The introduction of EMILY (Emergency Integrated Lifesaving Lanyard) is making the process easier. EMILY was developed by a company named Hydronalix to assist victims of hurricane and flooding. Twenty-four hours after hurricane Dorian occurred in Abaco Island in the Bahamas, rescuers used EMILY to provide aid to people. EMILY is a water vehicle that utilizes sonar technology. Emily can indicate where underwater debris is as it would impede navigation. EMILY is also remoted controlled. EMILY can be also sent to someone lost at sea. The water vehicle has handles victims can hold on to and use to pull themselves out of the water.
Another study done in 2008 found that robot dogs are great companions for the elderly in assisted living. They helped in reducing loneliness. The study also found that the elderly can be highly attached to both robot and living dogs. Therefore, these two provide similar benefits. On the other hand, some of the participants preferred the robot dogs because they are easier to maintain. For example, they can be left home alone in case their owners get admitted in the hospital. See even more details at this publisher site.
The National Robotics Week is one event you cannot afford to miss as a robotics enthusiast. It is packed with activities and grassroots events. Taking place in April 2020, RoboWeek runs from the 4th till the 12th of the month. The purpose of this event is to celebrate and create awareness of the importance and strength of the U.S robotics industry. It also aims at promoting the robotics industry by exhibiting the cultural and social impact robotics have, and will have in time to come. The 2020 RoboWeek sets out to inspire students across backgrounds in robotics and Science, Technology, Engineering and Math (STEM) related fields, enabling them to share their ideas and excitement with audiences. You can support and celebrate the RoboWeek anywhere in the U.S by hosting the event in your community, sharing the word on social media, attending any of the events or by sponsorship.
On the other side, most scholars define robots as: ‘an actuated mechanism programmable in two or more axes with a degree of autonomy, moving within its environment, to perform intended tasks. Autonomy in this context means the ability to perform intended tasks based on current state and sensing, without human intervention’. And with this definition, polemics is on the cards! For instance, surgical robots lack autonomy. However, they are still considered robots. Who defines the ‘intended tasks’: the robot, the programmer, or the user? Would a self-driving car be considered a robot? How about a smart vacuum cleaner? Despite the vagueness of the definition and the numerous questions it raises, one thing is for sure: “I can’t define a robot, but I know one when I see one.” (Joseph Engelberger). So let’s experience some robotic magic together. Even more info on this article.
Kevlar is well known as bulletproof attire. It is made of strong synthetic fibers that can also withstand both hot and cold environments. It can keep the oil on your robots from freezing and melting. Making your robot wear kevlar attire enables it to go on harsh environments. Isn’t that what makes the robot heavy duty? Kevlar, as a fabric, makes your robot maintain its motion and function. Also, damaged Kevlar covering can be replaced without disassembling your robot. It’s just like making your robot wear protective clothes, increasing its durability in harsh environments. This material is used in various other industries such as the car industry. For instance, most of the presidential vehicles use Kevlar as protection from terrorist attacks and possible strayed bullets and other dangers. Speaking of which, if you want to make a robot that will withstand harsh conditions and certain threats from the outside, this is the material to go with.
However, the automotive OEMs took the front row in the number of units ordered in the market as it witnessed a total of 83% demand, the highest amongst other industries. While other robotic industries, including semiconductor/electronics, Life Sciences, and Food/Consumer goods saw an increase in demand of 12%, 8%, and 3% respectively. Plastic & Rubber, Metals, and other industries were also captured in the demand growth with an increase of 8%, 11%, and 4% respectively.
What will change? There are a number of possibilities for manufacturing with 4.0 advancements. Here we look at some of the key ways that businesses will be able to take advantage of Industry 4.0. Find patterns – The more data that can be shared, the more patterns will emerge and opportunities can be found. This allows manufacturers to maximize their opportunities in a way that wouldn’t be possible should it be done manually. Streamline supply – A supply chain being disrupted can have huge knock-on effects for business. A connected system that can adapt to the likes of weather will increased efficiency. This will prevent delays or any shortages from happening. See more information on this article.
