Grasshopping robots made possible with new, improved latch control

Why Can't Robots Jump Across Grass and Sand?

It's long been a mystery why animals and insects can jump across grass and sand, while robots have yet to be able to do the same. But according to Professor Sarah Bergbreiter of Mechanical Engineering, the answer may come from an unlikely source - existing latch mechanisms.

Originally seen as an 'on' or 'off' switch to release stored energy, these latch mechanisms may now be used to control the jump performance of robots across a variety of terrains. Under the guidance of Bergbreiter, researchers are beginning to understand how these latch mechanisms can be adjusted to allow robots to successfully jump across both grass and sand. This could potentially revolutionize how robots are used in a wide range of industries.

https://www.lifetechnology.com/blogs/life-technology-technology-news/grasshopping-robots-made-possible-with-new-improved-latch-control

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Edible electronics: How a seaweed second skin could transform health and fitness sensor tech

How Biodegradable Health Sensors Could Change Health Care

Scientists at the University of Sussex have recently trialed a new type of biodegradable health sensor which could revolutionize the way we look at personal health care and fitness monitoring. Their research could have far-reaching implications for the future of health care technology.

The new sensors are made from biodegradable materials, such as proteins and polysaccharides, and are designed to be firmly embedded in the body. These sensors are capable of measuring a variety of metrics, including temperature, pressure and humidity. For example, they can detect changes in body temperature due to fever or exercise, as well as changes in blood pressure.

The sensors are powered by a small battery and are capable of transmitting the data to a receiver. This means that health care providers can monitor the health of their patients remotely, without having to rely on direct contact. The sensors are also more cost-effective than traditional monitoring devices, as they are biodegradable and do not require frequent replacement.

The research team believes that the sensors could play a pivotal role in improving patient outcomes, as well as offering new avenues for monitoring health and fitness. By providing healthcare providers with more comprehensive data, they will be able to diagnose and treat illnesses and diseases much more easily and effectively.

The biodegradable health sensors could also be used to monitor the activity levels of athletes, giving coaches and trainers a much better understanding of how their athletes are performing. This data could be used to tailor training and nutrition plans, helping athletes reach their peak performance.

The research team is now working to refine the sensors and make them even more effective. They are also testing the sensors in a variety of medical and sporting applications to ensure that they are safe and reliable.

The success of this trial is extremely encouraging and could have a significant impact on the way we experience health care and fitness monitoring technology. It is an exciting time for the field of healthcare technology, and this research could open up a range of new possibilities.

https://www.lifetechnology.com/blogs/life-technology-technology-news/edible-electronics-how-a-seaweed-second-skin-could-transform-health-and-fitness-sensor-tech

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