Patent application number | Description | Published |
20080222659 | ABSTRACTING OPERATING ENVIRONMENT FROM OPERATING SYSTEM - The present invention extends to methods, systems, and computer program products for abstracting an operating environment from an operating system running in the operating environment. Within an operating environment, an operating environment abstraction layer abstracts and exposes operating environment resources to an operating system. Accordingly, appropriately configured operating environment abstraction layers provide the operating system with a uniform interface to available resources across a variety of different operating environments. Each operating environment abstraction layer and the operating system include adjustable algorithms that can be adjusted to appropriately provide services to requesting applications based on exposed resources of the operating environment. Abstraction layers can be configured to analyze and become fully aware of their operating environment, including identifying the presence of other abstraction layers. An operating system and corresponding abstraction layer can be run in flexible combinations of privileged and unprivileged processor modes. | 09-11-2008 |
20140185457 | COST-EFFECTIVE MOBILE CONNECTIVITY PROTOCOLS - Structures and protocols are presented for signaling a status or decision concerning a wireless service or device within a region to a network participant or other communication device (smartphone or motor vehicle, e.g.). | 07-03-2014 |
20140187145 | COST-EFFECTIVE MOBILE CONNECTIVITY PROTOCOLS - Structures and protocols are presented for signaling a status or decision concerning a wireless service or device within a region to a network participant or other communication device (smartphone or motor vehicle, e.g.). | 07-03-2014 |
20140187161 | COST-EFFECTIVE MOBILE CONNECTIVITY PROTOCOLS - Structures and protocols are presented for signaling a status or decision concerning a wireless service or device within a region to a network participant or other communication device (smartphone or motor vehicle, e.g.). | 07-03-2014 |
20140187279 | COST-EFFECTIVE MOBILE CONNECTIVITY PROTOCOLS - Structures and protocols are presented for signaling a status or decision concerning a wireless service or device within a region to a network participant or other communication device (smartphone or motor vehicle, e.g.). | 07-03-2014 |
20140189846 | COST-EFFECTIVE MOBILE CONNECTIVITY PROTOCOLS - Structures and protocols are presented for signaling a status or decision concerning a wireless service or device within a region to a network participant or other communication device (smartphone or motor vehicle, e.g.). | 07-03-2014 |
20140262127 | MANAGEMENT OF EXTERIOR TEMPERATURES ENCOUNTERED BY USER OF A PORTABLE ELECTRONIC DEVICE - Described embodiments include a portable electronic device. The device includes a shell housing components of the portable electronic device having a heat-generating component. The device includes a heat-rejection element located at an exterior surface of the shell. The heat-rejection element is configured to reject heat received from the heat-generating component into an environment in thermal contact with the heat-rejection element. The device includes a controllable thermal coupler configured to regulate heat transfer to the heat-rejection element. The device includes a proximity sensor configured to determine a location of a user touch to the shell relative to the location of the heat-rejection element. The device includes a thermal manager configured to regulate heat transfer by the controllable thermal coupler to the heat-rejection element in response to the determined location of the user touch relative to the location of the heat-rejection element. | 09-18-2014 |
20140262128 | MANAGEMENT OF EXTERIOR TEMPERATURES ENCOUNTERED BY USER OF A PORTABLE ELECTRONIC DEVICE USING MULTIPLE HEAT-REJECTION ELEMENTS - Described embodiments include a portable electronic device. The device includes a shell and a heat-generating component. The device includes a first and a second exterior heat-rejection element. Each heat-rejection element is configured to reject heat received from the heat-generating component into an environment. The device includes a controllable thermal coupler configured to regulate heat transfer to the first and second heat-rejection elements. The device includes a first proximity sensor configured to determine if a user touch to the shell is within a first zone of possible heat discomfort. The device includes a thermal manager configured to regulate heat transfer by the controllable thermal coupler to the first and second heat-rejection elements. The regulated heat transfer includes adjusting heat rejection away from the first heat-rejection element and toward the second heat-rejection element if the user touch is within the first zone. | 09-18-2014 |
20140266405 | MANAGEMENT OF EXTERIOR TEMPERATURES ENCOUNTERED BY USER OF A PORTABLE ELECTRONIC DEVICE BY REDUCING HEAT GENERATION BY A COMPONENT - Described embodiments include a portable electronic device. The device includes a shell housing components of the portable electronic device and a heat-generating component. The device includes a contact sensor configured to determine a user touch to the shell. The device includes a temperature sensor configured to determine an exterior temperature of the shell. The device includes a thermal manager configured to reduce the exterior shell temperature by regulating heat generation by the heat-generating component. The regulating heat generation is responsive to the determined user touch and the measured determined temperature of the shell. | 09-18-2014 |
20140268573 | MANAGEMENT OF EXTERIOR TEMPERATURES ENCOUNTERED BY USER OF A PORTABLE ELECTRONIC DEVICE IN RESPONSE TO AN INFERRED USER CONTACT WITH THE PORTABLE ELECTRONIC DEVICE - Described embodiments include a portable electronic device. The device includes a shell housing components of the portable electronic device having a heat-generating component. The device includes a heat-rejection element located at an exterior surface of the shell. The heat-rejection element is configured to reject heat received from the heat-generating component into an environment in thermal contact with the heat-rejection element. The device includes a controllable thermal coupler configured to regulate heat transfer to the heat-rejection element. The device includes an activity monitor configured to infer a user touch to the shell in response to a detected activity of the portable electronic device. The device includes a thermal manager configured to regulate heat transfer by the controllable thermal coupler to the heat-rejection element in response to the inferred user touch. | 09-18-2014 |