A user's experience using search features in a computing environment can be rather limited in scope, functionality, and presentation. For example, a user may perform independent searches in different contexts, such as a search for a local file, object, or application through a file system search feature, another independent search for an email in a separate email application search feature, yet another independent search for Web content using a separate Web search service, etc. Results from such different contexts of searches are generally provided independently, with independent rankings and groupings, in presentations by separate applications and/or in separate windows and formats, etc. Accordingly, such searches fail to provide integration among the different contexts of search results.
In addition, relevant content often resides in a local or remote database accessible via a particular application to provide a rich user experience. For example, content in a movie database may be accessible through a movie player application installed on a computing system. However, presenting such application content through a search feature in an integrated search result display with combination with local and Web search result content is unavailable.
Implementations described and claimed herein address the foregoing problems by presenting multi-context search results in an integrated search results display in which ranking and grouping are managed across all search contexts. A storage management system receives at a computing system one or more search results from a search operation based on a search query. The search operation had performed a first search on content in a database accessible through an application, a second search on local to the computing system content, and a third search on Web content. At least one of the search results from the first search is associated with an application identifier identifying the application. The storage management system further ranks the search results from the first search, the second search, and the third search in aggregation. A search results integrator presents the ranked search results from the first, second, and third searches in an integrated view. The search results integrator further groups a subset of the ranked search results from the first search, the second search, and the third search into a subgroup within the integrated view.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.
Other implementations are also described and recited herein.
The described technology is explained using both an action-related search scenario and a more generic action framework scenario. The action framework scenario is based on invoking an action from a source application by selecting a content element presented by the source application, the action being performed by a target application. The action-related search scenario is directed to a source application related to local and/or remote search operations, but the action framework may be applied to many other specific scenarios, including without limitation calling a selected phone number from a contacts record, playing a song from a playlist, composing an email to a selected email address in a received email, etc.
Yet another search context may be “application content” search, such as a search of data accessible specifically through an enumerated application or a set of enumerated applications executable by a user's computing system or server (whether or not the application is already installed on the user's computing system). For example, a news reader application on the user's computing system may provide enhanced access to news articles accessible locally or remotely. Such enhanced access may provide functionality for assembly of related images, related stories, related videos, etc. In one implementation, an application that can access the application content is identifiable by application identifier that uniquely identifies the application within an application store or catalog. It should be understood that certain application content may be accessible via multiple uniquely identified applications, such as in the case of several specifically-identified music player applications being able to operation (e.g., to play) a particular music library. Other search contexts may be supported in other implementations. If the application is not yet installed on the user's computing system, the search management system or related sub-systems may offer to install the application for use in accessing the content associated with the search result.
In another example, a search result referencing a contact (a type of local content, such as from a contacts application or file, or remote content, such as from a social networking service database or CRM system) may be returned as a search result. Content elements (e.g., actionable sub-components of the contact search content) may be presented with certain instrumentation to allow a user to select the content element (e.g., an “entity property”), such as a phone number or an email address within the contact content, to invoke the associated action (e.g., making a call to the phone number or composing an email to the email address) via a target application.
It should be understood that various search contexts may be performed locally or remotely. For example, an application search context may be performed on locally accessible application content. Such application content resides locally to the user's computing system and is associated with an enumerated application executable on the user's computing system. Likewise, an application search context may be performed on remotely accessible application content. Such application content resides external to the user's computing system and yet is still associated with an enumerated application executable on the user's computing system.
Other content from the search result content may also be used in invoking the action. For example, if a restaurant search result is returned based on entry of a date and time in the search query, the date and time may be included in the subject line or body of a new email, responsive to selection of the email address of the restaurant as returned in the search result.
Other search contexts and actions may be supported in other implementations.
The search management system 106 integrates searches in such contexts to allow a user to perform a single search, rather than a series of independent searches, and obtain an aggregated ranking, grouping, and presentation of the integrated search results. The search handling system also processes contextual metadata in association with such search results to allow the user's computing system to perform actions in response to selection of individual search results (e.g., installing and/or launching an appropriate audio player to play an audio file corresponding to a search result).
In the illustrated implementation, as the user types each letter of the search query into the search field 104, the search management system 106 progressively searches through the various supported search contexts (e.g., local, remote, application content, etc.) based on the entered portion of the search query and presents progressive search results 108 (e.g., a USA Today article about a NASA report on solar flares and a Wikipedia entry about solar flares) and search query suggestions 110 (e.g., “Solar flares today,” “Solar flare news,” etc.). In the case of the search results 108, the song files may be found in one or more of the local, remote, and application content search contexts.
