Patent application number | Description | Published |
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 |
20100094926 | DECLARATIVE PROGRAMMING MODEL FOR MODELING AND EXECUTION OF TRIGGERS FOR RESOURCE ORIENTED SYSTEM - Data sets of various types may be accessible through a host according to a protocol, such as a RESTful HTTP interface. Various domains may involve domain-specific processes to be executed as pre-triggers or post-triggers of various protocol requests (e.g., an HTTP GET request specifying a Read operation on an access-restricted data set may involve an authorization operations set that verifies the access privileges of the requester.) A host of the data set may be configured to receive a resource script expressing the operations set in a script language, to store the resource script, and to associated it with at least one data set and at least one verb of the protocol. Upon later receiving a protocol request specifying the verb and the resource, the host may then execute the resource script (as a pre-trigger and/or as a post-trigger) in accordance with the business logic of the domain. | 04-15-2010 |
20100095272 | DECLARATIVE PROGRAMMING MODEL FOR AUTHORING AND EXECUTION CONTROL AND DATA FLOW FOR RESOURCE ORIENTED SYSTEM - A data set may be managed by a host that provides access to clients through a protocol, such as a RESTful HTTP interface. A resource script may be expressed according to a script language featuring two types of instructions: data set instructions that correspond to the verbs of the protocol, and flow control instructions that alter the flow of execution of the resource script. At runtime, an execution context for the resource script may be selected as a local execution context (through a local script processor that issues protocol verbs to the host based on the data set operations) or a remote execution context (by sending the resource script to a script processor located on the host.) The runtime selection of data context may be executed without having to reconfigure the resource script, and with an equivalent effect on the data set. | 04-15-2010 |
20100100868 | INTERACTIVE DESIGN ENVIRONMENTS TO VISUALLY MODEL, DEBUG AND EXECUTE RESOURCE ORIENTED PROGRAMS. - In scenarios involving a data set accessible through a protocol, operations sets may be formulated for performing various operations on the data set, and may be expressed as resource scripts according to a scripting language. However, such resource scripts may be difficult to design due to the complicated aspects of the interaction, such as asynchrony, network transport, the syntax of the scripting language, and the details of the protocol. A design environment may be devised to facilitate designers in generating resource scripts, e.g., through the manipulation of visual elements. The design environment may abstract the lower-level working details of the resource scripts, and may allow designers to focus on the logical designing of the operations set. The design environment may then automatically generate the resource script from the operations set in accordance with the constraints of the script language and the protocol. | 04-22-2010 |
20100235321 | PROGRAMMING MODEL FOR SYNCHRONIZING BROWSER CACHES ACROSS DEVICES AND WEB SERVICES - A computer user may use a computing environment comprising a set of computers that respectively feature a web browser having a browser cache containing many types of data objects, including application resources and user-generated data files. However, the contents of a browser cache significantly contribute to the computing environment of a computer, and the computing environments presented by each computer may diverge, providing an inconsistent computing environment. Instead, the contents of browser caches of the computers comprising the computing environment may be synchronized across computers. Additionally, the browser cache may be synchronized with the other data objects of a computing environment (such as relevant portions of the filesystem); the synchronizing may be implemented as an out-of-browser process executing independently of the applications, and even when the browser is not executing; and the synchronization may be exposed through a programmatic access with which web applications may interact. | 09-16-2010 |
20100235829 | PROGRAMMING MODEL FOR INSTALLING AND DISTRIBUTING OCCASIONALLY CONNECTED APPLICATIONS - An application executing in a virtual environment, such as a web browser, may be serviced by an application host, such as a webserver that maintains application resources or provides runtime services to the application. However, it may be difficult to configure the application to operate suitably when the application host is unavailable. Techniques for facilitating such operation include the storing of application resources in a computing environment (such as the local file system or a deployable mesh or cloud environment) while also initiating the application within the virtual environment in the context of the application host, which may reduce difficulties with isolation policies imposed by the virtual environment (e.g., cross-domain restrictions imposed by the web browser.) This configuration may promote the servicing of the application alongside other applications and data objects, e.g., the automated deployment and synchronization of the application among all devices comprising the user's mesh environment. | 09-16-2010 |
20100235830 | PROGRAMMING MODEL FOR APPLICATION AND DATA ACCESS AND SYNCHRONIZATION WITHIN VIRTUAL ENVIRONMENTS - Applications executing on computer systems may execute in a virtual environment, such as a web application executing in a web browser. An application may access the actual computing environment (such as the filesystem), but this accessing may be complicated; e.g., the computing environment may be deployed across many computers and devices, and may be synchronized for offline access via a local cache. A computing environment component may service the complex computing environment (e.g., by managing the cache and retrieving remotely stored data objects) and expose it as a well-organized set of data objects. A virtual environment interface (e.g., a web browser plug-in) may allow applications hosted in the virtual environment to access the computing environment through the computing environment component. Programmatic interfaces may also be implemented to permit such accessing via familiar programming languages and techniques, such as JavaScript libraries exposed to web applications in the web browser. | 09-16-2010 |
