Patent application number | Description | Published |
20110062913 | METHOD AND APPARATUS FOR CHARGING A BATTERY - A method and apparatus for identifying different types of energy sources used to charge a battery by receiving energy from at least one of the different types of energy sources at input terminals, identifying the type of energy source, and selecting a mode for charging the battery based on the type of energy source identified. A method and apparatus for protecting against certain energy sources used to charge a battery is also disclosed. | 03-17-2011 |
20110159939 | FIGHT ANALYSIS SYSTEM - A fight analysis system to objectively determine the quality and quantity of strikes in a fight. In one exemplary embodiment, one fighter wears a plurality of passive RFID tags at different locations that are read by a striking module (e.g., a knife) when the striking module lands on, or comes in proximity to, the fighter, to provide the location of a strike. Force sensors in the striking module enable determination of the type and force of a landed strike. In another exemplary embodiment, force sensors (e.g., pressure sensors used with fluid bladders) are used to determine both the location and the force associated with a landed strike. A graphical user interface module displays information gathered by the fight analysis system. | 06-30-2011 |
20120310390 | FIGHT ANALYSIS SYSTEM - A fight analysis system to objectively determine the quality and quantity of strikes in a fight. In one exemplary embodiment, one fighter wears a receiving module having a plurality of passive RFID tags at different locations that are read by a striking module (e.g., a knife) when the striking module lands on, or comes in proximity to, the receiving module, to provide the location of a strike. Force sensors in the striking module enable determination of the type and force of a landed strike. A graphical user interface module displays information gathered by the fight analysis system. | 12-06-2012 |
20130002545 | WEARABLE COMPUTER WITH CURVED DISPLAY AND NAVIGATION TOOL - Disclosed are systems, methods, and devices for interfacing with a wearable heads-up display via a touch-operable input device. The wearable heads-up display may include a display element for receiving and displaying display information received from a processor, and may also include a wearable frame structure supporting the display element and having a side-arm extending away from the display element. In some embodiments, the display information may appear at least partially curved to a user. In some embodiments, only a portion of the display information is shown on the at least one display element. The side-arm may be configured to secure the heads-up display to a user's body in a manner such that the display element is disposed within a field of view of the user. The touch-operable input device secured to the wearable frame structure is configured to sense at least one of a position and movement of a touch or finger along a planar direction relative to a surface of the input device, and to provide corresponding input information to the processor. A navigation tool may also be displayed on the at least one display element for indicating the location of the touch on the touch-operable input device. | 01-03-2013 |
20130002724 | WEARABLE COMPUTER WITH CURVED DISPLAY AND NAVIGATION TOOL - Disclosed are systems, methods, and devices for interfacing with a wearable heads-up display via a touch-operable input device. The wearable heads-up display may include a display element for receiving and displaying display information received from a processor, and may also include a wearable frame structure supporting the display element and having a side-arm extending away from the display element. In some embodiments, the display information may appear at least partially curved to a user. In some embodiments, only a portion of the display information is shown on the at least one display element. The side-arm may be configured to secure the heads-up display to a user's body in a manner such that the display element is disposed within a field of view of the user. The touch-operable input device secured to the wearable frame structure is configured to sense at least one of a position and movement of a touch or finger along a planar direction relative to a surface of the input device, and to provide corresponding input information to the processor. A navigation tool may also be displayed on the at least one display element for indicating the location of the touch on the touch-operable input device. | 01-03-2013 |
20130022220 | Wearable Computing Device with Indirect Bone-Conduction Speaker - Exemplary wearable computing systems may include a head-mounted display that is configured to provide indirect bone-conduction audio. For example, an exemplary head-mounted display may include at least one vibration transducer that is configured to vibrate at least a portion of the head-mounted display based on the audio signal. The vibration transducer is configured such that when the head-mounted display is worn, the vibration transducer vibrates the head-mounted display without directly vibrating a wearer. However, the head-mounted display structure vibrationally couples to a bone structure of the wearer, such that vibrations from the vibration transducer may be indirectly transferred to the wearer's bone structure. | 01-24-2013 |
20130094115 | METHOD AND APPARATUS FOR CHARGING A BATTERY - A method and apparatus for protecting against certain energy sources used to charge a battery is disclosed. | 04-18-2013 |
20140016800 | Wearable Computing Device with Behind-Ear Bone-Conduction Speaker - Apparatuses that provide a bone-conduction speaker arranged to be located behind the ear are described herein. An exemplary apparatus may include: (a) a glasses-style support structure comprising a front section and at least one side section; (b) at least one bone-conduction speaker; and (c) a member having a proximate end and a distal end, wherein the proximate end is attached to the at least one side section, and wherein the at least one bone-conduction speaker is attached to the member at or near the distal end; wherein the member is arranged on the at least one side section such that when the glasses-style support structure is worn the member: (a) extends to the anterior of the at least one side section and (b) locates the bone-conduction speaker posterior to an ear. | 01-16-2014 |
20150009309 | Optical Frame for Glasses and the Like with Built-In Camera and Special Actuator Feature - Optical glasses, as well as other eyewear, are provided with a frame that has a camera button located on a part of the glasses frame most preferably centered just above one of the lenses. | 01-08-2015 |