Abstract: A system and method for extended spectrum ultrasound training using tags placed on animate and/or inanimate objects. The system combines the use of tags, a reader, and a 3-DOF motion tracker to train a user in finding image windows and optimal image views in an ultrasound simulation environment.

Abstract: An ultrasound system including an ultrasound machine and an ultrasound probe. The ultrasound probe includes an ultrasound transducer, ultrasound circuitry, a six degree of freedom (6-DOF) sensor, and a probe housing. The probe housing encases the ultrasound transducer and the 6-DOF sensor. By embedding motion-sensing technology directly within the housing of the ultrasound transducer, the position and orientation of the ultrasound probe can be tracked in an automated manner in relation to an indicator mark on the ultrasound screen. This allows assisting technologies to mitigate human error that arises from misalignment of the transducer indicator.

Abstract: A system and method for delivering psychomotor skill training, providing didactic instruction using an internet portal, tracking performance, and providing user feedback within a multisensory environment, serving as an integration for existing multimodal ultrasound training systems. This multisensory psychomotor skill training environment of the present invention would extend the existing described patented technologies by further adding realism through representation of virtual (digital) characters into a training scenario (e.g., pregnant patient), superimposing virtual (digital) guides or prompts onto actual real physical objects (e.g., anatomical landmarks or guides onto a mannequin or patient) embedding the training instruments within a broader virtual (digital) scenario (e.g., operating room). The ability to create these virtual, augmented, and mixed reality scenarios enables cost-effective, realistic, and improved training capabilities that mirror real-life training scenarios.

Abstract: An ultrasound system including an ultrasound machine and an ultrasound probe. The ultrasound probe includes an ultrasound transducer, ultrasound circuitry, a six degree of freedom (6-DOF) sensor, and a probe housing. The probe housing encases the ultrasound transducer and the 6-DOF sensor. By embedding motion-sensing technology directly within the housing of the ultrasound transducer, the position and orientation of the ultrasound probe can be tracked in an automated manner in relation to an indicator mark on the ultrasound screen. This allows assisting technologies to mitigate human error that arises from misalignment of the transducer indicator.

Abstract: A system and method that improves the speed and efficiency through which ultrasound practitioners acquire and develop essential basic ultrasound skills in a simulated environment without the need of actual patients or subjects. The system utilizes a simulator with an input device that manipulates a virtual transducer probe in a simulated 3D space to cut a slice through a basic shape. A 2D section of the cut plane is also displayed so that the practitioner can learn to relate 2D section with their 3D objects cut in cross-section.

Abstract: A system and method that improves the speed and efficiency through which ultrasound practitioners acquire and develop essential basic ultrasound skills in a simulated environment without the need of actual patients or subjects. The system utilizes a simulator with an input device that manipulate a virtual transducer probe in a simulated 3D space to cut a slice through a basic shape. A 2D section of the cut plane is also displayed so that the practitioner can learn to relate 2D section with their 3D objects cut in cross-section.

Abstract: A method for training an ultrasound user with a hand-held device having one or more first sensors to detect angular orientation of the device in one or more dimensions, and at least one two-dimensional surface device having one or more second sensors to detect translational position of the hand-held device in one or more directions, which communicates the angular orientation data from the hand-held device and the translational position data from the at least one surface device to a computer to display a virtual environment with a virtual hand-held device that moves in correlation with the hand-held device based on the angular orientation data from the hand-held device and the translational position data from the at least one surface device.

Abstract: A system for creating customized learning content for ultrasound simulators using materials from an existing library of curated content including images, volumetric data sets, and metadata, or otherwise acquired, overcoming numerous challenges to ultrasound education and training, including the ability to seamlessly create real-patient based ultrasound training curriculum, the creation of an expansive library that that represents multiple pathologic conditions, and the dissemination of training content to multiple users in an asynchronous manner.

Abstract: A system and method for converting a commercial diagnostic ultrasound transducer into a medical training device that is used for simulated ultrasound training; or a system and method for adding a training option to a standard ultrasound diagnostic system by attaching a motion sensor accessory to the commercial diagnostic ultrasound transducer.

