Abstract: An apparatus for simulating hand tremors caused by Essential Tremor and Parkinson's disease which may also be used as part of a therapeutic program in association with surgically implanted stem cells introduced into a patient's substantia nigra.

Abstract: A device for training users in a proper mixing of pharmaceutical components, or for aiding in the mixing, or for performing the mixing, and administration of pharmaceutical components is disclosed. The device comprises a housing for receiving a pharmaceutical delivery device containing the pharmaceutical components. There is also a microcontroller disposed in the housing and a motion/orientation detection device disposed within or on the housing and in communication with the microcontroller. A method for use of the device is also disclosed, along with a substance for use as one of the pharmaceutical components.

Abstract: The invention relates to an optical measurement system (10) and measurement method for coaching an individual. The optical measurement system comprises a cloud database (8), a wireless communication device (7) and a vertical self-supporting equipment box (2) comprising a data processing device (20) comprising a computer program configured to measure ground contact and/or reaction time and position of a body part (1a) of a person (1) within a predetermined reaction area (6).

Abstract: An injection aid system and a social aid system having a computing system with at least one processor and a memory device. The computing system can be configured to generate a at least one of a virtual environment and an augmented environment. A display device can be coupled to the computing system and configured to visually display the environment. The injection aid system can further include an injection tool and a treatment target configured to receive a simulated injection by the injection tool. The injection tool can have a needle and a plunger.

Abstract: In one aspect, a task management computing device is provided, including a processor in communication a memory and a database. The task management computing device is configured to receive a task request including a task description and a virtual point value, and store a task record in the database based on the task request. The task management computing device is further configured to receive a task update indicating the task has been completed, and update a household member profile stored in the database based on the task update including increasing a virtual point balance. The task management computing device is also configured to update the associated task record based on the task update, and store the updated household member profile and the updated task record in the database.

Abstract: Embodiments include methods, systems, and computer program products for modifying driving behavior. Aspects include obtaining driving data for a driver. Then developing, by a processor, a driving profile based on the driving data for the driver, wherein the driving profile includes one or more driving behaviors. Aspects also include obtaining location data for the driver and obtaining a set of driving rules from one or more databases based upon the location data for the driver. Additionally, aspects include comparing, by the processor, the driving profile to the set of driving rules to derive a set of suggested driving changes.

Abstract: Systems, devices, and methods are provided for reducing a risk of unintentional falls in a subject that is at risk for falls. The device includes a sensor and a stimulator. The sensor is configured to be positioned adjacent a body portion of the user that changes orientation when the user sits and stands. The sensor is also configured to emit an activation signal when the user stands and to emit a deactivation signal when the user sits or lies down. The stimulator is in communication with the sensor and is configured to be positioned adjacent one of a calf and a lower back of the user. The stimulator is configured to vibrate at a frequency that stimulates proprioceptors of the user without inducing muscle contractions upon receipt of the activation signal from the sensor and to cease vibration upon receipt of the deactivation signal from the sensor.

Abstract: Described is a dynamic phantom. The phantom comprises a body having a front, a back, and an internal cavity between the front and the back, the body having a movable chest wall. The phantom also comprises a first motion mechanism that is actuated to move the chest wall to thereby move the front relative to the back of the body. The phantom also comprises a moveable organ member supported within the internal cavity that is caused to move relative to the body by a second motion mechanism. The phantom also comprises a drive source for driving the first and second motion mechanisms, wherein the first and second motion mechanisms move the chest wall and the moveable organ member to substantially represent their movement in a human body.

Abstract: Provided herein are systems and methods for shooting simulation of a target with a projectile. More particularly, the invention relates to virtual reality optical projection systems to monitor and simulate shooting.

Abstract: A system configured to provide feedback to a user in order to motivate said user to reach one or more energy expenditure goals. The one or more energy expenditure goals may be associated with one or more of time periods, or activity sessions, and the feedback may be provided to a user using one or more of a visual display on a sensor device worn by a user, and/or using audible and haptic feedback.

Abstract: Systems, devices, and methods are provided for reducing a risk of unintentional falls in a subject that is at risk for falls. The device includes a sensor and a stimulator. The sensor is configured to be positioned adjacent a body portion of the user that changes orientation when the user sits and stands. The sensor is also configured to emit an activation signal when the user stands and to emit a deactivation signal when the user sits or lies down. The stimulator is in communication with the sensor and is configured to be positioned adjacent one of a calf and a lower back of the user. The stimulator is configured to vibrate at a frequency that stimulates proprioceptors of the user without inducing muscle contractions upon receipt of the activation signal from the sensor and to cease vibration upon receipt of the deactivation signal from the sensor.

