The present technology relates generally to generating analytical data, and more specifically, but not by way of limitation, to systems, methods, and media for generating analytical data and utilizing the generated analytical data to dynamically generate informational content.
According to some embodiments, the present technology is directed to methods for generating analytical data. The methods may include: (a) capturing one or more audit trails by determining actions performed on one or more publishing servers via one or more client devices, one or more publishing servers adapted to publish informational content; (b) generating analytical data from the one or more audit trails; and (c) storing the generated analytical data in a database.
In additional embodiments, the present technology may include systems for generating analytical data that include: (a) a memory for storing executable instructions for generating analytical data; and (b) a processor configured to execute the instructions stored in the memory to: (i) capture one or more audit trails by determining actions performed on one or more publishing servers via one or more client devices, one or more publishing servers adapted to publish informational content; (ii) evaluate the one or more audit trails to generate analytical data from the one or more audit trails; and (iii) store the generated analytical data in a database.
Additional embodiments include non-transitory computer readable storage mediums having a computer program embodied thereon. The computer program is executable by a processor in a computing system to perform a method for generating analytical data. The method may include: (a) capturing one or more audit trails by determining actions performed on one or more publishing servers via one or more client devices, one or more publishing servers adapted to publish informational content; (b) generating analytical data from the one or more audit trails; and (c) storing the generated analytical data in a database.
In additional embodiments, the present technology may include methods for dynamically generating informational content from analytical data that include: (a) capturing one or more audit trails by determining actions performed on one or more publishing servers via one or more client devices, one or more publishing servers adapted to publish informational content; (b) generating analytical data from the one or more audit trails; (c) comparing the analytical data to informational content in the database; and (d) dynamically generating informational content that corresponds to at least a portion of the analytical data.
While this technology is susceptible of embodiment in many different forms, there is shown in the drawings and will herein be described in detail several specific embodiments with the understanding that the present disclosure is to be considered as an exemplification of the principles of the technology and is not intended to limit the technology to the embodiments illustrated.
Information developers, who create and distribute informational content via multiple channels, and utilizing multiple languages, may desire an understanding of how such informational content is being utilized by end users. Information developers may also desire to understand the relative value of informational content to the preferences of end users. As such, the systems and methods provided herein may be adapted to generate analytical data from actions performed on one or more publishing servers.
It is noteworthy that the term “channel” may be understood to include RSS and news feeds, web content aggregators, web engines, one or more web pages, social networking medias, search engines, online ad engines, banner engines, online news groups, forums, web applications (both standard and mobile), any combinations thereof, or the like. It will be understood that informational content may include any of a document, a web page, an interactive object, a media file, a hotspot, an extensible markup language cross-reference, combinations thereof, etc.
Systems and methods according to the present technology may be adapted to simultaneously bring analytical data closer to the underlying informational content and closer to the actions performed by an end user as they utilize and/or navigate the informational content. For example, information developers may utilize the systems and methods of the present technology to selectively modify informational content that is hosted via a publishing server. The information developers may base their modifications of informational content upon keywords utilized by end users to search for technical manuals, for example, on the publishing server. Stated otherwise, systems and methods provided herein may be adapted to provide information developers with analytical data that allows the information developers to fashion informational content that is more useful to end users. As such, information developers may learn how to speak the language of their customers (e.g., end users). Further, by tracking how information is used, information developers will also understand which products are successful, and which are not. This ties back into product management, but also into marketing as it shows opportunities for new marketing initiatives.
Additionally, systems and methods provided herein may be adapted to enable managed processes that prevent the generation of conflicting informational content and accelerate the delivery of informational content through automated processes. Moreover, the systems and methods may allow end users to save time locating informational content by way of a fully searchable, easy-to-use viewing interface that enables the delivery of informational content that includes but is not limited to text, graphics, audio, and video to make concepts easy to understand.
Some of the functionalities of the systems and methods according to the present technology may be based upon an empirical evaluation of the underlying informational content that end users are utilizing. By better understanding actions performed by the end users, and by being able to directly correlate the outcomes (e.g., success, failure, bounce rates, and so forth) to the underlying informational content, systems and methods provided herein may be utilized to create and target informational content that more closely corresponds to the preferences of end users. These types of analytical data may drive direct changes, additions, or reductions to the informational content managed by information developers.
Additionally, the systems and methods may be adapted to dynamically generate informational content on-the-fly utilizing the analytical data corresponding to end user interactions with a publication server that is utilized to provide informational content.