The search handling system 106 receives the search query or portion thereof (collectively referred to as the “search query” unless specified more specifically) and serves the search query to a local search provider and/or a remote search provider. The local search provider, for example, may be a search facility resident in the client or within the local area network that allows the user to search for files, objects, applications, etc. within the file system of the client device, client-accessible servers and storage devices, and other local datastores (e.g., a local image, video or audio database; a local inventory database, a local personnel database etc.). In contrast, the remote search provider, for example, may be a WAN-resident search facility, such as a Web search engine, that allows the user to search Web domains, online databases, and other remote resources. One or both of the search providers return search results based on the search query to the search management system 106, which passes the search results to the user interface for presentation to the user.
In
As previously discussed, an application content search performs a search through content accessible via an application executable on the user's computing system. For example, a media player application on the user's computing system may have access to local audio files, Web-resident audio files, streaming music channels, etc. In one implementation, a search of at least one index of such application content may be achieved via the search field 104 and the search management system 106.
It should be understood that the specific application used to access the application content need not be installed or executing on the user's computing system at the time of the search operation (or at the time of the selection of a content element of a source application in the more general perspective). Instead, if the enumerated application is available (e.g., via an online application store or via another installation method), the search result may indicate the appropriate application to be used to access the application content, in some cases offering to install the application, offering to allow the user to purchase and install the application, directing the user to otherwise obtain and install the application, etc.
Further, one or more search engines (e.g., the search management system 106, a Web-based search engine or services, etc.) can return contextualized search results that can be interpreted by the search management system 106 to provide enhanced presentation (e.g., prioritization, grouping, personalization, etc.) and functionality (automatic launching of appropriate applications, automatic invocation of appropriate actions, etc.).
The Web content search result 202 presents an image 226 from the associated Web page and a site preview 228 (e.g., an extracted portion of text from the Web page). The search result 202 can operated as a control to launch a browser to view the associated Web page.
The local search results 204 present controls 202, 208, 210, and 212 to navigate to a list of local applications, documents, and settings that satisfy the search query. In other implementations, the individual application, document, and setting search results may themselves be listed within the integrated search result presentation, rather than being made accessible through the controls 208, 210, and 212.
The application content search result 214 includes an image 218 associated with the application or application content of the search result 214. The application content search result 214 also includes an application installation control 220 to install the application associated with the application content search result 214. If a user selects the application installation control 220, a contextual application installer finds the appropriate application (as identified by an application identifier provided in the contextual parameters associated with the search result), which may be found in an online application store or other application source, installs the application, and opens the content of the search result with the installed application.
The application content search result 216 includes an image 222 associated with the application or application content of the search result 216. The application content search result 216 also includes an application launch control 220 to launch the application associated with the application content search result 216. If a user selects the application launch control 220, a contextual application launcher launches the appropriate application (as identified by an application identifier provided in the contextual parameters associated with the search result) and opens the content of the search result with the launched application.
It should be understood that in other implementations, an entire search result may acts as a control (e.g., an application installation control, an application launcher control, a browser launch control, etc.).
Another region 230 of the integrated search result presentation 200 provides an added level of integration. In the region 230, one or more search results are combined with an image 231, summary text 233, and available actions 234 in a curated fashion based on recognition of the search results as a known category of search results (e.g., a “known category” is described as an “entity” with regard to
Example contextual information may include a unique application identifier, a search result descriptor providing a schema describing the data reference by the search result (e.g., identifying the data as an audio file of MPEG4 format in association with a “play” action), etc. The contextual information may also include a variety of other information including licensing information, purchase transaction information, an address for buying/installing a specified application to operate on the data identified by the search result, crowd-sourced application settings, crowd-sourced information for supplementing the search result (e.g., crowd-sourced playlists, crowd-sourced album artwork, crowd-sourced associated media, etc.).
The search management system 304 receives a search query 303 (e.g., via a user interface), processes it and passes it through a communications network 306 (e.g., the Web) to a search service 308, receives contextualized search results 307 from the search service 308, and returns, via a search results interface search, one or more contextualized search results from a variety of search contexts (e.g. Web searches, application content searches, etc.). An example search results interface includes a web server supporting the search service 308, or some other communication system for communicating search results to searching entities. The search management system 304 also performs local searches and/or application content searches. In one implementation, the search management system 304 integrates local searches, Web searches, and application content searches, prioritizing results from each context using rankings computed across the three contexts, and, when appropriate, presenting the results through a user interface in an integrated display (e.g., in the same search result window, with search results from each context intermixed with search results from other contexts).
