China May Overtake the U.S. as the No. 1 in Realizing Autonomous Truck Commercialization

On December 21st 2016, TuSimple, a Chinese autonomous driving startup signed a strategic cooperation agreement with the government in Caofeidian District of Tangshan, Hebei Province, China. According to the agreement, TuSimple has been given permission to test its autonomous trucks in Caofeidian District and it is expected to begin its first trial operation of inter-city automated logistics in October, 2017. This makes it possible for TuSimple to realize commercialization of autonomous trucks earlier than American companies like Otto and Peloton.

Vincross to Showcase All-terrain Robot HEXA at CES 2017

Unlike all those wheeled and motionless products in the current consumer robotics market, HEXA can dexterously walk, climb, and travel across rough terrain. Its head can rotate endlessly, which significantly improves its movement efficiency.

Mayfield Robotics Introduces Kuri: A First-of-Its-Kind Home Robot

Designed with personality, awareness, and mobility, Kuri enhances life at home and helps people connect

CES2917 - PowerVision Unveils PowerRay Underwater Robot with Revolutionary Technology Breakthroughs to Redefine Recreational Fishing

The Combination of PowerRay Fishfinder, Mobile App, and VR Goggle Provides Real-Time Visualization of Finding and Catching Fish

Five Elements Robotics Announces the Launch of 5e NannyBot, the Robot that Watches Your Children

The Age of the Jetsons Has Arrived, With 5e NannyBot!

Our washer and dryer has a new laundry folding friend at CES 2017

FoldiMate Family™: The robotic machine that will fold your laundry simpler, quicker and like a pro

First British Robotics Seed Fund launches

High Growth Robotics Limited has announced today the launch of the British Robotics Seed Fund - the first investment fund specialising in UK-based robotics start-ups.

Robotmaster Reduces Outsourcing, Increases Production and Profitability

Adding a robotic system enabled Groupe Gravel, a metal fabricator, to profitably automate cutting and welding for high-mix short-batch production. Robotmaster's tools enabled automatic path creation from CAD models drastically improved programming time.

Bodkin Design Unveils Unique Snapshot Hyperspectral Products Through Exclusive Partnership With Cubert

Bodkin Design and Engineering, LLC will team with Cubert Gmbh at Photonics West 2017 for a presentation and product demo to showcase their patented snapshot spectral imaging for precision agriculture, medical and biotech, machine vision, and more.

Result of the 2016 TraceParts annual competition

TraceParts challenged its engineering community to take part in a mystery word competition

LiDAR 101: A Q&A with a Pictometry Expert

Because LiDAR uses light, the target must be visible, so it is not an all-weather solution. It wont work well in fog or other weather conditions that affect visibility, but if conditions are clear, it can operate during both day and night.

An Open Source Driving Agent from comma.ai

From comma.ai:   Last week, we open sourced an advanced driver assistance system in order to help accelerate the future of self driving cars and provide a platform anyone can build on top of. We released both openpilot, driving agent research software, and NEO, a robotics platform capable of running openpilot, under the MIT license.   openpilot is an open source adaptive cruise control and lane keeping assist system, both safety features available on modern cars. We would like to build the best ones on the market, and help you retrofit them to existing cars.   NEO is an open source robotics research platform. It is centered around an Android phone, similar to Android Based Robots. The modern smartphone is an incredible platform packed with sensors and processing power. NEO also includes a cooling solution and a CAN interface board. CAN is a networking protocol used in cars, trucks, power wheelchairs, golf carts, and many other robotics applications.   With a forthcoming openpilot release, it will become easier for researchers to add support for their own vehicle. On older cars, some actuators may be harder to control than others, but it should be very possible to control the gas electronically to have a gas only adaptive cruise control. It's also possible for researchers to add mechanical actuators for the controls that cannot be electronically actuated. Have fun, be safe, and let's usher in the future of self driving cars together... (Github repo) (Interview)

Future Drones Will Fly as Silent as Owls, as Steady as Bees

Glenn McDonald for Seeker:  Want to know what drones of the future will look like? So does David Lentink, editor of Interface Focus, a journal that, as its title suggests, looks at the interface of different scientific disciplines. Each issue zeroes in on a particular intersection of physical sciences and life sciences and invites the world's top scholars to publish their latest work. The latest issue of Interface Focus brings together biologists and engineers to discuss a topic that's relatively straightforward and, well, pretty empirically cool: "It's completely focused on how animals fly and how that can help us build flying robots," said Lentink, assistant professor of mechanical engineering at Stanford.  Can't argue with that. The new issue features 18 newly published papers on various ways that engineers are borrowing ideas from nature to make the next generation of drones and aerial robots. Several of the papers detail prototype drones that have already been built and tested.   Cont'd...

DIY Position Tracking Using HTC Vive's Lighthouse

  From Alexander Shtuchkin: Code & schematics for position tracking sensor using HTC Vive's Lighthouse system and a Teensy board. General purpose indoor positioning sensor, good for robots, drones, etc. 3d position accuracy: currently ~10mm; less than 2mm possible with additional work. Update frequency: 30 Hz Output formats: Text; Mavlink ATT_POS_MOCAP via serial; Ublox GPS emulation (in works) HTC Vive Station visibility requirements: full top hemisphere from sensor. Both stations need to be visible. Positioning volume: same as HTC Vive, approx up to 4x4x3 meters. Cost: ~$10 + Teensy 3.2 ($20) (+ Lighthouse stations (2x $135)) Skills to build: Low complexity soldering; Embedded C++ recommended for integration to your project. (Github page)

Was That an Insect or a Drone?

The insect drone takes on the functions of larger UAVs, but reduces the larger drones down into a miniature undetectable device.

Records 1681 to 1695 of 2708

First | Previous | Next | Last

Featured Product

Online Master of Engineering in Robotics & Intelligent Autonomous Systems

Online Master of Engineering in Robotics & Intelligent Autonomous Systems

The Robotics and Intelligent Autonomous Systems program at the University of Cincinnati Online offers a cutting-edge curriculum that equips students with the skills to design, develop, and implement advanced robotic systems. Through a combination of theoretical knowledge and top-ranked faculty, students gain expertise in artificial intelligence, machine learning, and robotics, preparing them for impactful careers in the rapidly evolving field of autonomous systems. Explore now!