Generally speaking, the systems and methods provided herein may be adapted to generate analytical data from end user actions performed on a publishing server. The actions performed on the publishing server may be received from one or more client devices communicatively coupled with the publishing server. The analytical data may be utilized to generate informational content that more closely corresponds to the preferences of end users. The preferences of end users may be determined by evaluating actions performed on a publishing server by client devices associated with the end users.
Rather than merely capturing broad analytical data such as page hits, page loads, and so forth, systems and methods according to the present technology may be adapted to utilize both traditional generic analytical data along with content rich analytical data. Systems and methods according to the present technology may be adapted to determine analytical data from content rich audit trails that are captured during end user sessions. A session typically includes one or more actions performed on a publishing server by a client device. Additionally, analytical data may also include device configuration information, user profile information, language preferences, end user skill level, actions performed on a publishing server, and other conditions. In additional embodiments, analytical data may be directly gathered from end user feedback via forms and other feedback methods.
Systems and methods described herein may utilize these content rich audit trails as a basis for filtering and formatting informational content on-the-fly. Rather than providing end users with static informational content, the systems and methods provided herein may be adapted to provide end users with highly relevant informational content that is dynamically modified based upon the preferences and behaviors of the end user.
According to some embodiments, systems and methods provided herein may be adapted to create or modify informational content based upon the languages utilized by end users or by language information associated with informational content frequently accessed on a publishing server. These and other functional and implementational details regarding systems and methods according to the present technology are described in greater detail herein.
Referring to
The client device 105 may include any general purpose computing system that may implement a web browser application or other suitable applications adapted to request and provide information (such as web content) to and from a web sever, such as publishing server 110. A suitable client device 105 may include, for example, the computing system 400 disclosed with reference to
As stated above, the publishing server 110 may be adapted to generate analytical data and utilize the generated analytical data to dynamically generate informational content. For example, the publishing server 110 may be adapted to generate analytical data from actions performed on one or more publishing servers 110 by one or more client devices 105.
According to some embodiments, the publishing server 110 may be adapted to utilize previously generated analytical data for the end user (based upon the client device associated with the end user) along with current device configuration information, and any other content rich analytical data to select, on-the-fly, informational content that corresponds to preferences of the end user.
According to some embodiments, the publishing server 110 may be communicatively connected to a database 120 that is utilized by information developers to store informational content. In some embodiments, the database 120 includes an extensible markup language (XML) database. Informational content generated by the information developers may be stored in the XML database in a native XML format until requested by end users. Upon request, the publishing server 110 may locate informational content that corresponds to preferences of the end user and utilize the preferences of the end user to generate informational content that corresponds to the preferences. It will be understood that the database 120 may utilize the Darwin Information Typing Architecture (DITA) for authoring, producing, and delivering information, although one of ordinary skill in the art will appreciate that other types of information architectures may likewise be utilized in accordance with embodiments according to the present technology.
It will be understood that because the database 120 utilizes DITA architecture in some embodiments, the publishing server 110 may be able to generate informational content in a variety of exemplary formats such as portable document format (PDF) documents via extensible stylesheet language formatting objects (XSL-FO), extensible hypertext markup language, rich text format, and a plurality of application specific informational content formats (e.g., eclipse, java, oracle, and so forth.)
Referring now to
While the executable instructions resident on the publishing server 110 may include any number of modules, engines, applications, functions, and so forth, for the purposes of clarity, the executable instructions may be generally described as an application 200 having one or more modules.
Generally, the application 200 may include a user interface module 205, an analytics module 210, and a content generator engine 215. It will be understood that the application 200 may include fewer or more modules and/or engines and still fall within the scope of the present technology.
In some embodiments, (such as in
The user interface module 205 may be adapted to generate graphical user interfaces that allow end users to interact with the application 200 to, for example, search for and retrieve informational content. The user interface module 205 may be adapted to provide informational content in a visual format that is perceivable by the end users.
Although not shown, the user interface module 205 may generate a search interface adapted to receive search information from end users. It is envisioned that search information may include keywords, Boolean operators, search strings, natural language, functional operators (e.g., wildcard, truncation, and so forth), etc. In some embodiments, the publishing server 110 may be adapted to utilize a Lucene search index system, and/or extensible markup language query language (XQuery) that utilizes the content richness XML formatted data.