A search results integrator 320 works with the search management system 304 to present the contextualized search results 307 and other search results received from the search management system 304 in an integrated view, as shown in
In other implementations, selection of a search result may trigger an action within an application (see applications 309) that operates on the content associated with the search result content. For example, selection of a song from a search results list invokes a “play” action within a music player application. Launching of the appropriate application and activation of the action may be facilitated by contextualized search results, both from the search service 308 and from local content and local application content searches performed on the computing device 302. In one implementation, the contextualized search results include an application identifier and an action identifier. For example, the application identifier may specify a unique application available for installation and execution on the computing device 302. The unique application is identified as being appropriate for execution on the search result content. The action identifier specifies the action to be taken by the application on the search result content. A contextual application launcher 310 processes the application identifier and the action identifier to perform the specified action on the search result content using the specified application.
In the context of local searches, the search management system 304 collects and/or generates one or more local indexes (e.g., a local file index 312 and a local application content search index 314), which may be integrated into a single local index 316. For example, the local file index 312 represents a collection of scanned (e.g., crawled) and parsed data from local files for use in identifying search results satisfying a search query. In contrast, a local application content search index 314 represents a collection of parsed data from an application database or other application content datastore. Such parsed data may be obtained by scanning (e.g., crawling) the database or other datastore associated with the application (collectively referred to as “application datastores 315) directly or by scanning (e.g., crawling) the application datastore via an API or other mechanism for accessing the application's data. The scanned data is parsed into the local application content search index 314. The local file index 312 and local application content search index 314 may be integrated (e.g., its indexes combined) in real time, periodically, responsive to changes in the searchable data, responsive to receive of a search query, etc. It should be understood that the local file index 312 may also include data from other locally accessible datastores 317, such as shared storage systems, external hard drives, virtual storage systems, etc., whether connected directly to the computing device 302 or connected via a communications network 318.
The local file index 312 and local application content search index 314 may be generated using methods and systems similar to those illustrated and described with regard to remote content in
The search service 308, which can represent a collection of search services, crawls remotely accessible datastores and content from other sources to generate a searchable index. Responsive to receipt of a search query, the search service 308 analyzes its searchable index and returns contextualized search results 307. The searchable index may be generated from the scanning and parsing of Web pages (such as those provided by Web content providers 322 and 324), datastores containing application content (such as application search content datastore 326 provided by an application search content provider 328 and an application search content datastore 330 provided by an application search content provider 332), and other content sources. In one implementation, an application search content provider may generate its own index of its content and make it available to the search service 308. In another implementation, an application search content provider may provide an API or other mechanism to allow the search service 308 or another entity to access the provider's content for generation of an index that may be accessed by the search service 308. In yet another implementation, a content provider may periodically upload structured content data to the search service 308 using a mechanism such as an XML RSS feed.
The search service 308 transfers the contextualized search results 307 to the search management system 304 for integration and presentation with local search results. The search management system 304 also generates a local set of contextualized search results. Each set of contextualized search results may include a variety of search result context parameters. Examples of such context parameters are listed below, without limitation:
Accordingly, the contextualized search results 307 (e.g., which may include search results associated with remote content, e.g., Web content, and remote application content) and contextualized search results generated by the search management system 304 (e.g., which may include search results associated with local content, e.g., local files, and local application content accessible by locally executable applications) are ranked in aggregate and presented through a user interface in an integrated format (e.g., a single search results window). Furthermore, selection of a search result may result in a launch of an associated application (e.g., specified by a contextually-provided application identifier) and invocation of an associated action (e.g., specified by a contextually-provided action identifier), such as “play the audio content associated with the selected search result.”
It should also be understood that the search management system 304 can operate as an application content provider, in that the application content it accesses through applications 309 may be Web-based datastores (rather than local datastores). The remote content or an index associated with the remote content accessible though the applications 309 may be therefore be served up to the search service 308 to supplement the index search content available to the search service 308.
In one implementation, action identifiers coordinated with or selected from a standardized set of action identifiers agree upon by application owners/publishers, operating system vendors, search system vendors, and/or Web page designers. The action identifiers may be hard-coded, parsed from Web pages, received via a feed, accessed via an API, etc. In this manner, intended actions can be accurately communicated to applications so that providers can enhance the richness of the user experience when interacting between different applications, data sources, and services. Action identifiers may also be self-registered with a service to allow crowd-sourcing of the action identifier set.