20150046519 | PROGRAMMING MODEL FOR SYNCHRONIZING BROWSER CACHES ACROSS DEVICES AND WEB SERVICES - A computer user may use a computing environment comprising a set of computers that respectively feature a web browser having a browser cache containing many types of data objects, including application resources and user-generated data files. However, the contents of a browser cache significantly contribute to the computing environment of a computer, and the computing environments presented by each computer may diverge, providing an inconsistent computing environment. Instead, the contents of browser caches of the computers comprising the computing environment may be synchronized across computers. Additionally, the browser cache may be synchronized with the other data objects of a computing environment (such as relevant portions of the filesystem); the synchronizing may be implemented as an out-of-browser process executing independently of the applications, and even when the browser is not executing; and the synchronization may be exposed through a programmatic access with which web applications may interact. | 02-12-2015 |
Patent application number | Description | Published |
20080276181 | Mesh-Managing Data Across A Distributed Set of Devices - Data files, applications and/or corresponding user interfaces may be accessed at a device that collaborates in a mesh. The mesh may include any number or type of devices that collaborate in a network. Data, applications and/or corresponding user interfaces may be stored within a core object that may be shared over the mesh. Information in the core object may be identified with a corresponding user such that a user may use any collaborating device in the mesh to access the information. In one example, the information is stored remotely from a device used to access the information. A remote source may store the desired information or may determine the storage location of the desired information in the mesh and may further provide the desired information to a corresponding user. | 11-06-2008 |
20080276195 | LIVE COMPANION WINDOW - An apparatus and method provide a companion application via a companion application corresponding to a host window provided by a host application, the companion window providing information or metadata descriptive of data in the host window. The host application and companion applications may be separate applications such that the host application is unaware of the companion application. The companion application may hook into the host application (e.g., via an application programming interface) and may monitor host application activities and/or data. Based on identification of data or events in the host application, the companion application may obtain information characterizing or providing a context for data provided by the host application. The host window and companion window may be attached to each other, the host window providing host application data and the companion window providing data describing the host application data. | 11-06-2008 |
20080320025 | GATHERING AND USING AWARENESS INFORMATION - Systems, methods, and user interfaces for gathering and using awareness information with common awareness functionality accessible to multiple applications are disclosed. Such systems, methods, and user interfaces may aggregate awareness information from multiple sources and provide awareness data and other derived information to multiple destinations. In some implementations, such systems and methods may provide additional functionality related to awareness information, such as common user interfaces that display awareness information or mechanisms for determining the relevance of particular pieces of awareness information. | 12-25-2008 |
20110040850 | MESH-MANAGING DATA ACROSS A DISTRIBUTED SET OF DEVICES - Data files, applications and/or corresponding user interfaces may be accessed at a device that collaborates in a mesh. The mesh may include any number or type of devices that collaborate in a network. Data, applications and/or corresponding user interfaces may be stored within a core object that may be shared over the mesh. Information in the core object may be identified with a corresponding user such that a user may use any collaborating device in the mesh to access the information. In one example, the information is stored remotely from a device used to access the information. A remote source may store the desired information or may determine the storage location of the desired information in the mesh and may further provide the desired information to a corresponding user. | 02-17-2011 |
20140157185 | LIVE COMPANION USER INTERFACE - An apparatus and method provide a companion application via a companion application corresponding to a host window provided by a host application, the companion window providing information or metadata descriptive of data in the host window. The host application and companion applications may be separate applications such that the host application is unaware of the companion application. The companion application may hook into the host application (e.g., via an application programming interface) and may monitor host application activities and/or data. Based on identification of data or events in the host application, the companion application may obtain information characterizing or providing a context for data provided by the host application. The host window and companion window may be attached to each other, the host window providing host application data and the companion window providing data describing the host application data. | 06-05-2014 |