Upon a client device 105 accessing the application 200, the analytics module 210 may be executed by the processor of the publishing server 110 to gather information from the client device 105. It will be understood that the analytics module 210 may operate transparently relative to the end user of the client device 105.
In some embodiments, analytical data may be obtained from a user profile established by each end user. The application 200 may be adapted to allow end users to establish and modify a user profile that includes pertinent information regarding the end user. Some examples of the types of information include but are not limited to occupation, name, age, location, product interest, or any other suitable preferences.
In addition to user preferences gathered from a user profile, the analytics module 210 may be adapted to determine content rich analytical data by capturing audit trails from the client device 105. In some instances, each of a plurality of the audit trails corresponds to a session that is initiated by the client device 105 accessing the publishing server 110. One example includes an end user logging onto the application 200 via a login page generated by the user interface module 205.
The session may include the various actions performed by the client device 105 on the publishing server 110 between the initiation of the session and the termination of the session. It will be understood that the termination of the session may include the client device 105 terminating communication with the publishing server 110. For example, the end user may perform a logout event via the application 200.
Between the initiation and termination of the session, the analytics module 210 captures the various actions performed by the client device 105 on the publishing server 110. Non-limiting examples of actions performed include searching, resolving, opening, printing, viewing, visibility time, accessing, requesting, etc., of informational content published by the publishing server 110. One of ordinary skill in the art will appreciate that actions may also be determined from transitional web analytics gathered from the client device 105 such as bounce rates, session rates, click path, frequency, and so forth. Any other suitable actions may be performed in various embodiments.
It will be appreciated that publishing may include generating informational content by obtaining and arranging informational content in a format that may be displayed on a display device of a client device 105. Publishing may also include arranging and generating informational content in a binary format or other format that may be utilized by an application to display informational content in a format that is perceivable to an end user.
The analytics module 210 may be adapted to correlate actions performed on the publishing server 110 by associating the audit trail with a session key. The various actions performed by the client device 105 on the publishing server 110 during the session may be associated with the session key.
In additional embodiments, if an end user logs into the application 200 under a first username, and then subsequently logs into the application 200 utilizing a different username (but still utilizing the same client device 105), the session key may stay the same in order to facilitate tracking the actions of the end user. In such cases, the analytics module 210 may record the change in the audit trial. Therefore, the same audit trail may be utilized for recording new actions performed on the publishing server 110 under the new username.
Upon the termination of the session, the analytics module 210 may destroy the session key, closing the audit trail and providing notification of the termination event to the application 200. Likewise, if the end user times out (e.g., the application is not interacted with for a given period of time) and is logged out, the analytics module 210 may destroy the session key, closing the audit trail.
According to some embodiments, the analytics module 210 may be adapted to associate an audit trail with the publishing server 110 on which actions were performed by a client device 105 via a host key.
Rather than only correlating actions performed on the publishing server 110 by way of a session key, the analytics module 210 may group actions and results together as one or more transactions. That is, transactions may be subsets of actions within an audit trail that are correlated generally according to causes, results, and intervening actions. For example, if an end user performs a search request and then selects an informational document from a list of search results generated by the publishing server 110, the analytics module 210 may infer that the search request successfully caused end users to select particular informational content. In contrast, search results that do not result in a selection of informational content by end users may indicate that additional types of informational content should be created, or that end users are utilizing a different lexicon than the lexicon utilized by the content creators that establish the informational content.
In addition to search transactions, other common transaction types analyzed by the analytics module 210 may relate to the utilization of informational content such as documents, various types of media (e.g., interactive videos, interactive images, audio, and so forth), integration bridges (e.g., for web services, parts ordering, and so forth), and web forms—just to name a few. It will be understood that tracking the utilization of web forms may include providing the various web forms with a form key and an instance key.
In some embodiments, the analytics module 210 may be adapted to track transactions by way of a unique transaction key. All subsequent events in that transaction may be correlated to the transaction via the transaction key such that an entire stream of events may be correlated and later analyzed, either as individual events or as events relative to one another.
In other examples, the analytics module 210 may utilize keywords included in search requests to compare what end users are searching for with what informational content the end users are selecting. These types of empirical data allow information developers to include specific keywords in their informational content to increase the chances of end users selecting the type of informational content desired by the information developers. In addition to keywords, the analytics module 210 may also analyze search transactions associated with search requests to determine the number of search results obtained, the time it took for the publishing server 110 to generate the search result, and whether a full text search was utilized or only a categorical search.
