EP3799658A1 - Systems and methods for crowdsourced actions and commands - Google Patents
Systems and methods for crowdsourced actions and commandsInfo
- Publication number
- EP3799658A1 EP3799658A1 EP19837639.4A EP19837639A EP3799658A1 EP 3799658 A1 EP3799658 A1 EP 3799658A1 EP 19837639 A EP19837639 A EP 19837639A EP 3799658 A1 EP3799658 A1 EP 3799658A1
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- Prior art keywords
- digital assistant
- assistant device
- command
- action dataset
- action
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Definitions
- Digital assistants have become ubiquitously integrated into a variety of consumer electronic devices. Modem day digital assistants employ speech recognition technologies to provide a conversational interface between users and electronic devices. These digital assistants can employ various algorithms, such as natural language processing, to improve interpretations of commands received from a user. Consumers have expressed various frustrations with conventional digital assistants due to privacy concerns, constant misinterpretations of spoken commands, unavailability of services due to weak signals or a lack of signal, and the general requirement that the consumer must structure their spoken command in a dialect that is uncomfortable for them.
- Embodiments described in the present disclosure are generally directed towards systems and methods relating to a crowd-sourced digital assistant for computing devices.
- embodiments facilitate the intuitive creation and distribution of action datasets that include reproducible computing events and associated commands that can be employed to invoke a reproduction of the computing events on computing devices having the crowd-sourced digital assistant installed and/or executing thereon.
- the described embodiments describe a digital assistant system and application that can perform any operation on a computing device by way of a received command, the operations being limited only by the various operations executable on the computing device.
- the described digital assistant and corresponding system provides an ever-growing and evolving library of dialects that enables the digital assistant to leam from its users, in contrast to the frustrating and limited interpretation features provided by conventional digital assistants. Further, because the digital assistant and corresponding system is configured with a framework for distributing improvements to its collection of actionable operations and understandable commands, and because the digital assistant utilizes applications existing on the computing device of each user, privacy concerns typically associated with conventional digital assistants is significantly reduced.
- FIG. 1 is a block diagram of an exemplary computing environment for a crowd-sourced digital assistant system, in accordance with embodiments of the present invention
- FIG. 2 is a block diagram of an exemplary digital assistant device, in accordance with an embodiment of the present disclosure
- FIG. 3 is a block diagram of an exemplary digital assistant server, in accordance with an embodiment of the present disclosure
- FIG. 4 is an exemplary data structure of an action dataset, in accordance with an embodiment of the present disclosure.
- FIG. 5 is a flow diagram showing a method for distributing actionable operations in a crowd-sourced digital assistant network, according to various embodiments of the present invention
- FIG. 6 is another flow diagram showing a method for distributing actionable operations in a crowd-sourced digital assistant network, according to various embodiments of the present invention.
- FIG. 7 is a block diagram of an exemplary computing environment suitable for use in implementing embodiments of the present invention.
- an“operation” can correspond to a final result, output, or computing operation that is generated, executed, or performed by a digital assistant device based on one or more action datasets selected and interpreted for execution by the digital assistant device, each action dataset being comprised of one or more reproducible computing events that can be invoked in response to a received command determined to correspond to the action dataset.
- an “action” is described in reference to an operation that is performed in response to an action dataset selected and interpreted for execution.
- an action can be performed, invoked, initiated, or executed, among other things, and any reference to the foregoing can imply that a corresponding action dataset is selected and interpreted for execution by the digital assistant device to perform the corresponding operation.
- actions can be created, by the digital assistant device, which can record a series of detected events (e.g., inputs) that are typically provided by a user of the digital assistant device when manually invoking the desired operation (e.g., with manual inputs via a touchscreen or other input method of the digital assistant device). That is, to create a new action dataset, the digital assistant device can invoke a recording mode where a user can simply perform a series of computing operations (e.g., manual touches, click inputs) within one or more applications to achieve a desired result or operation.
- a series of computing operations e.g., manual touches, click inputs
- a command representation can be received as speech data and converted to text (e.g., by a speech engine of the digital assistant device), or received as text input data.
- a“command” is referenced herein to describe data, received as speech data or as text data.
