Patent application number | Description | Published |
20090267783 | Shoe Wear-Out Sensor, Body-Bar Sensing System, Unitless Activity Assessment and Associated Methods - A shoe wear out sensor ( | 10-29-2009 |
20100076692 | Movement And Event Systems And Associated Methods - A method for monitoring fractional weight supported by one foot of a person, comprising the steps of adhering a movement monitor device underneath the foot such that the device is compressed when weight is applied to the foot; generating wireless signals representative of a target fractional weight of a total weight of the person; remotely receiving the wireless signals as information of the fractional weight. A method of monitoring weight of a person, comprising the steps of arranging one or more weight sensitive detectors underneath a foot of the person; processing signals from the detectors to determine weight; and wirelessly communicating the weight to a remote receiver. | 03-25-2010 |
20100225763 | EVENT AND SPORT PERFORMANCE METHODS AND SYSTEMS - Methods and apparatus are disclosed for detecting and measuring performance characteristics and metrics of participants and vehicles. These performance characteristics and metrics include, but not are limited to, airtime, g-force, spin, rotation, drop distance, acceleration, and video and still images. These vehicles include, but are not limited to a snowboard, ski, skateboard, wakeboard, motorcycle, bicycle, ice skates and rollerblades. In one implementation, a camera provides near real-time images and video footage of a participant's actions on a vehicle which can be correlated with performance metrics. The camera may be located on the participant, the participant's vehicle or other equipment, or from some other observation point. The images recorded by the camera can be downloaded to a recording or other storage device to produce memorabilia (e.g., a CD ROM, or video cassette). If desired, the images can be sent in real-time through an event system and network (e.g., using a radio or other transmitter) to television, the Internet, and to other locations for producing the memorabilia or for providing images to television display devices, such as those located in a ski lodge for entertainment purposes or in a coach's or personal trainer's office for training purposes. | 09-09-2010 |
20100323615 | Security, Safety, Augmentation Systems, And Associated Methods - A mobile device has a datalog module that captures multimedia data at the mobile device and transmits the multimedia data through cell networks to a control center. The mobile device may also include a GPS sensor wherein location information is included within the multimedia data. A mobile device has a motion module that, when activated at the mobile device or through a cell network, disables communications through the mobile device when in motion. A system disables operation of a mobile device by a vehicle operator and includes a transmitter within the vehicle that generates a disabling signal that, when received by a safety receiver within the mobile device, disables operation of the mobile device. A mobile device has a microphone, and a voice augmentation module which is selectively activated to augment voice data spoken into the mobile device, by removing background noise and/or replacing or changing voice data. | 12-23-2010 |
20100332188 | MOBILE IMAGE CAPTURE SYSTEM - A mobile image capture system, a system comprising: a sensing unit for attaching to a vehicle, the sensing unit having a camera constructed and arranged to view a participant on the vehicle, the camera capturing at least one image; and processing electronics for storing data representing the captured at least one image or for relaying data representing the captured at least one image to a computer or a network. | 12-30-2010 |
20110140890 | SHOE WEAR-OUT SENSOR, BODY-BAR SENSING SYSTEM, UNITLESS ACTIVITY ASSESSMENT AND ASSOCIATED METHODS - A shoe wear out sensor includes at least one detector for sensing a physical metric that changes as a sole of a shoe wears out, a processor configured to process the physical metric over time to determine if the shoe is worn out, and an alarm for informing a user of the shoe when the sole is worn out. A body bar sensing system includes a housing with at least one detector for sensing a physical metric that indicates a repetition movement of the housing when attached to the body bar, a processor for processing the physical metric over time to determine repetitions thereof, and a display for informing a user of the repetitions. A system assesses activity and displays a unitless activity value. A detector senses activity of a user. A processor reads sensed activity data from the detector. A display displays the unitless activity value. An enclosure houses the detector and the processor. The processor periodically reads the sensed activity data from the detector and processes the data to generate an activity number, the number being used to generate the unitless activity value based upon a maximum number and a display range. | 06-16-2011 |
