High-precision electromyography sensor usable in water.
Mini Wave Infinity UnderWater is a logger-type electromyography sensor designed specifically for underwater use. The sensor is equipped with a special waterproof coating, allowing it to maintain the same accuracy and functionality as the ground-based Mini Wave Infinity while being used underwater. The sensor itself is very lightweight at just 7g, making it almost unnoticeable when worn. Additionally, the sensor includes an accelerometer, enabling simultaneous measurement of both electromyography and acceleration. Furthermore, by using a dedicated trigger button, you can remotely start and stop measurements. Mini Wave Infinity UnderWater enables the acquisition of high-precision electromyography data underwater.
Inquire About This Product
basic information
■ Waterproof muscle electric/acceleration data logger ■ Weight 7g ■ Supports accurate data acquisition for beginners with original skin resistance check function
Price range
Delivery Time
Applications/Examples of results
Swimming, underwater walking, underwater rehabilitation, underwater motion analysis, underwater exercise.
News about this product(2)
Company information
We handle high-precision measurement equipment that can be used for ergonomics, building structure, behavior, seismic analysis, fluid analysis, VR, and more, both domestically and internationally. In particular, the Qualisys system we offer is a leading company in the industry that manufactures a three-dimensional optical motion capture system based in Sweden. Qualisys's core technology has been developed since 1989, and based on years of accumulated experience, they develop everything in-house, from hardware like cameras to software. Currently, motion capture systems are used in a wide variety of fields, including medicine and industry. Among their products, there is a unique model that can measure underwater, enabling the acquisition of high-precision three-dimensional data in environments where motion analysis and validation of accuracy were previously impossible.