- A“command representation,” on the other hand is referenced to describe text data that is received, based on inputs (e.g., keyboard), received speech data converted to text data, or received text data communicated from another computing device.
- A“command template” is referenced herein to describe a portion of a command representation having defined parameter fields in place of variable terms.
- one or more terms or keywords in the received command can be defined as a parameter based on input(s) received from the user.
- a parameter in accordance with the present disclosure, can be referenced as corresponding to one of a plurality of predefined parameter types, such as but not limited to, genre, artist, title, location, name or contact, phone number, address, city, state, country, day, week, month, year, and more. It is also contemplated that the digital assistant device can access from a memory, or retrieve (e.g., from a server), a set of predefined parameter types that are known or determined to correspond to the application or applications for which an action dataset is being created.
- the set of predefined parameter types can be determined based at least in part on corresponding application identifying information.
- the digital assistant device can extract, based on the defined parameters, the corresponding keywords and generate a command template based on the remaining terms and the defined parameters.
- a command template may include the originally received command terms if no parameters are defined, or may include a portion of the originally received command terms with parameter fields defined therein, the defined parameters corresponding to variable terms of a command.
- the digital assistant device can receive, among other things, application identifying information, a recorded series of events, and a set command templates, among other things, to generate a new action dataset that can be retrieved, interpreted and/or invoked by the digital assistant device, simply based on a determination, by the digital assistant device, that a received command or command representation is associated with the action dataset.
- the digital assistant device can reproduce (e.g., emulate, invoke, execute, perform) the recorded series of events associated with the corresponding action dataset, thereby performing the desired operation.
- the parameter term can be employed, by the digital assistant device, to perform custom operations while performing the action. For instance, the digital assistant device can input the parameter term as a text input into a field of the application.
- an action dataset once created by the digital assistant device, can be uploaded (hereinafter also referenced as“on-boarded”) to a remote server for storage thereby.
- the action dataset can be on-boarded automatically upon its generation or on-boarded manually based on a received instruction, by the digital assistant device. It is contemplated that individuals may want to keep their actions or command templates private, and so an option to keep an action dataset limited to locally-storage may be provided to the user (e.g., via a GUI element).
- the server upon receiving an on-boarded action dataset, can analyze the action dataset and generate an associated action signature based on the characteristics and/or contents of the action dataset.
- Contents of an action dataset can include, among other things, application identifying information, corresponding command templates and parameters, and a recorded series of events.
- the action signature can be generated by various operations, such as hashing the on-boarded action dataset with a hashing algorithm, by way of example. It is also contemplated that the action signature can be generated by the on-boarding digital assistant device, the generated action signature then being stored in or appended to the action dataset before it is uploaded to the server.
- the server can determine that the on-boarded action dataset already exists on the server, based on a determination that the action signature corresponds to the action signature of another action dataset already stored on the server.
- the server can either dispose of the on-boarded action dataset or merge the on-boarded action dataset (or determined differing portion(s) thereof) with an existing action dataset stored thereby, preventing redundancy and saving storage space.
- the server can analyze the on-boarded action dataset to determine if its contents (e.g., the recorded events, command templates, metadata) comply with one or more defined policies (e.g., inappropriate language, misdirected operations, incomplete actions) associated with general usage of the digital assistant system.
- the server can employ machine learning algorithms, among other things, to perform a variety of tasks, such as determining relevant parameter types, generating additional command templates for association with an on-boarded or stored action dataset, comparing similarity of events between on-boarded action datasets to identify and select more efficient routes for invoking an operation, and more.
- the server can distribute one or more stored actions datasets to a plurality of digital assistant devices in communication with the server.
- each digital assistant device can receive action datasets or portions thereof (e.g., command templates) from the server.
- the action datasets can be distributed to the digital assistant devices in a variety of ways.
- the server can freely distribute any or all determined relevant action datasets to digital assistant devices.
- an application profile including a list of applications installed on a digital assistant device can be communicated to the server. Based on the application profile for the digital assistant device, the server can distribute any or all determined relevant action datasets to the digital assistant device.
