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.

A team of researchers at the University of Auckland, NZ, conducted a twelve-week study to find out how robot pets can benefit the elderly. To this end, 40 seniors were selected from a retirement home. They were divided into two groups of twenty each. The first group was studied interacting with a robot seal named Paro. The other group was sent out of the retirement home every week to participate in interactive activities like bingo and arts. Discover additional details at my publisher site.

Keynote speakers have been selected from among the top robotics companies in the United States. The event attracts thousands of robotics enthusiasts and professionals annually from technology developers, start-up companies and government agencies. It is a diverse conference in the world of robotics. The Wearable Robotics Association Conference is one event that magnets attendees from several locations across the world. The event is set to hold from the 30th of March to the 1st of April in DoubleTree Resort, Scottsdale, U.S.A. It boasts of a history of having attendees discuss and participate in cutting-edge presentations, robotics demonstrations, networking, and innovative competitions.

Developed by Boston Dynamics, Atlas is a bipedal humanoid robot designed to operate indoors and outdoors and participate in complicated search-and-rescue operations, operate powered equipment in hazardous environments, or performing tasks such as opening doors. Boston Dynamics is known for actively collaborate with military organizations such as DARP or the U.S. Department of Defense. Their robot prototypes are engineering works of art, mimicking human and animal movements. Unlike other robots, Boston Dynamics’ creations can work under harsh conditions, demonstrating extraordinary human-like stability and rough terrain mobility. If you want to meet the whole Boston Dynamics’ robotic family, check out the official website. Extra information at my publisher site.

Special considerations exist when using a robot for special applications. When making a heavy-duty robot, your usual considerations for making its parts are strength, weight, and availability. However, you must also consider how it will interact with the environment. Checking the technical details of all your parts is a must when making robots. Material choice needs to be considered when subjecting robots and robotic parts such as servo controllers about which you can read here in certain places. Usually, they are used to protect either the robot parts or the things where your robot will operate. Here are some of the common materials used which are probably already on your list: As reliable as it sounds, steel is the most common material of choice for heavy-duty robots. Its strength, combined with its availability in the market is its major advantage. You will notice that steel is used as frames or covers in robots.

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.

We are arguably seeing a forth revolution as the computing power of the 20th century has taken major leaps forward in the 21st. A connected world. Automation is becoming commonplace in factories and we are starting to see with the Internet of Things how a connected system can change the face of manufacturing. Industry 4.0 will involve these automated systems making key decisions without any input. Find extra info on this article.