It should be understood that search results from various search contexts and classifications may alternatively be presented in separate views, rather than an integrated view. For example, application content search results may be presented in one window and local search results may be presented in another window. In another example, the different types of search results may be presented in a single window that allows a user to toggle through the different search contexts or classifications.
In yet another implementation, the classification tags may be used to disambiguate search results, thereby grouping, ranking, and filtering search results to provide a more relevant set of search results to the user. For example, a query may be tagged to pertain to “Michael Jackson” the musician rather than “Michael Jackson” the whisky expert. As such, search results returned about the whisky expert may then be ranked lower, grouped in a different region of the user interface, filtered out altogether, etc.
Classification tags may also be used to, without limitation:
The query and answer manager 406 receives the classified query and directs it to one or more appropriate answer workflows, such as the Web content answer workflow 408 or the application content answer workflow 409. Other answer workflows may also be employed, such as a multimedia content answer workflow, an ads workflow, etc.
In one example, the classified query is passed to a Web content answer workflow 408, which applies the classified query to output of a Web content pipeline 410 as a run-time service. On a substantially continuous basis, the Web content pipeline 410 receives and indexes a Web content stream 412 from a Web crawler 414. The Web crawler 416 analyzes Web pages 416 and provides the crawled Web content stream 412 to the Web content pipeline 410, which indexes and otherwise processes the Web content to make the indexed Web content available to the Web content answer workflow 408. The Web content answer workflow 408 applies the received classified query to the indexed Web content of the Web content pipeline 410 and provides the query and answer manager 406 with ranked and/or otherwise contextualized search results from the Web content.
In another example, the classified query is passed to an application content answer workflow 409, which works with an application content index server 418 to apply the classified query to indexed application content output received from an application content pipeline 420. The application content pipeline 420 processes data from various application content sources, including without limitation the Web content stream 412, the application content from feeds 423, and application content API interaction 432. Such content can be organized in a variety of ways, including without limitation by canonical entity and by content identifier. For example, when organized by canonical entity, content from various sources are matched against a well-known entity like “Katy Perry” and stored relative to that canonical entity by the entity processors 434. This technique allows search results from the application content index server 418 to pull all related application content for “Katy Perry” in a single request. In one implementation, the query classifier 404 is primarily responsible for determined whether the canonical entity “Katy Perry” is the topic intended by the user. In another example, when organized by content identifier, each set of application content received from various sources is indexed into separate documents. The application content index server 418 matches relevant documents from such sources based on various signals, such as the number of terms matching, popularity of the document, popularity of the source, popularity of the application, etc.
The application content ranker model 422 provides one or more models, used by the application content index server 418, for ranking indexed application content received from the application content pipeline 420. The application content index server 418 returns to the application content answer workflow 409 a set of ranked application content documents.
In the example of the application content pipeline 420, application content is input to the application content pipeline 420 through a variety of mechanisms. One possible mechanism is through the Web Content stream 412, which (at least in the case of application content) receives crawled Web content from Web sites that are accessible through an application (e.g., a movie database that is accessible through a movie browsing and playing application) and provides structured content of the information from the associated Web pages. For certain Web pages, for example, the elements of individual pages in the Web content stream 412 are mapped to provide structured data (e.g., pictures at certain locations in the Web pages are album cover images, text at certain locations in the Web pages identify the artist, etc.) through an application content extractor 431. The Web crawler 414 fetches raw Web page content, which is fed to the Web content pipeline 410 as the Web content stream 412. The Web content stream 412 is also processed by the application content extractor 431 to generate structured data based on the mappings. The structured data is passed to the application content pipeline 420. In an alternative implementation, the application content extractor 431 can be integrated into the Web crawler 414.
The mappings are provided by one or more URL-pattern-to-application-information mapping models (see, e.g., map 430). The structured data from the Web content stream 412 is received by the app content pipeline 420 and used to generate indexed application content for use in responding to search queries. Alternatively, Web page developers can mark-up their Web pages to allow the Web crawler 414 to extract structured data from each marked-up Web page. This structured data is extracted from Web pages having content that is accessible through an unambiguous application executable on the user's system (such Web content, when input to the application content pipelines, is also referred to as a type of “application content” because it is based on Web content accessible via an identified application executable by the user's computer system.)