- digital assistant devices can include a variety of operating systems, and versions of applications installed thereon can also vary, it is contemplated that the application profile communicated by a digital assistant device to the server may include operating system and application version information, among other things, so that appropriate and relevant action datasets are identified by the server for distribution to the digital assistant device.
- an action dataset profile including a list of action datasets or action signatures stored on the digital assistant device can be communicated to the server. In this way, only missing or updated action datasets can be distributed to the digital assistant device.
- a user can simply announce a command to the digital assistant device, and if a corresponding action dataset is not stored on the digital assistant device, the digital assistant device can send the command (representation) to the server for determination and selection of a set of relevant action datasets, which can then be communicated to the digital assistant device.
- the digital assistant device can retrieve, from the server, a set of determined most relevant action datasets, without additional configuration or interaction by the user, also reducing server load and saving bandwidth by inhibiting extraneous transfer of irrelevant action datasets.
- a retrieved set of relevant action datasets can be received from the server for invocation by the digital assistant device. It is further contemplated that if two or more action datasets are determined equally relevant to a received command, each action dataset may be retrieved from the server, and the digital assistant device can provide for display a listing of the determined relevant action datasets for selection and execution.
- a user of a digital assistant device can customize command templates associated with an action dataset corresponding to an application installed on their digital assistant device.
- a user can employ the digital assistant (or a GUI thereof) to select an action dataset from a list of action datasets stored on the computing device, select an option to add a new command to the action dataset, and define a new command and any associated parameters for storage in the action dataset.
- the user can add any custom command and parameter that can later be understood by the digital assistant device to invoke the action.
- the custom command and/or modified action can be on-boarded to the server for analysis and storage, as noted above.
- the server can distribute the custom command and/or at least a portion of the modified action dataset to a plurality of other digital assistant devices.
- the list of understandable commands and corresponding actions can continue to grow and evolve, and be automatically provided to any other digital assistant device.
- an example operating environment 100 in which some embodiments of the present disclosure may be employed is depicted. It should be understood that this and other arrangements and/or features described by the enclosed document are set forth only as examples. Other arrangements and elements (e.g., machines, interfaces, functions, orders, and groupings of functions, etc.) or features can be used in addition to or instead of those described, and some elements or features may be omitted altogether for the sake of clarity. Further, many of the elements or features described in the enclosed document may be implemented in one or more components, or as discrete or distributed components or in conjunction with other components, and in any suitable combination and location. Various functions described herein as being performed by one or more entities may be carried out by hardware, firmware, and/or software. For instance, some functions may be carried out by a processor executing instructions stored in memory.
- the system in FIG. 1 includes one or more digital assistant devices 110, H5a, H5b, l !5c, ... 115h, in communication with a server 120 via a network 130 (e.g., the Internet).
- the server 120 also in communication with the network 130, is in communication with each of the digital assistant devices 110, H5a-l l5n, and can also be in communication with a database 140.
- the database 140 can be directly coupled to the server 120 or coupled to the server 120 via the network 130.
- the digital assistant device 110 representative of other digital assistant devices H5a-l l5n, is a computing device comprising one or more applications 112 and a digital assistant module 114 installed and/or executing thereon.
- the one or more applications 112 includes any application that is executable on the digital assistant device 110, and can include applications installed via an application marketplace, custom applications, web applications, side-loaded applications, applications included in the operating system of the digital assistant device 110, or any other application that can be reasonably considered to fit the general definition of an application or mobile application.
- the digital assistant module 114 can provide digital assistant services installed on the digital assistant device 110 or provided by the server 120 via the network 130, or can be implemented at least partially into an operating system of the digital assistant device 110.
- the digital assistant module 114 provides an interface between a digital assistant device 110 and an associated user (not shown), generally via a speech-based exchanged, although any other method of exchange between user and digital assistant device 110 (e.g., keyboard input, communication from another digital assistant device or computing device) remains within the purview of the present disclosure.
- the digital assistant module 114 can convert the speech command to text utilizing a speech- to- text engine (not shown) to extract identified terms and generate a command representation.
- the digital assistant module 114 can receive the command representation, and determine that the command representation corresponds to at least one command template of at least one action dataset stored on the digital assistant device.
