of Dundee, UK, the six wheeled robot, inspired by the Curiosity Martian rover, can be built by using off-the-shelf components and electronics, as well as cleverly implemented household parts and materials.
Launched in 2005, the Arduino open hardware and software platform has grown to be very popular among hobbyists, educators, and professionals alike, gaining momentum especially in the robotics field. Backed by a massive online community, and with most development boards and hardware accessories available at very low prices, this platform is perhaps the best place to start in working with embedded devices. But what if you want to learn programming and do not own an Arduino board, or are overwhelmed by the selection of hardware out there? This is where simulation software comes in.
Virtual Breadboard work area
These products generally create a virtual environment in which not only can you write code but you can also create electronic circuits to test the behavior of your code. In the selection of software presented below you will notice that very different sets of features are offered by each application. Some offer vast libraries of hardware to select from, while others allow you to develop in visual environments and show results in graphical form, while others plot graphs and display data sets.
Thanks to the myriad of embedded development boards available, nowadays it is easier than ever to build things in your own household. From extremely simple connected switches or relays for home automation purposes, to more advanced fully fledged robots, only sky is the limit, and since additive manufacturing has become mainstream and accessible, you can 3D print virtually any physical part you need for your project.
But what if you could combine the unique way of building with LEGO bricks with the power and versatility offered by the Raspberry Pi embedded board?
BrickPi in action | Photo: DexterInd
Created by American company Dexter Industries, BrickPi is a two-part system that allows you to bring these two amazing development platforms together. It allows you to connect LEGO Mindstorms motors and sensors to the Raspberry Pi, as well as mount the whole assembly to your project with LEGO Technic bricks and parts.
Created by MIT’s robotics professor Dr. Cynthia Breazeal, JIBO is a highly interactive social robot designed to help and assist all members of your family in their activities, thanks to its broad range of features or skills. Unlike today’s smart assistant systems and devices JIBO has a personality, it aims to act and feel almost like it were a member of the family rather than just another device lying around the house. Dr. Breazeal, a pioneer in the social robotics field, hopes that JIBO will have a major impact on how people perceive new technologies and their benefits.
JIBO Family Robot | Photo: JIBO
It seems that part of the job is already done, started in July this year, with a goal of US$100,000, the crowdfunding campaign for JIBO ended this week raising almost US$2.3 million from over 5500 supporters, and went straight into the top 5 most funded campaigns on Indiegogo.