Every year, we seem to find more and more stories that show us both the horrifying power of AI, and the incredible potential that it holds. However, for years, these stories are becoming more and more impressive; further examples of just how much society as a whole is changing.

One of the most recent findings was that a host of new robots that are capable of jumping from a helicopter – and landing safely – are here.

These ‘squishy robots’ have quickly become a very impressive example of where robotic science could go. Indeed, these ball-shaped robots were made by staff at UC Berkeley and Squishy Robotics. They managed to create robots that can fall as high as 600ft and not take any kind of fall damage whatsoever.

Seemingly, they are also able to move and shift into different shapes so that they can get out of unique and tough spots. It’s quite the story and could make them perfect for use in high-risk areas, such as disaster zones.

Their ability to analyze ground conditions, and to be dropped into tough areas from high heights without damage, is incredible. As is their ability to help shift and move into different forms to help fit into even the tightest of spots.

Help in Disaster Zones

UC Berkeley mechanical engineering professor, Alice Agogino, was very impressed. She stated: “Our rapidly deployable mobile sensor robots are designed to save lives, reduce costs and risks and increase the effectiveness of the emergency response,

“They can survive a high drop into a disaster zone and provide life-saving information to first responders. They can also work as co-robots with their human partners on the ground when they arrive on the scene.”

These robots could be used for all manner of solutions, and could eventually be used to help make disaster zones a little safer. However, they also have some very interesting uses that could be put to practice in day-to-day life, as Agogino noted:

“We are still working with NASA on a space probe, but as excited as I am about space robots, I was motivated to apply this technology to Earthly applications when I saw a report by the Red Cross and Red Crescent that 400 first responders lost their lives to save others in the last 20 years. Many of these lives could have been saved with better situational awareness before entering disaster zones,

“Our robots get information that first responders need in order to stay safe and respond faster and more effectively.”

This is all very impressive and shows the rapid and impressive growth of robotics equipment. With uses in both emergencies and disasters, these tools could be used to help make sure that more lives are saved, and fewer lives are lost. It’s set to be a major hit when it eventually becomes something that could be genuinely used on the field.

‘Squishy’ Robots Can Jump From Huge Heights – and Survive

Every year, we seem to find more and more stories that show us both the horrifying power of AI, and the incredible potential that it holds. However, for years, these stories are becoming more and more impressive; further examples of just how much society as a whole is changing.

One of the most recent findings was that a host of new robots that are capable of jumping from a helicopter – and landing safely – are here.

These ‘squishy robots’ have quickly become a very impressive example of where robotic science could go. Indeed, these ball-shaped robots were made by staff at UC Berkeley and Squishy Robotics. They managed to create robots that can fall as high as 600ft and not take any kind of fall damage whatsoever.

Seemingly, they are also able to move and shift into different shapes so that they can get out of unique and tough spots. It’s quite the story and could make them perfect for use in high-risk areas, such as disaster zones.

Their ability to analyze ground conditions, and to be dropped into tough areas from high heights without damage, is incredible. As is their ability to help shift and move into different forms to help fit into even the tightest of spots.

Help in Disaster Zones

UC Berkeley mechanical engineering professor, Alice Agogino, was very impressed. She stated: “Our rapidly deployable mobile sensor robots are designed to save lives, reduce costs and risks and increase the effectiveness of the emergency response,

“They can survive a high drop into a disaster zone and provide life-saving information to first responders. They can also work as co-robots with their human partners on the ground when they arrive on the scene.”

These robots could be used for all manner of solutions, and could eventually be used to help make disaster zones a little safer. However, they also have some very interesting uses that could be put to practice in day-to-day life, as Agogino noted:

“We are still working with NASA on a space probe, but as excited as I am about space robots, I was motivated to apply this technology to Earthly applications when I saw a report by the Red Cross and Red Crescent that 400 first responders lost their lives to save others in the last 20 years. Many of these lives could have been saved with better situational awareness before entering disaster zones,

“Our robots get information that first responders need in order to stay safe and respond faster and more effectively.”

This is all very impressive and shows the rapid and impressive growth of robotics equipment. With uses in both emergencies and disasters, these tools could be used to help make sure that more lives are saved, and fewer lives are lost. It’s set to be a major hit when it eventually becomes something that could be genuinely used on the field.

Every year, we seem to find more and more stories that show us both the horrifying power of AI, and the incredible potential that it holds. However, for years, these stories are becoming more and more impressive; further examples of just how much society as a whole is changing.

One of the most recent findings was that a host of new robots that are capable of jumping from a helicopter – and landing safely – are here.

These ‘squishy robots’ have quickly become a very impressive example of where robotic science could go. Indeed, these ball-shaped robots were made by staff at UC Berkeley and Squishy Robotics. They managed to create robots that can fall as high as 600ft and not take any kind of fall damage whatsoever.

Seemingly, they are also able to move and shift into different shapes so that they can get out of unique and tough spots. It’s quite the story and could make them perfect for use in high-risk areas, such as disaster zones.

Their ability to analyze ground conditions, and to be dropped into tough areas from high heights without damage, is incredible. As is their ability to help shift and move into different forms to help fit into even the tightest of spots.

Help in Disaster Zones

UC Berkeley mechanical engineering professor, Alice Agogino, was very impressed. She stated: “Our rapidly deployable mobile sensor robots are designed to save lives, reduce costs and risks and increase the effectiveness of the emergency response,

“They can survive a high drop into a disaster zone and provide life-saving information to first responders. They can also work as co-robots with their human partners on the ground when they arrive on the scene.”

These robots could be used for all manner of solutions, and could eventually be used to help make disaster zones a little safer. However, they also have some very interesting uses that could be put to practice in day-to-day life, as Agogino noted:

“We are still working with NASA on a space probe, but as excited as I am about space robots, I was motivated to apply this technology to Earthly applications when I saw a report by the Red Cross and Red Crescent that 400 first responders lost their lives to save others in the last 20 years. Many of these lives could have been saved with better situational awareness before entering disaster zones,

“Our robots get information that first responders need in order to stay safe and respond faster and more effectively.”

This is all very impressive and shows the rapid and impressive growth of robotics equipment. With uses in both emergencies and disasters, these tools could be used to help make sure that more lives are saved, and fewer lives are lost. It’s set to be a major hit when it eventually becomes something that could be genuinely used on the field.