- the digital assistant module can generate an index of all command templates stored on the digital assistant device 110 for faster searching and comparison of the received command representation to identify a corresponding command template, and thereby a corresponding action dataset.
- Each indexed command template can be mapped to a corresponding action dataset, which can be interpreted for execution in response to a determination of a confirmed match with the received command representation.
- a command template can include one or more keywords and/or one or more parameters that each have a corresponding parameter type.
- Each command template generally corresponds to an operation that can be performed on one or more applications 112 installed on a digital assistant device 110.
- a plurality of command templates can correspond to a single operation, such that there are multiple equivalent commands that can invoke the same operation.
- commands such as“check in,” check into flight,”“please check in,”“check into flight now,” “check in to flight 12345,” and the like, can all invoke the same operation that, by way of example only, directs the digital assistant module 114 to execute an appropriate airline application on the digital assistant device 110 and perform a predefined set of events or computer operations to achieve the same result.
- the aforementioned commands may lack appropriate information (e.g., the specific airline).
- a user may have multiple applications 112 from various vendors (e.g., airlines) associated with a similar service (e.g., checking into flights).
- a digital assistant device 110 in accordance with embodiments described herein can provide features that can determine contextual information associated with the digital assistant device 110, or its associated user, based on historical use of the digital assistant device 110, profile information stored on the digital assistant device 110 or server 120, stored parameters from previous interactions or received commands, indexed messages (e.g., email, text messages) stored on the digital assistant device, and a variety of other types of data stored locally or remotely on a server, such as server 120, to identify a most relevant parameter and supplement a command to select a most relevant action dataset. More specific commands, such as“check into FriendlyAirline flight,” or“FriendlyAirline check in,” and the like, where a parameter is specifically defined in the command, can be recognized by the digital assistant module 114.
- One or more recognizable commands and corresponding action datasets can be received by the digital assistant device 110 from the server 120 at any time, including upon installation, initialization, or invocation of the digital assistant module 114, after or upon receipt of a speech command by the digital assistant module 114, after or upon installation of a new application 112, periodically (e.g., once a day), when pushed to the digital assistant device 110 from the server 120, among many other configurations. It is contemplated that the action datasets received by the digital assistant device 110 from the server 120 can be limited based at least in part on the applications 112 installed on the digital assistant device 110, although configurations where a larger or smaller set of action datasets received are contemplated.
- digital assistant module 114 can either redirect the user to a marketplace (e.g., launch an app marketplace application) to install the appropriate application determined by the server 120 based on the received command, or can invoke an action training program that prompts a user to manually perform tasks on one or more applications to achieve the desired result, the tasks being recorded and stored into a new action dataset by the digital assistant device 110.
- the digital assistant module 114 can also receive one or more commands from the user (e.g., via speech or text) to associate with the action dataset being generated.
- the action training program can facilitate a definition of such parameters and corresponding parameter types to generate command templates for inclusion in the action dataset being generated.
- a command template(s) is associated with at least the particular application designated by the user and also corresponds to the one or more tasks manually performed by the user, associating the generated command template to the task(s) and thus the desired resulting operation.
- the server 120 can provide a determined most-relevant action dataset to the digital assistant device 110 based on the received command.
- the server 120 can store and index a constantly-growing and evolving plurality of crowd-sourced action datasets submitted by or received from digital assistant devices H5a-ll5n also independently having a digital assistant module 114 and any number of applications 112 installed thereon.
- the digital assistant devices H5a-ll5n may have any combination of applications 112 installed thereon, and any generation of action datasets performed on any digital assistant device 110, 115-115h can be communicated to the server 120 to be stored and indexed for mass or selective deployment, among other things.
- the server 120 can include various machine-learned algorithms to provide a level of quality assurance on command templates included in on-boarded action datasets and/or the tasks and operations performed before they are distributed to other digital assistant devices via the network 130.
- the digital assistant module 114 determines an appropriate action dataset (e.g., one or more tasks to achieve a desired result) having one or more command templates that corresponds to the received command, the digital assistant module 114 can generate an overlay interface that can mask any or all visual outputs associated with the determined action or the computing device generally.
- an appropriate action dataset e.g., one or more tasks to achieve a desired result
- the digital assistant module 114 can generate an overlay interface that can mask any or all visual outputs associated with the determined action or the computing device generally.