With regard to tracking the utilization of informational content such as documents, the analytics module 210 may be adapted to process document transactions. For example, opening a document may cause the analytics module 210 to generate a transaction key. Subsequent actions relative to the document may be correlated to the opening of the document via the transaction key. Examples of subsequent actions may include printing the document and/or XML cross referencing (XREF) actions.
With regard to tracing the utilization of media, the analytics module 210 may be adapted to, for example, determine the occurrence of the opening of a media file. When a multimedia or image file is opened, a transaction key may be created by the analytics module 210 for the media file. Subsequent actions relative to the opening of the media file may include the creation of XREF events, which may be correlated to the media file via the transaction key.
Additionally, the analytics module 210 may be adapted to determine when a user clicks an XREF (or hotspot) on a web page. For example, if an end user clicks or activates an XREF, hotspot, animation, hyperlink (something active in the graphic that may be related to the graphic via identifying information such as metadata), or the like, this may cause the analytics module 210 to create a transaction key.
Additional transactions tracked and evaluated by the analytics module 210 may include client devices 105 utilizing animations. The analytics module 210 may be adapted to determine if the animation was played all the way through. The analytics module 210 may also be adapted to, for example, determine JavaScript events provided by an ActiveX or graphic plug-in associated with a web browser application.
Individual actions performed on the publishing server 110 may also be utilized by the analytics module 210 to infer usage data relative to informational content. For example, if a substantial majority of end users are accessing how-to manuals for relatively simple tasks such as establishing a user profile, it may be inferred that the mechanisms or processes by which end users establish user profiles are overly complex or non-intuitive. Therefore, system architects or content managers may utilize such information to better refine the mechanisms or processes by which end users establish user profiles.
The analytics module 210 may be adapted to gather device configuration information from the client device such as a media access control (MAC) address, an Internet protocol (IP) address, a web browser application type, a web browser application version, an operating system type, an operating system version, a hostname of the client device, session data associated with a cookie resident on the client device, etc., and combinations thereof.
Moreover, the analytics module 210 may generate analytical data from language preferences determined from actions performed by client devices 105 of publishing servers 110. For example, the analytics module 210 may determine language preferences by evaluating preferences from a web browser application of the client device 105 or from a user profile associated with the application 200. In additional examples, the analytics module 210 may determine language preferences from evaluating the languages of informational content accessed by client devices 105.
As such, the application 200 may infer that the language preference of an end user is, say, English based upon the fact that the client device 105 performs opening actions on English informational content only. The application 200 may also infer language preferences based upon data associated with geo-location information corresponding to the client device 105. Therefore, informational content provided to the client device 105 by the application 200 may be provided in English, either by selecting English informational content, or by translating informational content that corresponds to the preference of the end user that was created in additional languages. It will be understood that if the end user changes language preferences, that change (or changes) to language preference(s) may be recorded and associated with the particular end user via their profile.
In addition to audit trails, the content rich analytical data may be captured by the analytics module 210 from any of transaction data (which may be a subset of an audit trail), device configuration information, language preferences, and so forth. The data may be utilized by the content generator engine 215 to dynamically generate informational content provided in response to a user request for informational content. According to some embodiments, informational content may be generated or selectively modified on-the-fly by the content generator engine 215 to provide end users with up to date informational content that is highly relevant to the preferences of the end users.
Additionally, because end users may utilize filters that are applied to actions they may perform on the publication sever 110, the analytics module 210 may be adapted to determine filtering settings that were being utilized by the end user as they performed actions on the publication sever 110. For example, when a document is opened, it may be valuable for content managers to know what filtering settings were applied so that content managers may understand the actual context of the content the end user was viewing.
Therefore, whenever a filtering condition is established for certain informational content, the filter conditions may be stored along with the audit trail via a unique filter key. Information developers may determine the actual informational content provided to the end user by applying the filter key associated with the informational content. Actual content may be viewed by applying the filter associated with the filter key to the informational content and displaying the actual content on a display device of a computing system.
It will be understood that if an end user resets or changes their filter, a new filter key may be associated with subsequent events relative to the end users utilizing informational content. According to some exemplary embodiments, a filter may be applied on an object-by-object basis (e.g., for each informational content utilized), or may be applied to all events associated with all informational content utilized by the end user.
