Patent application number | Description | Published |
20120324196 | MEMORY MANAGER WITH ENHANCED APPLICATION METADATA - A memory management system is described herein that receives information from applications describing how memory is being used and that allows an application host to exert more control over application requests for using memory. The system provides an application memory management application-programming interface (API) that allows the application to specify more information about memory allocations that is helpful for managing memory later. The system also provides an ability to statically and/or dynamically analyze legacy applications to give applications that are not modified to work with the system some ability to participate in more effective memory management. The system provides application host changes to leverage the information provided by applications and to manage memory more effectively using the information and hooks into the application's use of memory. Thus, the system provides a new model for managing memory that improves application host behavior and allows applications to use computing resources more efficiently. | 12-20-2012 |
20120324259 | POWER AND LOAD MANAGEMENT BASED ON CONTEXTUAL INFORMATION - A power context system is described herein that makes decisions related to device power usage based on factors such as location, load, available alternatives, cost of power, and cost of bandwidth. The system incorporates contextual knowledge about the situation in which a device is being used. Using the context of location, devices can make smarter decisions about deciding which processes to migrate to the cloud, load balancing between applications, and switching to power saving modes depending on how far the user is from a power source. As the cloud becomes more frequently used, load balancing by utilizing distributed data warehouses to move processes to different locations in the world depending on factors such as accessibility, locales, and cost of electricity are considerations for power management. Power management of mobile devices is becoming important as integration with the cloud yields expectations of devices being able to reliably access and persist data. | 12-20-2012 |
20130067209 | BOOTING DEVICES VIA THE CLOUD - Methods, systems, and computer program products are provided for automatically installing an operating system on a computing device that does not have an operating system pre-installed. Identifying information for the computing device is collected from a resource of the computing device. The identifying information is transmitted to a remote service. An indication is received of an operating system for the computing device selected by the remote service based on the identifying information. The selected operating system is downloaded for installation on the computing device. | 03-14-2013 |
20130069982 | ADJUSTING USER INTERFACES BASED ON ENTITY LOCATION - The present invention extends to methods, systems, and computer program products for adjusting user interfaces based on entity location. Embodiments of the invention provide applications (or an operating system) with entity distance/proximity data. Applications can then scale content appropriately based on the proximity data. An operating system contains a distance/proximity driver framework for distance/proximity aware hardware sensors (IR, Radar, capacitive, camera, other). The proximity framework performs distance/proximity/number of viewers calculations from sensor data to formulate proximity data. From the proximity data, an application can determine how to scale user interface data. | 03-21-2013 |
20130151983 | ADJUSTING USER INTERFACE SCREEN ORDER AND COMPOSITION - The present invention extends to methods, systems, and computer program products for user interface screen order and composition. Embodiments of the invention include using historical data and/or contextual data to augment, rearrange, or reconfigure menus and/or screen flows and add/remove/hide/expose content and functionality for users. Screen flow adjustments are formulated based on historical data and/or contextual data. The formulated adjustments facilitate more appropriate access to specified user interface elements within a screen flow in view of indentified user interface elements of interest. The screen flow is adjusted in accordance with the formulated adjustments to facilitate more appropriate access to the specified user interface elements. | 06-13-2013 |
20130152001 | ADJUSTING USER INTERFACE ELEMENTS - The present invention extends to methods, systems, and computer program products for adjusting user interface elements. Embodiments of the invention can adjust the size, shape, and position of user interface elements and whitespace based on historical usage data. Adjustments can reduce the cognitive load associated with selecting some user interface elements. In dangerous environments, such as, for example, a moving vehicle, reducing the cognitive load allows a user to pay attention to other matters, such as, for example, safely operating the moving vehicle. Historical usage data can originate from one or more users and one or devices. Adjustment limits can be used to insure user interfaces remain appropriately usable. User interface element adjustments can be used to optimize a user interface and/or influence user interactions with a user interface. | 06-13-2013 |
20130227424 | Web-Based Interaction With a Local System - Systems, methods, and computer program products for facilitating web-based interaction with a local system are disclosed. Such systems, methods, and computer program products provide an approach that allows a web client within in a web browser environment to access local hardware and local software—via a web server contained in the local system—in a local computer system. In response to a user input, the web client directs local hardware and local software to perform actions (e.g., writing files and taking pictures). Information related to such actions is returned to the web client via the local web server. The local computer system may be remotely located from the web client and such returned information may be stored and/or executed at a remote site (e.g., cloud database). Security layers may be provided to authenticate the user as well as user permissions for accessing the local computer system. | 08-29-2013 |