- the generation of the overlay interface can include a selection, by the digital assistant module 114, of one or more user interface elements that are stored in a memory of the digital assistant device 110 or server 120, and/or include a dynamic generation of the user interface element(s) by the digital assistant module 114 or server 120 based on one or more portions of the received command and/or obtained contextual data (e.g., determined location data, user profile associated with the digital assistant device 110 or digital assistant module 114, historical data associated with the user profile, etc.) obtained by the digital assistant device 110, digital assistant module 114, and/or server 120.
- the selected or generated one or more user interface elements can each include content that is relevant to one or more portions (e.g., terms, keywords) of the received command.
- such elements can be saved locally on the digital assistant device 110 or remotely on the server 120 for subsequent retrieval by the digital assistant device 110, or can be discarded and dynamically regenerated at any time.
- Example operating environment depicted in FIG. 1 is suitable for use in implementing embodiments of the invention.
- environment 100 is suitable for creating, on-boarding, storing, indexing, crowd-sourcing (e.g., distributing), and invoking actions or action datasets, among other things.
- Environment 100 includes digital assistant device 110, action cloud server 120 (hereinafter also referenced as“server”) and network 130.
- Digital assistant device 110 can be any kind of computing device having a digital assistant module installed and/or executing thereon, the digital assistant module being implemented in accordance with at least some of the described embodiments.
- digital assistant device 110 can be a computing device such as computing device 800, as described below with reference to FIG. 7.
- digital assistant device 110 can be a personal computer (PC), a laptop computer, a workstation, a mobile computing device, a PDA, a cell phone, a smart watch or wearable, or the like. Any digital assistant device described in accordance with the present disclosure can include features described with respect to the digital assistant device 110.
- a digital assistant device can include one or more applications 112 installed and executable thereon.
- the one or more applications 112 includes any application that is executable on the digital assistant device, and can include applications installed via an application marketplace, custom applications, web applications, side-loaded applications, applications included in the operating system of the digital assistant device, or any other application that can be reasonably considered to fit the general definition of an application.
- the digital assistant module can be an application, a service accessible via an application installed on the digital assistant device or via the network 130, or implemented into a layer of an operating system of the digital assistant device 110.
- the digital assistant module 114 can provide an interface between a digital assistant device 110 and a user (not shown), generally via a speech-based exchange, although any other method of exchange between user and digital assistant device may be considered within the purview of the present disclosure.
- action cloud server 120 can be any kind of computing device capable of facilitating the on-boarding, storage, management, and distribution of crowd-sourced action datasets.
- action cloud server 120 can be a computing device such as computing device 700, as described below with reference to FIG. 7.
- action cloud server 120 comprises one or more server computers, whether distributed or otherwise.
- any of the components of environment 100 may communicate with each other via a network 130, which may include, without limitation, one or more local area networks (LANs) and/or wide area networks (WANs).
- LANs local area networks
- WANs wide area networks
- the server 120 can include or be in communication with a data source 140, which may comprise data sources and/or data systems, configured to make data available to any of the various constituents of the operating environment 100.
- Data sources 140 may be discrete from the illustrated components, or any combination thereof, or may be incorporated and/or integrated into at least one of those components.
- digital assistant device 210 (also depicted as digital assistant device 110 of FIG. 1) is suitable for receiving commands or command representations, selecting action datasets to execute by matching received commands to command templates of action datasets, or determining that no action datasets correspond to received commands, interpreting a selected action dataset to execute the associated operation, generating new action datasets, and sending action datasets to or receiving action datasets from a digital assistant server, such as server 120.
- Digital assistant device 210 can include, among other things, a command receiving component 220, an action matching component 230, an action executing component 240, a training component 250, and a server interfacing component 260.
- the command receiving component 220 can receive a command, either in the form of speech data or text data.
- the speech data can be received via a microphone of the digital assistant device 210, or another computing device paired to or in communication with the digital assistant device 210.
- the command receiving component 220 after receiving the speech data, can employ a speech- to-text engine of the digital assistant device 210 to generate a command representation (e.g., a text string of the command).