In another mechanism for extracting application content, a feed aggregator 424 receives structured application content 423 (e.g., in XML format) from one or more application content feeds 426 and/or application store catalog feeds 428. The structural elements are provided through the feeds by the application content providers (e.g., the movie database provider) and/or the application stores.
In yet another mechanism for extracting application content, an application content API interaction module 432 accesses online content sources via a source-provided API. In such a mechanism, the application content API interaction module 432 queries online content sources to obtain structured data relating to the application content provided by these sources.
Each of these mechanisms, as well as other potential application content providing mechanisms, may be employed to provide structured application content data to the application content pipeline 420. Within the application content pipeline 420, an application content repository updater 435 processes the received structured application content data and updates already stored structured application content data recorded in the application content repository 436. Example updates may include without limitation supplementing, altering, or deleting portions of the application content stored in the application content repository 436. For example, a new movie may be made available through a movie service accessible through a movie player application on the client. The application content representing the new movie may be added to the application content repository 436. In contrast, a movie may have been removed from a movie service, so the application content representing the formerly-available movie may be deleted from the application content repository 436.
The application content providers may also provide metadata adding presentation context parameters in association with search results.
One or more entity processors 434 receive updated application content from the application content repository and may associate some of the content with various entities. An entity represents a semantic data object having annotated properties, such a unique identifier, a collection of properties based on the attributes of the real-world topic it represents, links representing the topic's relationship to other entities, actions that a searcher for that topic might want to invoke, etc. The entity processors 434 stamp (e.g., assign one or more unique identifiers to) components of the application content to associate it with the entities in an entity database (e.g., to associate movie content with a movie entity, with an actor entity, etc.). An application data repository 438 may include without limitation application metadata such as the application title, icon, description, etc., which may be obtained from the online application store, an application metadata service, etc. Such metadata may be used to enhance the information associated with the application content search result in its presentation via a user interface 456, for example.
An indexed document generator 440 receives stamped application content from the entity processors 434 and content characterization parameters from a content injector 442. The content injector 442 receives content characterization parameters, such as telemetry data, anchor data, ranking parameters, etc., which can be used by the indexed document generator 440 to provide rich indexed application content for use by the application content index server 418 when serving application content search results to the application content answer workflow 409. Example content characterization parameters are described below.
An application content click stream 444 collects and delivers telemetry data by tracking historical user behavior (e.g., “the click stream”) when users interact with application content data and related applications themselves. An application content anchor stream 446 operates on application content collected from Web pages and collects and delivers anchor text of a selected link, text that is located in the proximity of a selected link, text that is located on Web pages referenced by the selected link, etc. In this manner, the anchor text can be mapped to certain application content and therefore used in ranking the application content. An application content static rank 448 collects and delivers static ranking information provided by other sources, such as human-generated ranking data, marketing research ranking, etc. Additional application content ranking signals 450 collects and delivers a variety of other ranking data, including without limitation view counts and user ratings associated with the application content. An application store static rank 452 collects and delivers static ranking information received from one or more online application stores, such as an online store that allows users to download and install application to their client computers for use in accessing application content. For example, if a variety of movie applications may access one or more online movie databases, ranking information from the application store static rank 452 may providing higher ranking information for the most popular of the movie applications as discerned from user purchase information through the online application store or online movie database. It should also be understood that certain ranking data may also be provided from dynamic ranking sources.
Based on the above-described content characterization and the stamped application content, the indexed document generator 440 provides the indexed application data to the application content index server 418 and the application content answer workflow 409 for use in responding to the search query and ranking the application content search results. The application content answer workflow 409 may also receive real-time application content via a real-time application content API 433, which provides an alternate route for application content so that application content need not to be processed by the application content pipeline 420 for indexing and may be queried through the application content answer workflow directly. For example, a travel application may provide a real-time API to book flights from one location to another. The application content answer workflow 409 may identify a user query to match the pattern of a “book-flight” query and then call the real-time application content API 433 directly to perform the related action. Similarly, a weather application may provide a real-time API to query a weather forecast or a location. The application content answer workflow 409 can retrieve data from the real-time application content API 433 in real-time if it determines that the query intent is related to a weather forecast for the location. Similarly, a sports application may provide a real-time API to support queries for real-time scores, and a news application can have a real-time API to provide a real-time news feed
The query and answer manager 406 merges the ranked application content search results with search results from other contents (e.g., from the ranked Web search results received from the Web content answer workflow 408), combining their respective rankings to provide an integrated ranking with both Web content search results and application content search results (i.e., search results from different search contexts).
