Patent application number | Description | Published |
20130127609 | GRAPHIC DISPLAY APPARATUS - A graphic display apparatus within an automotive vehicle wherein the display apparatus includes at least two display units operable to display graphics and/or video, a wire connector connecting the at least two display units together, and a control system connected to the wire connector wherein the control system is operable to play video or graphics on the at least two display units. The display units are in communication with one another providing for a coordinated or synchronized display of graphics. If, by way of example, a firework explodes on the main display screen, the remnants of that single firework will be exploded onto the secondary display screens. Further, by way of example, scrolling text may scroll from one display screen to the other giving the synchronized impression to the user that the multiple display screens are similar to one large screen. | 05-23-2013 |
20130127876 | GRAPHIC DISPLAY APPARATUS - A graphic display apparatus within an automotive vehicle wherein the display apparatus includes at least two display units operable to display graphics and/or video, a wire connector connecting the at least two display units together, and a control system connected to the wire connector wherein the control system is operable to play video or graphics on the at least two display units. A method is provided to all the system to be universal for both audio and navigation systems wherein each system calls for a predetermined delay of the animation. The display units are in communication with one another providing for a coordinated or synchronized display of graphics. If, by way of example, a firework explodes on the main display screen, the remnants of that single firework will be exploded onto the secondary display screens. | 05-23-2013 |
20130224693 | METHOD OF DETECTION OF USER CONFUSION HAVING FOLLOW-UP INSTRUCTIONS - A method is disclosed for providing instructions to a user of a vehicle wherein the vehicle includes a plurality of sensors and a display screen. Instructions related to a vehicle operation are provided to the user by using the method comprising the steps of sensing by a sensor of a signal containing information regarding a condition indicative of confusion or human trigger of confusion, transmitting the signal containing the information regarding the confusion from the sensor to a processor, and then displaying instructions to the user on the display screen within the vehicle regarding how to remedy the confusion regarding the vehicle operation. The human trigger is sensed by a sensor or a plurality of sensors and includes detection of confusion when the vehicle user is pressing multiple buttons, incorrect buttons, pressing the same button multiple times, or a lack of pressing any buttons or triggers. | 08-29-2013 |
20130224721 | METHOD TO GRAPHICALLY DISPLAY A VEHICLE CONDITION - A method for graphically displaying a vehicle condition within an automotive vehicle is disclosed. The method includes the steps of receiving information from a sensor on a vehicle regarding a vehicle condition. The vehicle condition is measured against a predetermined level for that specified vehicle condition. The method then determines if the vehicle condition is above the predetermined level. If the vehicle condition is above the predetermined level, the method then transmits information regarding the vehicle condition to a processor connected to a display screen. The method then proceeds to graphically display the vehicle condition on a vehicle within the vehicle by means of a graphical replication of an image replication of the actual vehicle condition in the actual vehicle being used. | 08-29-2013 |
Patent application number | Description | Published |
20090013171 | COMPUTER DOCKING SYSTEM USING HARDWARE ABSTRACTION - One embodiment uses a virtual machine layer between software and hardware on both a portable computing device and on a docking station used by the portable computing device. A first virtual machine layer on the portable device is used to save the state of the portable device upon intermediate shutdown. Upon docking the portable device with the docking station, a second virtual machine layer on the docking station is loaded with the state of the first virtual machine. The second virtual machine layer is aware of the resources in the docking station and is programmed to utilize the docking station resources (and the portable computing device resources, as desired) to restore and continue the state while allowing the operating system, application programs and other software and hardware to utilize the resources of the docking station. | 01-08-2009 |
20090303072 | MULTI-USE LIGHT INDICATORS - An approach involving light use for multiple purposes in a portable computing device is disclosed. In one embodiment, a method can include: programming a visual state information indicator in a portable computing device; mapping the visual state information indicator to a light source and a parameter of a device module; receiving a monitoring signal from the device module, where the monitoring signal conveys a state of the parameter in real-time; and adjusting the light source in response to a comparison of the monitoring signal against the programmed visual state information indicator. | 12-10-2009 |