The content generator engine 215 may be adapted to receive a search request for informational content from a graphical user interface generated by the user interface module 205. It will be appreciated that a search request may also include the selection of an informational topic.
Upon receiving the user request, the content generator engine 215 may cooperate with the analytics module 210 to dynamically generate informational content that substantially corresponds to analytical data generated by the analytics module 210.
In an exemplary operation, an end user may search a publishing server 110 for an installation manual for installing a particular apparatus. The end user inputs the search request utilizing a client device 105. The search request may be provided to the application 200 via a search interface generated by the user interface module 205.
The analytics module 210 may initially determine that the default language of the web browser application associated with the client device 105 is English. Additionally, the analytics module 210 may locate recent searches from the same client device 105 associated with the end user. The analytics module 210 may evaluate previous audit trails associated with the client device 105 by way of session keys, host key(s), and client device information to determine actions performed on the publishing server 110 during the current session.
Based upon the data included in the audit trails or current session data, the analytics module 210 may determine that the end user prefers conceptual informational content rather than highly technical informational content based upon the fact that the end user never or rarely downloads highly technical schematics, but rather only downloads marketing brochures. Moreover, the analytics module 210 may determine from the audit trails that the end user prefers instructional videos based upon the fact that the end user has opened numerous instructional videos several times in previous sessions. The content generator engine 215 may generate informational content that includes a conceptual overview of the apparatus along with an instructional video that explains details regarding the installation of the apparatus.
Rather than providing each end user with a static installation document that contains irrelevant information (which in this case includes overly technical information), the content generator engine 215 may provide the end user with highly relevant informational content. Moreover, because the application 200 may be adapted to correlate an end user (via an associated client device or a username) the application 200 may dynamically generate informational content that is specifically tailored to the preferences of each end user.
The content generator engine 215 may generate informational content by searching the database 120 for informational content that corresponds to the determined analytical data. Because, in some embodiments, the database 120 stores informational content in an XML compatible format, the content generator engine 215 may select various types of informational content (e.g., text, video, audio, image, and so forth) that may be easily combined together, as the various types of content are not stored in their native formats in some exemplary embodiments.
It is noteworthy that the application 200 may be adapted to allow information developers to replay end user sessions by recreating actions performed on the publishing server 110 that were stored in one or more audit trails. The ability for information developers to replay end user sessions allows the information developers to forensically analyze both the behavior of end users and the response of the publishing server 110 to end user actions.
In some embodiments, the application 200 may be executed on client devices 105 that may not be in continual communication with the publishing server 110. Ergo, the analytical module 210 may be adapted to aggregate audit trails that are then pushed to the application 200. The audit trails may be stored locally on the client device 105 when the client device 105 is offline (e.g., not communicatively coupled with the publishing server 110) and subsequently pushed to the publishing server 110 upon the client device accessing the network 115. The application 200 may also be adapted to allow information developers to purge old audit trails. Information developers may specify an appropriate amount of time for the retention of audit trails.
To ensure the security of end user data, client device 105 may interact with the application 200 via an application programming interface (API). The application 200 may assign a key to the API that is utilized by the client device 105 to authenticate the client device 105 when the client device 105 attempts to push audit trails to the application 200. Once the client device 105 communicatively couples with the application 200, the API key is validated and aggregated audit trails are pushed to the application 200.
In further illustrative embodiments, the application 200 may be adapted to generate analytical data regarding informational content that is provided to end users in binary format such as informational content embodied on compact disks, digital video disks, flash memory (e.g., universal serial bus flash drives), and so forth. Feedback, commentary, or other analytical data of the end users relative to the informational content may be pushed to the application 200 from the client device 105 on which the informational content resides.
Referring now to
The method may include the step 310 of generating analytical data from one or more audit trails. In addition to audit trails, analytical data may be generated from any of device configuration information, transaction data (which may be a subset of an audit trail), language preferences, and so forth.
After the step 310 of generating analytical data, the method 300 may include the step 315 of storing the generated analytical data in a database, along with the step 320 of comparing the analytical data to informational content in the database.
Finally, the method may include the step 325 of dynamically generating informational content that corresponds to at least a portion of the analytical data. That is, informational content is created based upon at least a portion of the analytical data rather than creating static informational content that is uniformly provided to each end user. As such, the informational content provided to end users is highly relevant to the preferences of the same.
