Patent application number | Description | Published |
20080235170 | USING SCENARIO-RELATED METADATA TO DIRECT ADVERTISING - Mechanisms for directing advertising in search result presentation and/or scenario solution execution based upon a user's locality are provided. Locality refers to a collection of metadata created based upon scenario solutions executed by a user and/or enablers acquired by a user during scenario solution execution. For instance, embodiments of the present invention provide a mechanism by which scenario solutions or enablers related to commonly executed scenario solutions or enablers stored in association with the user's locality can be advertised to the user in conjunction with presentation of scenario solution-related search results. Additionally, embodiments of the present invention provide a mechanism by which more highly rated scenario solutions and/or enablers than those associated with the user's locality may be advertised during presentation of an executed scenario solution. | 09-25-2008 |
20080235179 | IDENTIFYING EXECUTABLE SCENARIOS IN RESPONSE TO SEARCH QUERIES - Systems, methods, and computer-readable media for identifying executable scenario solutions relevant to a user query and returning such executable scenario solutions as search results in response to the user query are provided. Upon receiving a user query, a plurality of results is returned, each result being representative of a series of steps which may be implemented to address a particular issue relevant to the received user query. Often, a series of steps or scenario includes a number of sub-scenarios, each of which is to be executed sequentially to achieve the desired result. Accordingly, upon selection of a particular search result, the user may be guided through a series of sub-scenario result options until an item having direct association to a series of steps is selected. Once selected, the executable scenario solution is presented to the user for execution. | 09-25-2008 |
20080235206 | USING SCENARIO-RELATED INFORMATION TO CUSTOMIZE USER EXPERIENCES - Methods for using scenario solution-related information to generate customized user experiences are provided. Upon receiving a user query, a plurality of results is returned, each result being representative of a scenario solution which may be utilized to address a particular issue relevant to the received query. At the time of authoring, each scenario solution is organized based upon one or more keywords and/or one or more categories (i.e., namespaces). Data associated with a namespace/keyword corresponding to a returned search result may be mined to determine information beyond basic scenario solution search results that may be of interest to the user. As the namespace(s)/keyword(s) in association with which to organize a particular executable scenario solution is determined by the author of the scenario solution, other information associated with the same namespace/keyword (and/or a namespace/keyword having a relationship thereto) is likely to be more relevant than information organized based upon keywords alone. | 09-25-2008 |
20080235229 | ORGANIZING SCENARIO-RELATED INFORMATION AND CONTROLLING ACCESS THERETO - Mechanisms for organizing scenario solution-related information based upon a user's locality are provided. Locality refers to a collection of metadata created based upon scenario solutions executed by a user and/or enablers acquired by a user during scenario solution execution. Such metadata may be stored in association with a scenario solution execution workspace and/or in association with a user-specific information store. Once such information is acquired, a user may desire to share the information, or a portion thereof, with one or more other users, for instance, the members of a user group. However, often times, the user would prefer that the information not be made available to the general public. Thus, mechanisms for controlling access to user-specific information are also provided. | 09-25-2008 |
20100107218 | SECURED COMPARTMENT FOR TRANSACTIONS - Systems and methods that establish a secured compartment that manages sensitive user transactions/information on a user's machine. The secured compartment qualifies user interaction with the machine, and separates such qualified interaction from other user activity on the machine. A user is switched to such secured compartment upon occurrence of a predetermined event, such as in form of: an explicit request (e.g., a secure attention sequence); an implicit request (e.g., inference of user activities); and presence of a peripheral device that is bound to the secured compartment (e.g., a USB)—wherein such actions typically cannot be generated by an application running outside the secured compartment. | 04-29-2010 |
20110010354 | USING SCENARIO-RELATED INFORMATION TO CUSTOMIZE USER EXPERIENCES - Methods for using scenario solution-related information to generate customized user experiences are provided. Upon receiving a user query, a plurality of results is returned, each result being representative of a scenario solution which may be utilized to address a particular issue relevant to the received query. At the time of authoring, each scenario solution is organized based upon one or more keywords and/or one or more categories (i.e., namespaces). Data associated with a namespace/keyword corresponding to a returned search result may be mined to determine information beyond basic scenario solution search results that may be of interest to the user. As the namespace(s)/keyword(s) in association with which to organize a particular executable scenario solution is determined by the author of the scenario solution, other information associated with the same namespace/keyword (and/or a namespace/keyword having a relationship thereto) is likely to be more relevant than information organized based upon keywords alone. | 01-13-2011 |