20090303073 | USER CONFIGURATION FOR MULTI-USE LIGHT INDICATORS - An approach involving light use for multiple purposes in a portable computing device is disclosed. In one embodiment, a method can include: accessing a user interface in a portable computing device; programming a visual state information indicator via the user interface; programming a monitoring signal that conveys a real-time state of a parameter associated with a device module; and linking the visual state information indicator to a light source and the parameter via the user interface, where the visual state information indicator is adjusted using the light source in response to a comparison of the monitoring signal against the programmed visual state information indicator. | 12-10-2009 |
Patent application number | Description | Published |
20110168898 | Systems and Methods for Emitting Radiant Energy - Field balancing may be performed with an irradiation system including a plurality of adjustable radiant-energy emitters. The irradiation system powers the radiant-energy emitters from a power source and radiant energy is emitted from the radiant-energy emitters, where an amount of radiant energy emitted from each emitter is capable of being varied based on power received from the power source. A plurality of radiant-energy sensors detects an amount of radiant energy which includes radiant energy created directly by at least one of the radiant-energy emitters. The amount of radiant energy detected at least two of the radiant-energy sensors is compared, and at least one of the radiant-energy emitters is adjusted by varying the power received from the power source so that the amount of radiant energy detected at each of the radiant-energy sensors tends towards becoming approximately equal. The emitting of radiant energy from each radiant-energy emitter is terminated when a total amount of radiant energy emitted from the plurality of adjustable radiant-energy emitters exceeds a predetermined threshold value, where the threshold value is sufficient to allow the total amount of radiant energy emitted from the plurality of adjustable radiant-energy emitters to sanitize a particular area in which the emitters are located. | 07-14-2011 |
20110280664 | Methods and apparatus for installing conduit underground - Apparatus and methods for forming an underground passageway and simultaneously laying therein a conduit or other elongate components comprises a rotary drill member coupled to a rotary and axially movable drill stem. The coupling is one which virtually automatically enables the drill stem to be coupled to and uncoupled from the drill member and comprises as one embodiment interlocking driving lugs carried by the drill stem and the drill member. The driving lugs are sandwiched between telescoped portions of the drill member and the drill stem and thereby are reinforced by such portions of the drill stem and the drill member in such manner as to preclude movement of the driving lugs in both radially inward and radially outward directions. Other couplings can be used. | 11-17-2011 |
20130280126 | SYSTEMS AND METHODS FOR EMITTING RADIANT ENERGY - Field balancing may be performed with an irradiation system including a plurality of adjustable radiant-energy emitters. The irradiation system powers the radiant-energy emitters from a power source and radiant energy is emitted from the radiant-energy emitters, where an amount of radiant energy emitted from each emitter is capable of being varied based on power received from the power source. A plurality of radiant-energy sensors detects an amount of radiant energy which includes radiant energy created directly by at least one of the radiant-energy emitters. The amount of radiant energy detected at at least two of the radiant-energy sensors is compared, and at least one of the radiant-energy emitters is adjusted by varying the power received from the power source so that the amount of radiant energy detected at each of the radiant-energy sensors tends towards becoming approximately equal. The emitting of radiant energy from each radiant-energy emitter is terminated when a total amount of radiant energy emitted from the plurality of adjustable radiant-energy emitters exceeds a predetermined threshold value, where the threshold value is sufficient to allow the total amount of radiant energy emitted from the plurality of adjustable radiant-energy emitters to sanitize a particular area in which the emitters are located. | 10-24-2013 |
20140374612 | SYSTEMS AND METHODS FOR EMITTING RADIANT ENERGY - Field balancing may be performed with an irradiation system including a plurality of adjustable radiant-energy emitters. The irradiation system powers the radiant-energy emitters from a power source and radiant energy is emitted from the radiant-energy emitters, where an amount of radiant energy emitted from each emitter is capable of being varied based on power received from the power source. A plurality of radiant-energy sensors detects an amount of radiant energy which includes radiant energy created directly by at least one of the radiant-energy emitters. The amount of radiant energy detected at at least two of the radiant-energy sensors is compared, and at least one of the radiant-energy emitters is adjusted by varying the power received from the power source so that the amount of radiant energy detected at each of the radiant-energy sensors tends towards becoming approximately equal. The emitting of radiant energy from each radiant-energy emitter is terminated when a total amount of radiant energy emitted from the plurality of adjustable radiant-energy emitters exceeds a predetermined threshold value, where the threshold value is sufficient to allow the total amount of radiant energy emitted from the plurality of adjustable radiant-energy emitters to sanitize a particular area in which the emitters are located. | 12-25-2014 |