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 |
20090216908 | Personal Computing Environment With Virtual Computing Device - Systems and methods of providing synchronization of providing a device mesh and a virtual computing device are disclosed herein. A selection of a plurality of computer devices, such as PDAs, cellphone, laptops, and the like, can be received from a user. The data at the virtual computing device and the plurality of devices can be synchronized. Access to all applications available in each computing device in the plurality of computing devices can be provided at the virtual computing device. Access to all data available in each computing device in the plurality of computing devices can be provided at the virtual computing device. Access to the virtual computing device can be provided via a data network. | 08-27-2009 |
20110282837 | VIRTUALLY INFINITE RELIABLE STORAGE ACROSS MULTIPLE STORAGE DEVICES AND STORAGE SERVICES - A logical file system is described that distributes copies of files across various different physical storage resources yet provides a consistent view to the user of his or her data, regardless of which machine the user is accessing the files from, and even when the user's computer is offline. The distributed file system uses smart data redundancy to enable a virtually infinite amount of storage as long as additional storage resources are made available to the distributed file system. The result is a reliable storage system that does not necessarily tie the user's data to the user's particular computer. Instead, the user's data is associated with the user—for life—or for however long the user would like the data to be maintained, regardless of whether the user's computer or data storage components are replaced or destroyed. | 11-17-2011 |
20110295929 | Optimistic Concurrency Utilizing Distributed Constraint Enforcement - Optimistic concurrency is effectuated to manage constraints in a synchronization environment at multiple computing device endpoints in a consistent fashion without utilizing concentrated centralized constraint logic. Implemented data synchronization constraints that identify false violation scenarios may be automatically resolved without user intervention by using an etag system directed by a master component to assist computing device endpoints to maintain data synchronization among them. Data entries defining each file hierarchy component to be synched are generated and shared with the master component and each computing device endpoint in a synchronization environment. Individual computing device endpoints can use the data entries generated locally with those generated by other computing device endpoints to locally resolve identified false violation scenarios. | 12-01-2011 |
20110320522 | CONTEXT-SPECIFIC NETWORK RESOURCE ADDRESSING MODEL FOR DISTRIBUTED SERVICES - A back-end locator service can be utilized to identify a specific computing device, from among multiple computing devices in a domain, that is the most appropriate computing device to handle a particular type of request for data or other resources. The data or resources hosted by the domain can be divided among multiple computing devices. The domain can expose a network-based application program interface where successive requests by a client computing device become more specific as to the data or resources requested. Responses from the computing devices in the domain can, at some point in time, be informed by the back-end locator service and can comprise location-specific resource identifiers. The client computing device can utilize such location specific resource identifiers to direct further communications to the appropriate, specific computing device without having to incur redirection inefficiencies. | 12-29-2011 |
20140180571 | OBTAINING AND DISPLAYING VIRTUAL EARTH IMAGES - Provided is a single repository for capturing, connecting, sharing, and visualizing information based on a geographic location, for example. Provided is a schema, repository, index, and APIs for any information, place, entity, attribute, service or person that can be referenced geographically. A system to provide real time image data includes an input component that receives image data associated with a specific geographic area, a splitter component that splits the image data into at least two quadrants, and a storage component that stores at least a portion of the at least two quadrants. Also provides is on-line or real-time advertising based on a user's mapped location and/or a user preference. | 06-26-2014 |
20140358853 | Optimistic Concurrency Utilizing Distributed Constraint Enforcement - Optimistic concurrency is effectuated to manage constraints in a synchronization environment at multiple computing device endpoints in a consistent fashion without utilizing concentrated centralized constraint logic. Implemented data synchronization constraints that identify false violation scenarios may be automatically resolved without user intervention by using an etag system directed by a master component to assist computing device endpoints to maintain data synchronization among them. Data entries defining each file hierarchy component to be synched are generated and shared with the master component and each computing device endpoint in a synchronization environment. Individual computing device endpoints can use the data entries generated locally with those generated by other computing device endpoints to locally resolve identified false violation scenarios. | 12-04-2014 |
20150019490 | Optimistic Concurrency Utilizing Distributed Constraint Enforcement - Optimistic concurrency is effectuated to manage constraints in a synchronization environment at multiple computing device endpoints in a consistent fashion without utilizing concentrated centralized constraint logic. Implemented data synchronization constraints that identify false violation scenarios may be automatically resolved without user intervention by using an stag system directed by a master component to assist computing device endpoints to maintain data synchronization among them. Data entries defining each file hierarchy component to be synched are generated and shared with the master component and each computing device endpoint in a synchronization environment. Individual computing device endpoints can use the data entries generated locally with those generated by other computing device endpoints to locally resolve identified false violation scenarios. | 01-15-2015 |