Search Results - jonathan+kao

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Method of Proficient Typing Using a Limited Number of Classes (Case No. 2024-063)
Summary: UCLA researchers in the Department of Electrical and Computer Engineering have developed a novel software algorithm to rapidly predict text using small keyboards for various applications, including mobile computing, gaming, and human-computer interactions. Background: Advancements in mobile computing have drastically changed everyday life...
Published: 11/6/2024   |   Inventor(s): Jonathan Kao, Shreyas Kaasyap, John Zhou, Johannes Lee, Nima Hadidi
Keywords(s): Advanced Computing / AI, advanced computing methods, all-optical diffractive computing, Artificial Neural Network, Artificial Neural Network Artificial Neuron, assistive communication, background radiation, Bandwidth (Computing), Brain computer interface, brain machine interface, Classroom management software, Cloud Computing, composite scintillators, Database management/data entry, deep physical neural network, design software, edge computing, fast scintillators, gamma spectroscopy, graph neural network, HCI (Human Computer Interaction), high-Z organometallics, Human/Brain computer interfaces (BCI/HCI), human-centered computing, material characterization, Medical science computing, mobile computing, modular robotic system, nanocomposite scintillators, neural network, neural networks, neutrino detection, Optical computing, positron emission tomography (PET), predictive text, primary school software, radiation detection, recurrent neural networks, Robotics, robotics control, scintillators, second harmonic generation, secondary school software, self-sustaining computing, soft robotics, Software, Software & Algorithms, Software Development Tools, Software-enabled learning, Spatial computing, Stochastic Computing (SC), T6 keyboard, T9 keyboard, visual computing, wafer-scale computing
Category(s): Software & Algorithms, Software & Algorithms > Artificial Intelligence & Machine Learning, Software & Algorithms > Communication & Networking
AI Copilot: Enhancing Brain-Machine Interface Performance (UCLA Case No. 2023-110)
Summary: UCLA researchers in the Department of Electrical and Computer Engineering have developed an artificial intelligence (AI) assistance framework for brain-machine interface (BMI) applications designed to enhance users' ability to complete tasks efficiently and swiftly. Background: Paralysis affects over 5 million individuals in the U.S.,...
Published: 7/30/2024   |   Inventor(s): Jonathan Kao, Brandon McMahan, Sangjoon Lee, Johannes Lee
Keywords(s): actor-critic networks, AI copilot, Artificial Intelligence, Artificial Neural Network, Brain-Computer Interface, brain-machine interface (BMI), deep reinforcement learning, integrated robotics, neural effort, neural information, neural signals, non-invasive BMI, Orthopedics and Prosthetics (O & P), Prosthesis, Prosthetics, Robotics
Category(s): Medical Devices, Medical Devices > Prosthetics, Mechanical, Mechanical > Robotics, Software & Algorithms, Software & Algorithms > Artificial Intelligence & Machine Learning, Electrical > Electronics & Semiconductors
2022-192 Software Simulation of Brain-Machine Interfaces
Summary: UCLA researchers in the Department of Electrical and Computer Engineering have developed an entirely software-based brain-machine interface (BMI) simulator that provides tools for the acceleration and optimization of BMI development. Background: Brain-machine interfaces (BMIs) provide a direct communication pathway between the brain’s...
Published: 8/19/2024   |   Inventor(s): Jonathan Kao, Ken-Fu Liang
Keywords(s): Brain-Computer Interface, Machine Learning, Simulation & Modeling, Software, Software Development Tools
Category(s): Software & Algorithms, Software & Algorithms > Artificial Intelligence & Machine Learning