The components shown in
Mass storage device 430, which may be implemented with a magnetic disk drive or an optical disk drive, is a non-volatile storage device for storing data and instructions for use by processor unit 410. Mass storage device 430 can store the system software for implementing embodiments of the present technology for purposes of loading that software into main memory 410.
Portable storage device 440 operates in conjunction with a portable non-volatile storage medium, such as a floppy disk, compact disk or digital video disc, to input and output data and code to and from the computing system 400 of
Input devices 460 provide a portion of a user interface. Input devices 460 may include an alphanumeric keypad, such as a keyboard, for inputting alphanumeric and other information, or a pointing device, such as a mouse, a trackball, stylus, or cursor direction keys. Additionally, the system 400 as shown in
Display system 470 may include a liquid crystal display (LCD) or other suitable display device. Display system 470 receives textual and graphical information, and processes the information for output to the display device.
Peripherals 480 may include any type of computer support device to add additional functionality to the computing system. Peripheral device(s) 480 may include a modem or a router.
The components contained in the computing system 400 of
Some of the above-described functions may be composed of instructions that are stored on storage media (e.g., computer-readable medium). The instructions may be retrieved and executed by the processor. Some examples of storage media are memory devices, tapes, disks, and the like. The instructions are operational when executed by the processor to direct the processor to operate in accord with the technology. Those skilled in the art are familiar with instructions, processor(s), and storage media.
It is noteworthy that any hardware platform suitable for performing the processing described herein is suitable for use with the technology. The terms “computer-readable storage medium” and “computer-readable storage media” as used herein refer to any medium or media that participate in providing instructions to a CPU for execution. Such media can take many forms, including, but not limited to, non-volatile media, volatile media and transmission media. Non-volatile media include, for example, optical or magnetic disks, such as a fixed disk. Volatile media include dynamic memory, such as system RAM. Transmission media include coaxial cables, copper wire and fiber optics, among others, including the wires that comprise one embodiment of a bus. Transmission media can also take the form of acoustic or light waves, such as those generated during radio frequency (RF) and infrared (IR) data communications. Common forms of computer-readable media include, for example, a floppy disk, a flexible disk, a hard disk, magnetic tape, any other magnetic medium, a CD-ROM disk, digital video disk (DVD), any other optical medium, any other physical medium with patterns of marks or holes, a RAM, a PROM, an EPROM, an EEPROM, a FLASHEPROM, any other memory chip or data exchange adapter, a carrier wave, or any other medium from which a computer can read.
Various forms of computer-readable media may be involved in carrying one or more sequences of one or more instructions to a CPU for execution. A bus carries the data to system RAM, from which a CPU retrieves and executes the instructions. The instructions received by system RAM can optionally be stored on a fixed disk either before or after execution by a CPU.
It is noteworthy that various modules and engines may be located in different places in various embodiments. Modules and engines mentioned herein can be stored as software, firmware, hardware, as a combination, or in various other ways. It is contemplated that various modules and engines can be removed or included in other suitable locations besides those locations specifically disclosed herein. In various embodiments, additional modules and engines can be included in the exemplary embodiments described herein.
The above description is illustrative and not restrictive. Many variations of the technology will become apparent to those of skill in the art upon review of this disclosure. The scope of the technology should, therefore, be determined not with reference to the above description, but instead should be determined with reference to the appended claims along with their full scope of equivalents.
This application is a continuation of and claims the benefit and priority of U.S. patent application Ser. No. 13/037,273, filed on Feb. 28, 2011, titled “SYSTEMS, METHODS, AND MEDIA FOR GENERATING ANALYTICAL DATA”, which is hereby incorporated by reference herein in its entirety including all references and appendices cited therein. This application is also related to U.S. patent application Ser. No. 14/325,198 filed on Jul. 7, 2014 and titled “SYSTEMS, METHODS, AND MEDIA FOR TRANSLATING INFORMATIONAL CONTENT,” now U.S. Pat. No. 9,471,563, issued on Oct. 18, 2016, which is a continuation of and claims the benefit and priority of U.S. patent application Ser. No. 13/037,262, filed on Feb. 28, 2011 and titled “SYSTEMS, METHODS, AND MEDIA FOR TRANSLATING INFORMATIONAL CONTENT”, which are all hereby incorporated by reference herein in their entirety including all references and appendices cited therein.
Number | Date | Country | |
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Parent | 13037273 | Feb 2011 | US |
Child | 16158044 | US |