C-EXO has made a name for itself with its futuristic exoskeleton selections, and the company is now taking a literal and figurative step forward with the introduction of a smart knee brace.
Dubbed the E-Knee, this smart knee brace is equipped with a quintet of airbags situated in different locations around the knee joint, and hooked up to a control shaft that sits atop the brace by virtue of magnetic technology. The control mechanism includes a lithium battery, measurement sensors and control chip that work together to detect knee movements and pump adequate amounts of air to gain the desired pressure around the knee joint.
By using smart technologies to alter the degree of pressure, the E-Knee can guarantee optimal support for the knee joint regardless of the wearer's leg position or posture.
Automated Smart Knee Braces
The 'E-Knee' Delivers Optimized Support For Wearers' Knee Joints
Trend Themes
1. Smart Wearable Health Devices - The E-Knee is a great example of a smart wearable for the healthcare industry, paving the way for health-focused innovation opportunities in the IoT and wearables market.
2. Automated Braces and Supports - The E-Knee is an example of how automation is coming to healthcare, and presents opportunity for innovation in medical devices and assistive technology.
3. Airbag Technology - The E-Knee's use of airbag technology in support braces could potentially disrupt the safety industry, presenting an opportunity for innovation in impact protection and safety gear.
Industry Implications
1. Healthcare - The E-Knee presents a disruptive opportunity for innovation in the healthcare industry, particularly in the area of wearable devices and assistive technology.
2. Medical Devices - The E-Knee is a great example of a smart, automated medical device, leading to potential opportunities for innovation in medical supports and braces.
3. Safety Gear - The E-Knee's use of airbag technology could potentially disrupt the safety gear industry, paving the way for innovation in impact protection and support devices.