20130347009 | API Redirection for Limited Capability Operating Systems - Systems, methods and computer program products for facilitating the execution of application programs on computing devices with limited-capability operating systems by dynamically redirecting certain API calls are disclosed. Such systems, methods and computer program products provide one or more API intercept layers and a rules engine that facilitates the ability to make dynamic decisions on how to handle specific API calls. The redirection may be initiated for any number of reasons/factors/characteristics related to the computing device that render the operating system to be considered “limited capability,” such as, for example, lack of local API implementation, power level, location, central processor unit usage, and any other pattern which determines that redirecting an API call to another entity is more efficient. Such entity may be a hardware component, a partitioned or virtualized operating system image, a network-based image or a cloud-based service. | 12-26-2013 |
20140007140 | Dynamic Addition and Removal of Operating System Components | 01-02-2014 |
20140028542 | Interaction with Devices Based on User State - A device identifies users who is trying to interact with it and monitors their state. Using this user state information, the device dynamically adjusts a user interface, speech grammars, screen flow, input options, and the like to tailor interaction with the device to the user. The user interface and device interaction may also be influenced by user-specific settings or profiles. The device may prevent or allow user interaction with the device based on the user's state, such as a position relative to the device. For example, the device may prevent or allow the user from using a set of speech or gesture commands or other interaction sets based on the user's position or relative location. | 01-30-2014 |
20140097955 | Tinting Indication of Environmental Conditions - Environmental hazards and safe conditions can be indicated to an operator of a vehicle. An audio signal of varying intensities can be played to indicate the severity of a potential hazard. An audio signal can be played at different locations in the vehicle cabin to indicate the location of a potential hazard. Surfaces such as but not limited to windows can be tinted to indicate a hazardous or safe condition. Tinting can be of various intensities commensurate with a potential hazard. Location of tinting can indicate the location of a potential hazard. | 04-10-2014 |
20140128994 | LOGICAL SENSOR SERVER FOR LOGICAL SENSOR PLATFORMS - A “Logical Sensor Server” or “LSS” acts as a smart hub between related or unrelated sensors, devices, or other systems by translating, morphing, or forwarding signals or events published by various input sources into signals or higher-order events that can be consumed or used by other subscribing sensors, devices, or systems. More specifically, the LSS acts alone or in combination with a Logical Sensor Platform (LSP) to enable various techniques that allow messages received from different input sources to be authored, transformed and made available to one or more subscribers in a manner that allows intelligent event-driven behavior to emerge from a collection of relatively simple input sources. Any combination of automatic configuration or user input is used to define the format of transformed inputs to be received by particular subscribers relative to one or more publications. Subscribers receiving transformed events control their own actions based on those events. | 05-08-2014 |
20140129162 | BATTERY WITH COMPUTING, SENSING AND COMMUNICATION CAPABILTIES - Electrical battery apparatus embodiments are presented that generally involve incorporating sensing, computing, and communication capabilities into the one common component that a vast number of electronic devices employ—namely batteries. By integrating these capabilities into disposable and/or rechargeable batteries, new functionality and intelligence can be provided to otherwise stand-alone devices. | 05-08-2014 |
20140129866 | AGGREGATION FRAMEWORK USING LOW-POWER ALERT SENSOR - An aggregation framework system and method that automatic configures, aggregates, disaggregates, manages, and optimizes components of a consolidated system of devices, modules, and sensors. Embodiments of the system and method include a low-power alert sensor, a data aggregator module, and an interpreter module. The low-power alert sensor is a sensor that is continuously on and continuously monitoring its environment. The low-power alert sensor acts as a watchdog and triggers other sensors to awaken them from a power-conservation state when there is a change or event that occurs in an environment. The data aggregator module manages the set of sensors within the system and aggregates sensor data obtained from the sensors. The interpreter module then translates the physical data collected by sensors into logical information. Together the data aggregator module and the interpreter module present a unified logical view of the capabilities of the sensors under their control. | 05-08-2014 |
20140369483 | USING PHYSICAL GESTURES TO INITIATE CALL TRANSFERS BETWEEN DEVICES - Various technologies described herein pertain to using detected physical gestures to cause calls to transfer between client devices. A physical gesture between a first client device and a second client device can be detected (e.g., utilizing the first client device, the second client device, a disparate client-side device, a server, etc.). The first client device participates in a call, while the second client device is not participating in the call at a time of the detection of the physical gesture. Responsive to detection of the physical gesture, participation of the second client device in the call can be initiated. Participation of the second client device in the call can be initiated by causing the call to transfer from the first client device to the second client device or causing the second client device to join the call while the first client device continues to participate in the call. | 12-18-2014 |