The query and answer manager 406 merges the rankings of search results from different search contexts. In one implementation, each search result is associated with an individualized ranking metric (e.g., a confidence score). However, in some implementations, the search results from the different search contexts may not be based on the same distribution or range. For example, search results in one search context may be ranked on 1 to 5 star ratings while search results in another search context may be ranking on a very broad, nearly continuous spectrum of ranking metric values. The query and answer manager 406 can normalize these varying ranking metric schemes based on personalized and/or aggregated parameters. In one implementation, an aggregated normalization service may provide normalization parameters across various search contexts based on back-end evaluation and/or aggregation of user interaction with search results over time. As such, as the aggregated normalization service finds that users generally find search results based on one ranking metric scheme more relevant than another, the relevance of that scheme is amplified relative to another less relevant ranking metric scheme for all users.
In another implementation, a personalized normalization service may provide normalization parameters based on a user's individual interaction with search results over time. As such, as the personalized normalization service finds that a particular user generally finds search results based on one ranking metric scheme more relevant than another, the relevance of that scheme is amplified relative to the other less relevant ranking metric scheme for that user. In one implementation, personalized normalization is given greater weight or supersedes aggregated normalization, although other preferences may be employed.
It should be understood that different types of search results (e.g., pertaining to Web content, application content, images, etc.) and search results from different search contexts may be ranked according to their own ranking and grouping schemes. When being organized for presentation in an integrated search results view, the organization may be arranged by static placement (e.g., top of page, middle of page, bottom of page, etc.) or it can be managed by dynamic placement based on ranking and grouping parameters, typically subject to some normalization among the different schemes.
A user interface support manager 454 receives the integrated search results and adds appropriate user interface parameters for delivery to the user interface 456 of the client. The search results are presented in the user interface 456 with integrated rankings, groupings, and other presentation characteristics.
Personalization data, based on user preferences and historical user behavior (e.g., collected in application content click stream 444) can be associated with a machine identifier, an account/user identifier, etc. In this manner, the same machine identifier, etc. can be submitted with the search query 402 and maintained locally and/or remotely in a user data profile (UDP) for use in refining the ranking and/or grouping of the search results for a particular machine and/or user.
In summary, Web content and application content are input to one or more indexing pipelines, which index the content to support search services. Responsive to receipt of a search query, the indexed Web content and application content is searched to generate search results. Some of the search results are annotated with contextual parameters identifying an application identifier, an action identifier, and/or other contextual information (e.g., ranking parameters, grouping parameters, etc.) for use by a search management system to generated integrated search results, install applications, launch applications, and invoke actions on content associated with a selected search result.
In an operation (1), as designated by the circle containing the number “1”, a user finds an element 504 in a source application 502 (or a search results view). In the case of the search results view, the corresponding source application could be a search application or a search feature of an operating system, among other options. Having identified the element, the user expresses an intent to invoke an action on the element 504 through the source application 502. For example, the user may select the phone number from a contact card of a contacts application or a search result from a search results list. In an operation (1′), the source application 502 may use its operating context to directly infer an appropriate action or associated application or to determine the appropriate action and/or associated application by referencing another data source, such as an action catalog 506. For example, if the source application 502 is a contacts application operating in a computing system with telephony capability and the selected element 504 is a phone number in a contacts card, the source application 502 may infer that the appropriate action is to invoke a telephony application (as target application 508) and place a call to that phone number. Accordingly, in the operation (1′), the source application 502 determines a possible action and/or a possible application associated with the element 504.
In an operation (2), the source application 502 packages the element, the identified action, a user interface model (e.g., a flyout, an embedded UI, a hosted window, etc.), and an event source object and invokes an action broker 510 providing the packaged data 505 as an argument to the broker invocation. The packaged data 505 may include a specified action (e.g., an action identifier) and/or a specified application (e.g., an application identifier).
If the packaged data 505 does not include an action identifier, the broker 510 looks up registered actions for the element from the action catalog 506 in an operation (3). If multiple actions are identified, whether in the packaged data or in the look-up operation, an action user interface object 512 presents the user with an opportunity to select the intended action (e.g., from a drop-down menu) in an operation (3′).