20110314326 | MONITORING SERVICE ENDPOINTS - Today, data networks are ever increasing in size and complexity. For example, a datacenter may comprise hundreds of thousands of service endpoints configured to perform work. To reduce network wide degradation, a load balancer may send work requests to healthy service endpoints, as opposed to unhealthy and/or inoperative service endpoints. Accordingly, among other things, one or more systems and/or techniques for monitoring service endpoints, which may be scalable for large scale networks, are provided. In particular, a consistent hash function may be performed to generate a monitoring scheme comprising assignments of service endpoints to monitoring groups. In this way, multiple monitoring components may monitor a subset of endpoints to ascertain health status. Additionally, the monitoring components may communicate between one another so that a monitoring component may know heath statuses of service endpoints both assigned and not assigned to the monitoring component. | 12-22-2011 |
20120102577 | INTEGRATING SECURITY PROTECTION TOOLS WITH COMPUTER DEVICE INTEGRITY AND PRIVACY POLICY - At computer device power on, the operating system of the computer device initiates a monitor. The monitor assigns a monitoring program to each program and object (collectively, “program”) running on the computer device to monitor the activities of the program. When the monitoring program is assigned to a program, the monitoring program is assigned an integrity and/or privacy label (collectively, “integrity label”) based on predetermined criteria applied to the monitored program. The monitoring program, in turn, assigns an integrity label to the program monitored by the monitoring program. The integrity label assigned to the monitored program is less than or equal to the integrity label of the monitoring program. The monitor enforces an integrity policy of the computer device based on the integrity label assigned to monitored programs and the integrity label associated with data, another program, or a remote network resource that the monitored program is seeking to access. | 04-26-2012 |
20120166598 | DISTRIBUTED NETWORK COORDINATE SYSTEM - This document relates to a distributed network coordinate system. One implementation provides computer-readable storage media including instructions that may cause a processor to perform certain acts. For example, the acts may include storing an initial network location of a first device in a network. The network may include the first device and a second device. The acts may also include monitoring one or more network performance metrics related to existing application communications with the second device, and determining an updated network location of the first device, based on the initial network location and the network performance metrics. Aspects of network health can be derived from monitoring changes in the network locations of various devices within the coordinate system. | 06-28-2012 |
20130086678 | INTEGRATING SECURITY PROTECTION TOOLS WITH COMPUTER DEVICE INTEGRITY AND PRIVACY POLICY - At computer device power on, the operating system of the computer device initiates a monitor. The monitor assigns a monitoring program to each program and object (collectively, “program”) running on the computer device to monitor the activities of the program. When the monitoring program is assigned to a program, the monitoring program is assigned an integrity and/or privacy label (collectively, “integrity label”) based on predetermined criteria applied to the monitored program. The monitoring program, in turn, assigns an integrity label to the program monitored by the monitoring program. The integrity label assigned to the monitored program is less than or equal to the integrity label of the monitoring program. The monitor enforces an integrity policy of the computer device based on the integrity label assigned to monitored programs and the integrity label associated with data, another program, or a remote network resource that the monitored program is seeking to access. | 04-04-2013 |
20140059680 | LOCAL SECURE SERVICE PARTITIONS FOR OPERATING SYSTEM SECURITY - Systems and methods provide multiple partitions hosted on an isolation technology such as a hypervisor where at least one of the partitions, a local secure service partition (LSSP), provides security services to other partitions. The service partitions (LSSPs) host those high assurance services that require strict security isolation, where the service can be shared across partitions and accessed even when the user is not connected to a network. The LSSP also can certify the results of any computation using a key signed by a TPM attestation identity key (AIK), or other key held securely by the hypervisor or a service partition. The LSSPs may be configured to provide trusted audit logs, trusted security scans, trusted cryptographic services, trusted compilation and testing, trusted logon services, and the like. | 02-27-2014 |
20140337524 | DISTRIBUTED NETWORK COORDINATE SYSTEM - This document relates to a distributed network coordinate system. One implementation provides computer-readable storage media including instructions that may cause a processor to perform certain acts. For example, the acts may include storing an initial network location of a first device in a network. The network may include the first device and a second device. The acts may also include monitoring one or more network performance metrics related to existing application communications with the second device, and determining an updated network location of the first device, based on the initial network location and the network performance metrics. Aspects of network health can be derived from monitoring changes in the network locations of various devices within the coordinate system. | 11-13-2014 |
20140370482 | PEDAGOGICAL ELEMENTS IN VIRTUAL LABS - A virtual lab is generated for a underlying learning objective defined by a lab instructor. The virtual lab is decomposed into multiple lab steps. Each lab step defines a portion of the underlying learning objective that can be performed independently. Each lab step includes pedagogical information for teaching a learner the portion of the underlying learning objective and information for specifying a portion of the underlying system that will execute the lab step. A first portion of the underlying system is caused to execute a first lab step. This allows the learner to perform the portion of the underlying learning objective defined in the first lab step. An event generated by the learner's performance of the first lab step is received. In response, a specific pedagogical procedure that is dictated by the event is caused to be performed. | 12-18-2014 |