Archive 31.12.2019

Building off the philosophy to create an outlet where the industry can share information and report on itself in a unbiased way Bob built an empire that includes 4 highly respected Online Trade Magazines

When most think of sustainability in business, the concept of green processes is not always top of mind. However, incorporating technology, and more specifically robotics and cloud connected devices, creates a secondary sustainability effect that is markedly more streamlined

With labor shortages globally and consumer demand for products increasing, we are seeing the most demand for our system in the material handling space, companies that lease space and technology for e-commerce fulfillment and distribution centers.

Last mile delivery is the most expensive part of the delivery chain, often representing more than 50% of the overall cost. This is mainly because it is the least productive and automated step. As such, many are seeking to bring automation into the last mile.

The profitable companies of the future will be those that can adapt to the change in sourcing, production and distribution that are happening today, and are flexible enough to take advantage of new technologies.

RPA or systems that are augmented with a form of automation — even software based — will completely transform the world of business as we know it. They have a place in nearly every industry in existence and can help improve output and efficiency ...

Thanks to all those that sent us their holiday videos. Here’s a selection of 20+ videos to get you into the spirit this season.

Let’s kick off with a full Christmas robot story (10min including bloopers). You can also watch the short version here.

Congrats on making it this far, as a final treat, here’s 9 hours of relaxing sounds of a cat on a robot hoovering around a Christmas tree and presents.

Did we miss your video? Send it to sabine.hauert@robohub.org.

The development of robotic technology and artificial intelligence (AI) is increasing at a rapid pace. Where once, robots were experimental lab-based creations that were a little shaky on their feet. They are now ready to come into our home to ‘help’ us with our lives.

It’s plotting a new course to the destination utilities are already sailing to (a proactive condition based asset management) and that this new course or technology is often seen as a disruption first before realizing it as an opportunity.

Welcome to the 300th episode of the Robohub podcast! You might not know that the podcast has been going in one form or another for 14 years. Originally called “Talking Robots,” the podcast was started in 2006 by Dario Floreano and several of his PhD students at EPFL, in Switzerland, including Sabine Hauert, Peter Dürr, and Markus Waibel, who are all still involved in Robohub today.  Since then, the podcast team has become international, with most of its interviewers in the United States and Europe, and all of its members being volunteers.

To celebrate 300 episodes of our podcast, we thought we would catch up with some of our former, as well as current, volunteers from around the world to find out why and how they got involved in the podcast, how their involvement impacted on their lives and careers, and what they’re doing in their day jobs now.

First up, Sabine Hauert, one of Professor Floreano’s former students, now, Assistant Professor in the Bristol Robotics Laboratory at the University of Bristol in the UK. Sabine, whose work focuses on swarm robotics, is also acting President and Co-founder of Robohub.org. She spoke to our interviewer Lilly.

Next, our interviewer and current podcast President Audrow caught up with Peter Dürr, who now leads a team in Switzerland focused on Computer Vision research, whilst remaining active with the podcast by editing all of our episodes.

And last, but definitely not least, Andra Keay, Managing Director of non-profit industry group Silicon Valley Robotics, and long standing member of Robohub, spoke to our interviewer Lauren about her company, and women in robotics.

Links

• Download mp3 (16.0 MB)
• Subscribe to Robots using iTunes
• Subscribe to Robots using RSS
• Support us on Patreon

Working with hospitality partner and Las Vegas Convention Center food service provider, Centerplate, Picnic will allow CES attendees, for the first time, to enjoy pizza produced by its acclaimed robot using AI, cloud and automation technology

5G, especially when combined with MEC (Mobile or Multi-access Edge Compute), can fundamentally change robotics. With massive and low-latency connectivity, robots can offload their computing and intelligence to edge servers that have much greater capacity and scalability.

Moley is a pair of robotic arms powered with tactile sensors that come with an elaborate crew: an electric stove, an oven, a hob, and a touchscreen unit. A 3D camera and a wired glove integrated into the unit captures the actions of a human to store it in the database.

Today’s plant managers are faced with a dearth of automation technologies but it’s not always obvious what will work best. There is rarely, if ever, a one-size-fits-all approach.

A group of EPFL researchers have developed a foldable device that can fit in a pocket and can transmit touch stimuli when used in a human-machine interface.

When browsing an e-commerce site on your smartphone, or a music streaming service on your laptop, you can see pictures and hear sound snippets of what you are going to buy. But sometimes it would be great to touch it too – for example to feel the texture of a garment, or the stiffness of a material. The problem is that there are no miniaturized devices that can render touch sensations the way screens and loudspeakers render sight and sound, and that can easily be coupled to a computer or a mobile device.

Researchers in Professor Jamie Paik’s lab at EPFL have made a step towards creating just that – a foldable device that can fit in a pocket and can transmit touch stimuli when used in a human-machine interface. Called Foldaway, this miniature robot is based on the origami robotic technology, which makes it easy to miniaturize and manufacture. Because it starts off as a flat structure, it can be printed with a technique similar to the one employed for electronic circuits, and can be easily stored and transported. At the time of deployment, the flat structure folds along a pre-defined pattern of joints to take the desired 3D, button-like shape. The device includes three actuators that generate movements, forces and vibrations in various directions; a moving origami mechanism on the tip that transmit sensations to the user’s finger; sensors that track the movements of the finger and electronics to control the whole system. This way the device can render different touch sensations that reproduce the physical interaction with objects or forms.

The Foldaway device, that is described in an article in the December issue of Nature Machine Intelligence and is featured on the journal’s cover, comes in two versions, called Delta and Pushbutton. “The first one is more suitable for applications that require large movements of the user’s finger as input” says Stefano Mintchev, a member of Jamie Paik’s lab and co-author of the paper. “The second one is smaller, therefore pushing portability even further without sacrificing the force sensations transmitted to the user’s finger”.

Education, virtual reality and drone control
The researchers have tested their devices in three situations. In an educational context, they have shown that a portable interface, measuring less than 10 cm in length and width and 3 cm in height, can be used to navigate an atlas of human anatomy: the Foldaway device gives the user different sensations upon passing on various organs: the different stiffness of soft lungs and hard bones at the rib cage; the up-and-down movement of the heartbeat; sharp variations of stiffness on the trachea.

As a virtual reality joystick, the Foldaway can give the user the sensation of grasping virtual objects and perceiving their stiffness, modulating the force generated when the interface is pressed 


As a control interface for drones, the device can contribute to solve the sensory mismatch created when users control the drone with their hands, but can perceive the response of drones only through visual feedback. Two Pushbuttons can be combined, and their rotation can be mapped into commands for altitude, lateral and forward/backward movements. The interface also provides force feedback to the user’s fingertips in order to increase the pilot’s awareness on drone’s behaviour and of the effects of wind or other environmental factors.

The Foldaway device was developed by the Reconfigurable Robotics Lab at EPFL, and is currently being developed for commercialisation by a spin-off (called FOLDAWAY Haptics) that was supported by NCCR Robotics’s Spin Fund grant.

“Now that computing devices and robots are more ubiquitous than ever, the quest for human machine-interactions is growing rapidly” adds Marco Salerno, a member of Jamie Paik’s lab and co-author of the paper. “The miniaturization offered by origami robots can finally allow the integration of rich touch feedback into everyday interfaces, from smartphones to joysticks, or the development of completely new ones such as interactive morphing surfaces”.

Literature
Mintchev, S., Salerno, M., Cherpillod, A. et al., “A portable three-degrees-of-freedom force feedback origami robot for human–robot interactions“, Nature Machine Intelligence 1, 584–593 (2019) doi:10.1038/s42256-019-0125-1