In cases where the source application 502 has not specified an application identifier, the action broker 510 queries an action list look up service 514 for applications that are registered for the action/element duple. The action list look up service 514 may determine one or more appropriate applications by querying an online search service 516 in an operation (4′) or an action-application catalog 518 in an operation (4″). If multiple applications are identified in the operation (4) and/or its sub-operations, an application list user interface object 520 presents the user with an opportunity to select the intended application (e.g., from a drop-down menu) in an operation (5).
The action broker 510 either activates a new instance of the target application 508 or connects to a running instance (e.g., based on a scenario preference) via an operation (6). The target application 508 receives the payload (e.g., the request arguments 522), including an event source/sink object 524 to which it can connect, from the source application 502 via a data transfer operation (7). From this point forward, the target application 508 and the source application 502 can maintain a communication channel.
After completion of the specified action, the target application 508 informs the action broker 510 that the action has been completed, in an operation (8). The action broker 510 performs any termination operation (e.g., resource garbage collection, etc.) and informs the source application 502 that the action has been completed in an operation (9).
In summary, a user can choose to launch an action on an element of content associated with a search result or on another element from within a source application (e.g., a search application, a search results view feature provided by an operating system, a music player application, a contacts application, etc.). The source application packages the action along with the content or object and sends it to a broker. The package also includes an application identifier and/or an action identifier. The broker queries a catalog to identify a target application registered under the application identifier or one or more target applications capable of performing the identified action on the content or object. The broker also queries a catalog to determine how the target application should be launched in order to perform the specified action. The broker activates the target application according to the catalog's directives and sends the action request and package to the target application for invocation of the action on the content by the target application.
In some implementations, the action is identified without identification of a specific application. In such circumstances, the catalog can identify one or more applications capable of performing the action on the content or object. These application options may be presented to the user as a prompt to determine his or her preference of application to perform the action on the content or object.
A grouping operation 606 groups the search results for presentation based on a detected shared categorization. For example, search results relating to a musical artist “Michael Jackson” are grouped in one category (e.g., as an entity) for presentation, search results relating to the single malt whisky expert “Michael Jackson” are grouped in another category for presentation, and search results relating to the user's barber “Michael Jackson” are grouped in yet another category for presentation. Such categorization for presentation may be referred to as grouping search results into subgroups.
A presentation operation 608 presents the ranked and grouped search results in an integrated view (e.g., in a single window, in a single application, intermingled and grouped with the integrated view). Search results may be presented according to their ranking within the integrated view in general and/or within individual subgroups.
The system bus 23 may be any of several types of bus structures including a memory bus or memory controller, a peripheral bus, a switched fabric, point-to-point connections, and a local bus using any of a variety of bus architectures. The system memory may also be referred to as simply the memory, and includes read only memory (ROM) 24 and random access memory (RAM) 25. A basic input/output system (BIOS) 26, containing the basic routines that help to transfer information between elements within the computer 20, such as during start-up, is stored in ROM 24. The computer 20 further includes a hard disk drive 27 for reading from and writing to a hard disk, not shown, a magnetic disk drive 28 for reading from or writing to a removable magnetic disk 29, and an optical disk drive 30 for reading from or writing to a removable optical disk 31 such as a CD ROM, DVD, or other optical media.
The hard disk drive 27, magnetic disk drive 28, and optical disk drive 30 are connected to the system bus 23 by a hard disk drive interface 32, a magnetic disk drive interface 33, and an optical disk drive interface 34, respectively. The drives and their associated tangible computer-readable media provide nonvolatile storage of computer-readable instructions, data structures, program modules and other data for the computer 20. It should be appreciated by those skilled in the art that any type of tangible computer-readable media which can store data that is accessible by a computer, such as magnetic cassettes, flash memory cards, digital video disks, random access memories (RAMs), read only memories (ROMs), and the like, may be used in the example operating environment.
A number of program modules may be stored on the hard disk, magnetic disk 29, optical disk 31, ROM 24, or RAM 25, including an operating system 35, one or more application programs 36, other program modules 37, and program data 38. A user may enter commands and information into the personal computer 20 through input devices such as a keyboard 40 and pointing device 42. Other input devices (not shown) may include a microphone (e.g., for voice input), a camera (e.g., for a natural user interface (NUI)), a joystick, a game pad, a satellite dish, a scanner, or the like. These and other input devices are often connected to the processing unit 21 through a serial port interface 46 that is coupled to the system bus, but may be connected by other interfaces, such as a parallel port, game port, or a universal serial bus (USB). A monitor 47 or other type of display device is also connected to the system bus 23 via an interface, such as a video adapter 48. In addition to the monitor, computers typically include other peripheral output devices (not shown), such as speakers and printers.
