American GNC Corporation Patent applications |
Patent application number | Title | Published |
20140288896 | Gyrocompass modeling and simulation system (GMSS) and method thereof - A Modeling, Design, Analysis, Simulation, and Evaluation (MDASE) aspects of gyrocompassing in relation to Far-Target Location (FTL) systems include a Gyrocompass Modeling and Simulation System (GMSS). The GMSS is a modularized software system which has four major components: the 6DOF Motion Simulator, the IMU Sensor Simulator, the Gyrocompass System and Calibration Process Simulator, the Gyrocompass System Evaluation and Analysis Module. Each module has one or two graphic user interfaces (GUIs) as user interfaces for simulation components selection and parameter setting. The realization of the GMSS is based on any computer platforms, for it is written in high level language and tools and is portable. The stochastic signal analysis and sensor testing and modeling tools includes a suite of generic statistical analysis software, including Allan Variance and PSD analysis tools, which are available to every GMSS module and greatly enhanced the system functionality. | 09-25-2014 |
20130212049 | Machine Evolutionary Behavior by Embedded Collaborative Learning Engine (eCLE) - This patent develops and demonstrates the technology required for constructing machine evolutionary behavior within systems to enable evolving learning capability for autonomous recognition of new emerging behaviors. A purpose of this technology is to provide a formal methodology and implementation for adding new knowledge, which results from the automated recognition of new patterns (behaviors) within systems. Key characteristic of the “Machine Evolutionary Behavior by Embedded Collaborative Learning engine” consist on operating with an ensemble of learning paradigms, which when instantiated work in a collaborative way. The resulting framework compiles the inherent advantages of the involved methods, but also a synergetic behavior is obtained when working in a collaborative fashion. | 08-15-2013 |
20130012821 | Robotic module for natural orifice transluminal endoscopic surgery (NOTES) - A miniature in-vivo robotic module to be used for conducting dexterous manipulations on organs and other target entities in a patient's abdominal or peritoneal cavity as part of Natural Orifice Transluminal Endoscopic Surgery (NOTES) is disclosed in this invention. The robotic module is a serial manipulator consisting of seven cylindrical links and six actively controllable rotational degrees of freedom, thereby enabling an end effector equipped with a laparoscopic type instrument to assume a commanded position and orientation within the robot's workspace. After overtube navigation starting from a natural orifice or preexisting wound, the module must be anchored and guided to a designated location along the inner abdominal cavity wall. This is accomplished via magnetic coupling forces between internal embedded magnets and magnets fixed to the end of a different robotic manipulator located external to the patient. | 01-10-2013 |