Abstract: A method of preparing a wound model. The method includes simulating a non-healing wound edge, simulating eschar, simulating a fibrin layer, simulating biofilm, and simulating foreign debris.

Abstract: This disclosure relates to systems, media, and methods for quantifying and monitoring visual acuity, motor skill, and cognitive ability of a user through measuring user activities while the user responds to prompts on an electronic device. Disclosed embodiments may receive image data from a user-facing camera, motion data from a sensor device attached to the user, location data from a touchscreen, and time data measuring a user's response times. Disclosed embodiments may provide graphical user interfaces to which the user responds and calculate health metrics based on characteristics of the user's response. Disclosed embodiments may calculate visual acuity, motor skill, and cognitive ability metrics based on data measured while the user responds to the graphical user interfaces. Disclosed embodiments may include comparing the metrics to respective baseline values and providing an alert when the metrics deviate from threshold values indicating a change in user health.

Abstract: A Braille user interface for a Braille communication system on a touch screen-enabled electronic device with a touch screen and a touch screen-enabled interface. A user inputs a six-bit Braille character composed of raised dots and non-raised dots. Raised dot are created by a swipe in a first direction (say right) while non-raised dots may be created by a swipe in a second direction (say left). Swiping may be performed on an input area of the touch screen which is smaller than the touch screen. The user is offered an opportunity to perform a character check of entered Braille characters. A character check may include playing back the entered character and then offering the user the option of correcting that entered character.

Abstract: Methods, computer-readable media, software, and apparatuses provide an interactive application, such as a video game, that presents gaming and driving challenges to facilitate improvement of driving skills and development of safe driving behavior. Drive data may be collected while a user is driving a vehicle and the drive data may be used to define a graphically simulated virtual world. A drive score may also be calculated based on the drive data. Portions of the graphically simulated virtual world may be unlocked based on the drive score. Also, attributes of a character within the graphically simulated virtual world may be modified based on the drive score.

Abstract: An attachment firearm training device (10) for attachment to a firearm, firearm simulator, or firearm replica having a firearm body (12) includes motion detection hardware to acquire data associated with motion of the firearm body during a dry-firing or live-firing training session. The motion detection hardware includes one or more accelerometers and/or one or more gyroscopes. Other suitable motion detection hardware may also be included. A motion signal representative of actual movement of the firearm body is used to generate one or more motion path lines that are displayed on a display. Each motion path line is representative of the actual motion of the firearm body before a shot, during a shot, during recoil, and/or after recoil so a user may analyze whether desired motion of the firearm body is actually being achieved.

Abstract: The “Reality Driver Education System” (RDES) combines different friction surfaces of an outdoor driving training area which extends a minimal length of 600 feet, and further comprises waterjet hazards and computer-generated, “augmented reality” images. RDES may be performed with the actual personal vehicle owned by driver or used in his/her employment. Several field devices and sensors integral to the training area send signals to a portable computer, which generate a variety of augmented and real driving hazards, including “water curtains,” to a head-mounted display worn by the driver. The driver/trainee drives the vehicle through various stages and simulations, thus exposing him/her to challenging emergency situations. Failing to perform proper maneuvers will likely result in losing control of the vehicle and probable spin-outs or sliding. Applying adequate steering, braking, and/or acceleration corrections will result in successful execution of each scenario.

Abstract: Disclosed herein is a system for testing motor skills involved in locomotor, non-locomotor, and manipulative activities. The system utilizes joint data created by a motion sensor during a subject's performance of an activity to determine the subject's motor skill proficiency for that activity. The system compares the subject's joint data to benchmark data to detect one or more phases of the activity. Based on the comparison, the system also determines the subject's proficiency in the particular motor skill tested. The system is embodied in a computer-implemented application that provides various user interfaces for navigating through the user interfaces, accessing a database of the system, testing a subject's motor skills, analyzing a subject's proficiency, and facilitating practice of motor skills.

Abstract: In an approach for providing dynamic services a computer receives a dietary plan for an individual. The computer tracks physical activity data for the individual. The computer creates one or more propositions for the individual based at least in part on the received dietary plan and the tracked physical activity data. The computer provides the created one or more propositions to the individual. The computer receives a selection from the created one or more propositions. The computer tracks the received selection.

Abstract: A medical training system comprises a controller configured to program a plurality of medical device simulators, and a plurality of medical device simulators coupled to the controller, including at least two of a sphygmomanometer simulator, pulse simulator, thoracic cavity simulator, scale and stadiometer simulator, pulse oximetry simulator, and thermometer simulator. The plurality of medical device simulators form a suite of coordinating diagnostic medical simulators for live training and evaluation.