Archive 17.06.2020

Basic considerations at the beginning of assembling a cable management system can prevent costly problems later on, such as a loss of continuity, insulation damage, mechanical deformation, or EMI problems.

When human contact needs to be kept to a minimum, robots can save lives and factories. But when the coronavirus crisis is over, will they amplify job losses?

A deep learning python project template, object oriented techniques such as abstraction, inheritance and static methods, type hints and docstrings

Robots capable of the sophisticated motions that define advanced physical actions like walking, jumping, and navigating terrain can cost $50,000 or more, making real-world experimentation prohibitively expensive for many.

Robots capable of the sophisticated motions that define advanced physical actions like walking, jumping, and navigating terrain can cost $50,000 or more, making real-world experimentation prohibitively expensive for many.

You can now buy one of those unnerving animal-like robots you might have seen on YouTube—so long as you don't plan to use it to harm or intimidate anyone.

What should you do if you want an ergonomic lifting aid, but your ceiling height is too low for conventional crane systems? Schmalz’s solution is a modular flat jib made of aluminum that guarantees smooth movement sequences, even in rooms with low ceilings.

Animals in their natural environments effortlessly switch up their movements to hunt, escape from predators and travel with their packs every day.

The use of cobots is on the rise and their use is encouraged to stay safe during the pandemic, as some businesses were severely affected due to the social-distancing orders. The collaborative robot market is experiencing an exponential growth.

Spanning a planned area of 3,000 acres (2 million square metres), it has five cutting-edge workshops including stamping, welding, painting, final assembly, and battery pack production.

A team of researchers from the University of California San Diego and the University of Science and Technology Beijing has developed a way to engineer platelets to propel themselves through biofluids as a means of delivering drugs to targeted parts of the body. In their paper published in the journal Science Robotics, the group outlines their method and how well it worked when tested in the lab. In the same issue, Jinjun Shi with Brigham and Women's Hospital has published a Focus piece outlining ongoing research into the development of natural drug delivery systems and the method used in this new effort.

If robotics technology is going to keep oceans and rivers clean, it will need human help. Humans and robots working together is essential in order to effectively manage the recycling crisis.

Flying insects have developed effective strategies for navigating in natural environments. However, the experimental study of these strategies remains challenging due to the small size of insects and their high speed of motion: Today, it is only possible to study insects that are "tethered" or in stationary flight.

The brains of humans and other animals often practice feedforward control, as they are very good at whole-system modeling. But for machines, such modeling is computationally hard. However, researchers with Huazhong University of Science and Technology and the University of California at Berkeley have developed a new feedforward method that improves on conventional feedforward techniques.

Robots that are made of flexible materials that can be inflated have a number of desirable properties, including their light weight and high levels of compliance (i.e. the ability to undergo elastic deformation). These qualities make them ideal for completing tasks in unstructured environments or in settings where they are bound to operate very close to humans.