WiSys Technologies

19 WiSys Technologies in "Research Tools" or "Medical Devices" or "Micro & Nanotech" or "Food & Supplements" or "Medical Imaging"

Improved wheelchair design utilizing linear rotary motion with enhanced efficiency and reduced injury and pain for users

WiSys is seeking a strategic partner in the Durable Medical Equipment industry interested in gaining a competitive edge in the marketplace.  WiSys' new and improved wheelchair design is the first application developed using the patented linear rotary motion platform technology and is available for exclusive licensing.  Additional fields of use are available for development and licensing.

Easy-to-Use Device to Measure Range of Motion in Knee During Post-Operation Recovery

WiSys is seeking a strategic partner for further development, validation, manufacture, sales, and distribution of a new range of motion measuring device that will lower physical therapy costs and improve comfort for patients recovering from hinge joint operations or for patients with movement disorders.

A Low-Cost, Dosimeter Accessory Kit Enabling the Collection of Accurate Sound Level Measurements from within the Ear Canal

WiSys is currently seeking a strategic partner interested in providing a route to market for the commercialization of its dosimeter accessory kit as well as a partner for continued R&D around the development of further prototypes.

Monomeric Fluorescent Protein-Ligand Complexes with Strong Fluorescence in the Far-Red Region

WiSys Technology Foundation is seeking a strategic partner with an industry player in the life science tools and reagents industry for the further development and commercialization of its novel monomeric fluorescent protein.

High Accuracy Angle Measuring Device for Industrial, Medical, Scientific or Recreational Use

WiSys Technology Foundation is seeking a strategic partner to further develop, manufacture, market, and distribute a high accuracy rotary (angle) encoder. This device has the advantages of high single-reading accuracy (±0.1 arc seconds) and high average reading sensitivity (0.001 arc seconds), low production cost, compact design, and low power consumption. Possible applications include but are not limited to astronomical telescope mounts, land surveillance tools, industrial inspection and calibration, machine tools, medical devices, as well as robotics.