Abstract: A method for manipulating a remote device with a hand-held device having one or more first sensors to detect angular orientation of the device in one or more planes, and at least one two-dimensional surface device having one or more second sensors to detect translational position of the hand-held device in one or more directions, which communicates the angular orientation data from the hand-held device and the translational position data from the at least one surface device to the remote device, and positions the remote device based on the angular orientation data from the hand-held device and the translational position data from the at least one surface device.

Abstract: This invention describes a system and method for simulating a needle-based medical procedure for purposes of education and training. The described invention has a variety of medical training and assessment applications and can integrate and enhance a variety of existing medical simulation and assessment processes and technologies. The described device is designed to operate in the form of a needle and syringe, and will measure the orientation and penetration depth of the needle and contains all the necessary hardware to transmit this information to a remote installation that can process and visualize the data within a computer-based training device.

Abstract: A method and system for ultrasound simulation for training purposes. The system comprises a probe assembly, an electronic tag, and a translation sensor. The probe assembly comprises an orientation sensor to detect movement with three degrees of freedom. The translation sensor offers two additional degrees of freedom of movement detection. The probe assembly also has a transponder reader that when placed adjacent to the electronic tag, can communicate with a transponder within the electronic tag. Electronic tag has adhesive that allows the electronic tag to be a fixed to a subject, whether a live being or an inanimate mannequin. The information collected from the transponder is transmitted to the computing device to provide a simulated environment that mimics the use of an actual ultrasound probe to give the user a realistic experience using an ultrasound machine.

Abstract: A system and method for extended spectrum ultrasound training using tags placed on animate and/or inanimate objects. The system combines the use of tags, a reader, and a 3-DOF motion tracker to train a user in finding image windows and optimal image views in an ultrasound simulation environment.

Abstract: A co-registration and navigations system in which 3D and/or 2D ultrasound images are displayed alongside virtual images of a patient and/or CT or MRI scans, or other similar imaging techniques used in the medical field.

Abstract: A method for manipulating a remote device with a hand-held device having one or more first sensors to detect angular orientation of the device in one or more planes, and at least one two-dimensional surface device having one or more second sensors to detect translational position of the hand-held device in one or more directions, which communicates the angular orientation data from the hand-held device and the translational position data from the at least one surface device to the remote device, and positions the remote device based on the angular orientation data from the hand-held device and the translational position data from the at least one surface device.

Abstract: A system and method that improves the speed and efficiency through which ultrasound practitioners acquire and develop essential basic ultrasound skills in a simulated environment without the need of actual patients or subjects. The system utilizes a simulator with an input device that manipulate a virtual transducer probe in a simulated 3D space to cut a slice through a basic shape. A 2D section of the cut plane is also displayed so that the practitioner can learn to relate 2D section with their 3D objects cut in cross-section.

Abstract: The present invention teaches a medical procedure training system based on a PC platform that provides multimodal education within a virtual environment. The system integrates digital video, three-dimensional modeling, and force-feedback devices for the purpose of training medical professionals medical procedures.

Abstract: An ultrasound training system having a data capture module, a digital asset management module, a validation module, didactic content, a media asset production module, an integration layer, an internet-based portal, a software client, and a peripheral probe. The combination of the disclosed elements creates a system that enables the creation and delivery of high-quality ultrasound education and training in a low-cost, widely deployable, and scalable manner, with a facilitated method for processing orders and financial transactions between customers and content providers.

Abstract: An enhanced six degree of freedom spatial inertial measuring device capable of measuring translational movement along three orthogonal axes and rotational movement about the same, and in addition, being capable of measuring compression along at least one orthogonal axis. The device serves to provide adequate control for software applications where inertial tracking and compressive force feedback along at least one axis is desired. A probe, which accurately simulates ultrasound imaging, and therefore functions as a teaching tool is one such application.

Abstract: An ultrasound system including an ultrasound machine and an ultrasound probe. The ultrasound probe includes an ultrasound transducer, ultrasound circuitry, a six degree of freedom (6-DOF) sensor, and a probe housing. The probe housing encases the ultrasound transducer and the 6-DOF sensor. By embedding motion-sensing technology directly within the housing of the ultrasound transducer, the position and orientation of the ultrasound probe can be tracked in an automated manner in relation to an indicator mark on the ultrasound screen. This allows assisting technologies to mitigate human error that arises from misalignment of the transducer indicator.