20120143514 | Movement Monitoring Device For Action Sports, And Associated Methods - A movement monitoring device (MMD) for action sports has a detector for sensing motion associated with action sports, a processor for processing data from the detector to determine one or more movement metrics, and a communications port for wirelessly relaying the movement metrics to a remote location. A method collects motion data within action sports, including: detecting motion of a person or object engaged in action sports; determining one or more events associated with the motion; and wirelessly relaying the events to a remote network. One MMD for action sports is formed within a cell phone having a detector for sensing motion associated with action sports and a processor for processing data from the detector to determine one or more movement metrics for (a) display to a person using carrying the cell phone during action sports or (b) relaying the movement metrics to an external network for review by others. | 06-07-2012 |
20120150483 | Machine Logic Airtime Sensor For Board Sports - An airtime sensor for board sports includes a detector for generating signals representative of vibration associated with motion of a board sports vehicle along a surface. State machine logic filters the signals through a first low pass filter, filters the signals through a second low pass filter, and combines filtered signals from the first and second low pass filters to determine airtime. | 06-14-2012 |
20120265477 | System For Determining Helmet Temperature And Events - A system for determining events of a helmet includes a helmet body, at least one detector configured with the helmet body for generating a signal in response to a detected metric and a processor for processing signals from the detector to identify detected metrics that pass a predetermined metric threshold. In particular, a system for determining helmet temperature includes a helmet body, at least one temperature sensor configured with the helmet body, for sensing temperature within the helmet, and a for processing signals from the temperature sensor to identify temperatures that exceed a predetermined temperature threshold. | 10-18-2012 |
20130021152 | SHOE WEAR-OUT SENSOR, BODY-BAR SENSING SYSTEM, UNITLESS ACTIVITY ASSESSMENT AND ASSOCIATED METHODS - A body bar sensing system for sensing movement of a body bar may be provided. The body bar sensing system may include a housing having a coupling mechanism operative to couple to the body bar, a detector disposed within the housing and operative to sense movement of the body bar when the housing is coupled to the body bar, and a processor operative to determine a number of repetitions of the movement based on the sensed movement. The body bar sensing system may also include a display operative to display the determined number of repetitions of the movement to a user. | 01-24-2013 |
20140058546 | EVENT AND SPORT PERFORMANCE METHODS AND SYSTEMS - Methods and apparatus are disclosed for detecting and measuring performance characteristics and metrics of participants and vehicles. These performance characteristics and metrics include, but not are limited to, airtime, g-force, spin, rotation, drop distance, acceleration, and video and still images. These vehicles include, but are not limited to a snowboard, ski, skateboard, wakeboard, motorcycle, bicycle, ice skates and rollerblades. In one implementation, a camera provides near real-time images and video footage of a participant's actions on a vehicle which can be correlated with performance metrics. The camera may be located on the participant, the participant's vehicle or other equipment, or from some other observation point. The images recorded by the camera can be downloaded to a recording or other storage device to produce memorabilia (e.g., a CD ROM, or video cassette). If desired, the images can be sent in real-time through an event system and network (e.g., using a radio or other transmitter) to television, the Internet, and to other locations for producing the memorabilia or for providing images to television display devices, such as those located in a ski lodge for entertainment purposes or in a coach's or personal trainer's office for training purposes. | 02-27-2014 |
20140257539 | MOBILE IMAGE CAPTURE SYSTEM - A mobile image capture system, a system comprising: a sensing unit for attaching to a vehicle, the sensing unit having a camera constructed and arranged to view a participant on the vehicle, the camera capturing at least one image; and processing electronics for storing data representing the captured at least one image or for relaying data representing the captured at least one image to a computer or a network. | 09-11-2014 |
20140288856 | SHOE WEAR-OUT SENSOR, BODY-BAR SENSING SYSTEM, UNITLESS ACTIVITY ASSESSMENT AND ASSOCIATED METHODS - A system assesses activity and displays a unitless activity value. A detector senses activity of a user. A processor reads sensed activity data from the detector. A display displays the unitless activity value. An enclosure houses the detector and the processor. The processor periodically reads the sensed activity data from the detector and processes the data to generate an activity number, the number being used to generate the unitless activity value based upon a maximum number and a display range. | 09-25-2014 |