Published Telecommunications Hellical Ferrite Antenna The technology is also applicable to miner-to-miner communications By University of Alabama
Published Medical Wheelchair Cushion Monitor The device relays whether the patient’s activities are in accordance with clinical guidelines for pressure relief, an estimate of the energy expended by the patient. By University of Alabama
Published Medical Molecule/Gene Identification The inventors have demonstrated that the model system is useful for identifying genes that are related to known PD affected kinases. By University of Alabama
Published Medical Insulin Aid It has the ability to co-inject peptide with insulin to increase insulin sensitivity and could lead to use of less insulin being required to generate desired effects By University of Alabama
Published Medical Sphere Aggregate Dissociator Initial studies comparing this method to enzymatic dissociators indicate increased cell output along with high quality. By University of Alabama
Published Medical Microcantilever The observer uses the consensus algorithm and the piezoelectric sensors as a multi-agent sensory system. By University of Alabama
Published Telecommunications M-Type Hexaferrite Antenna This antenna has demonstrated desired wideband properties in the 2.45 GHz range and with reasonable gain. By University of Alabama
Published Wearable Technology Helmet Collision Assessment The system will track by location in real time, allowing the user to determine which player specifically took the hit and how hard the hit was. By University of Alabama
Published Sciences Nanoparticle Synthesis Technology has the ability to modifty structure of the contrast agent into whiskers, plate or wire shapes. By University of Alabama
Published Multi Sector Mobile Device Antenna Experiments show increased resonance frequency, radiation efficiency and gain of the miniature ferrite antenna. By University of Alabama
Published Telecommunications Mobile Device Antenna Technique of applying a small DC magnetic field to a ferrite antenna substrate to reduce the magnetic loss and therefore improve the radiation efficiency. By University of Alabama
Published Telecommunications M-Type Hexaferrite Antenna. This antenna has demonstrated desired wideband properties in the 2.45 GHz range and with reasonable gain. By University of Alabama