The computer 20 may operate in a networked environment using logical connections to one or more remote computers, such as remote computer 49. These logical connections are achieved by a communication device coupled to or a part of the computer 20; the implementations are not limited to a particular type of communications device. The remote computer 49 may be another computer, a server, a router, a network PC, a client, a peer device or other common network node, and typically includes many or all of the elements described above relative to the computer 20, although only a memory storage device 50 has been illustrated in
When used in a LAN-networking environment, the computer 20 is connected to the local network 51 through a network interface or adapter 53, which is one type of communications device. When used in a WAN-networking environment, the computer 20 typically includes a modem 54, a network adapter, a type of communications device, or any other type of communications device for establishing communications over the wide area network 52. The modem 54, which may be internal or external, is connected to the system bus 23 via the serial port interface 46. In a networked environment, program engines depicted relative to the personal computer 20, or portions thereof, may be stored in the remote memory storage device. It is appreciated that the network connections shown are example and other means of and communications devices for establishing a communications link between the computers may be used.
In an example implementation, software or firmware instructions and data for providing a search management system, various applications, a search context pipelines, search services, a local file index, a local or remote application content index, a provider API, a contextual application launcher, and other instructions and data may be stored in memory 22 and/or storage devices 29 or 31 and processed by the processing unit 21.
Some embodiments may comprise an article of manufacture. An article of manufacture may comprise a tangible storage medium to store logic. Examples of a storage medium may include one or more types of computer-readable storage media capable of storing electronic data, including volatile memory or non-volatile memory, removable or non-removable memory, erasable or non-erasable memory, writeable or re-writeable memory, and so forth. Examples of the logic may include various software elements, such as software components, programs, applications, computer programs, application programs, system programs, machine programs, operating system software, middleware, firmware, software modules, routines, subroutines, functions, methods, procedures, software interfaces, application program interfaces (API), instruction sets, computing code, computer code, code segments, computer code segments, words, values, symbols, or any combination thereof. In one embodiment, for example, an article of manufacture may store executable computer program instructions that, when executed by a computer, cause the computer to perform methods and/or operations in accordance with the described embodiments. The executable computer program instructions may include any suitable type of code, such as source code, compiled code, interpreted code, executable code, static code, dynamic code, and the like. The executable computer program instructions may be implemented according to a predefined computer language, manner or syntax, for instructing a computer to perform a certain function. The instructions may be implemented using any suitable high-level, low-level, object-oriented, visual, compiled and/or interpreted programming language.
The implementations described herein are implemented as logical steps in one or more computer systems. The logical operations may be implemented (1) as a sequence of processor-implemented steps executing in one or more computer systems and (2) as interconnected machine or circuit modules within one or more computer systems. The implementation is a matter of choice, dependent on the performance requirements of the computer system being utilized. Accordingly, the logical operations making up the implementations described herein are referred to variously as operations, steps, objects, or modules. Furthermore, it should be understood that logical operations may be performed in any order, unless explicitly claimed otherwise or a specific order is inherently necessitated by the claim language.
The above specification, examples, and data provide a complete description of the structure and use of exemplary implementations. Since many implementations can be made without departing from the spirit and scope of the claimed invention, the claims hereinafter appended define the invention. Furthermore, structural features of the different examples may be combined in yet another implementation without departing from the recited claims.
The present application claims benefit of priority to U.S. Provisional Patent Application No. 61/828,591, entitled “Integrated Search Results” and filed on May 29, 2013, which is specifically incorporated by reference for all that it discloses and teaches. The present application is also related to U.S. Nonprovisional patent application Ser. No. ______ [Docket No. 338740.02], entitled “Context-Based Actions from a Source Application;” U.S. Nonprovisional patent application Ser. No. ______ [Docket No. 338741.02], entitled “Application Installation from Search Results;” U.S. Nonprovisional patent application Ser. No. ______ [Docket No. 338742.02], entitled “Search Result Contexts for Application Launch;” U.S. Nonprovisional patent application No. ______ [Docket No. 338743.02], entitled “Application Content Search Management;” and U.S. Nonprovisional patent application Ser. No. ______ [Docket No. 338744.02], entitled “Personalized Prioritization of Integrated Search Results,” all of which are filed concurrently herewith and are specifically incorporated herein by reference for all that they disclose and teach.
Number | Date | Country | |
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61828591 | May 2013 | US |