- Text data received by command receiving component 220 can be received via a virtual keyboard or other input method of the digital assistant device 210, and similarly, can be received from another computing device paired to or in communication with the digital assistant device 210.
- Received text data is already in the form of a command representation, and is treated as such.
- command receiving component 210 can be invoked manually by a user (e.g., via an input to begin listening for or receiving the command), or can be in an always-listening mode.
- action matching component 230 can determine whether one or more action datasets stored on the digital assistant device 210 include a command template that corresponds to or substantially corresponds (e.g., at least 90% similar) to the received command representation.
- a corresponding command template can be identified, and the action dataset of which the corresponding command template is stored in is selected for interpretation by action executing component 240.
- a corresponding command template cannot be identified, and either the training component 250 can be invoked, or the received command is communicated to the digital assistant server (depicted as server 120 of FIG. 1 and digital assistant server 310 of FIG. 3) via the server interfacing component 260.
- the action executing component 240 can receive a selected action dataset, either selected by digital assistant device 210 from local storage, by the digital assistant server from storage accessible thereto, or selected from a list presented by digital assistant device 210.
- the action executing component 240 can, from the received action dataset, interpret event data, which may include executable code, links, deep links, references to GUI elements, references to screen coordinates, field names, or other pieces of data that can correspond to one or more tasks or events stored in the selected action dataset.
- event data When the event data is interpreted, the action executing component 240 can reproduce the events that were recorded when the action dataset was initially generated, by any digital assistant device such as digital assistant device 210.
- the event data can include time delays, URLs, deep links to application operations, or any other operation that can be accessed, processed, emulated, or executed by the action executing component 240.
- events like click or touch inputs can be reproduced on the digital assistant device 210, based on the interpreted event data stored in an action dataset.
- the training component 250 can facilitate the generation of an action dataset, among other things.
- an indication such as a GUI element, indicating that an action recording session has begun may be presented for display.
- a prompt to provide the tasks or events required to perform the desired operation can also be presented for display.
- a user can begin by first launching an application for which the operation is associated with, and proceed with providing inputs to the application (i.e., (performing the requisite tasks).
- the inputs can be recorded by the digital assistant device 210, and the training component 250 can listen for, parse, identify, and record a variety of attributes of the received inputs, such as long or short presses, time delays between inputs, references to GUI elements interacted with, field identifiers, application links activated based on received inputs (e.g., deep links), and the like.
- the recorded inputs and attributes e.g., event data
- the application launched is also identified, and any application identifying information, such as operating system, operating system version, application version, paid or free version status, and more, can be determined from associated metadata and also stored into the new action dataset.
- a user can activate a training termination button, which can be presented as a floating button or other input mechanism that is preferably positioned away from an active portion of the display.
- Other termination methods are also contemplated, such as voice activated termination, or motion activated termination, without limitation.
- the training component 250 can further request that the user provide a set of commands that correspond to the desired operation.
- a command can be received via speech data and converted to a command representation by a speech to text engine, or received via text input as a command representation, among other ways.
- the training component 250 can further prompt the user to define any relevant parameters or variables in the command representations, which can correspond to keywords or values that may change whenever the command is spoken.
- a user may select one or more terms included in the received command representations, and define them with a corresponding parameter type selected from a list of custom, predefined, or determined parameter times, as described herein.
- the training component 250 can then extract the selected one or more terms from a command representation defined as parameter(s), replacing them with parameter field identifier(s) of a corresponding parameter type, and store the resulting data as a command template.
- the training component 250 can then generate the action dataset from the recorded event sequence, the application identifying information, and the one or more defined command templates.
- the training component 250 can generate an action signature or unique hash based on the generated action dataset or one or more portions of data included therein.
- the action signature can be employed by the digital assistant server to determine whether the action dataset or data included therein is redundant, among other things.
- digital assistant server 310 (also depicted as server 120 of FIG. 1) is suitable for establishing connections with digital assistant device(s) 210, receiving generated action datasets, maintaining or indexing received action datasets, receiving commands or command representations to determine one or more most relevant action datasets for selection and communication to a sending digital assistant device of the command or command representation, and distributing action datasets to other digital assistant devices, such as digital assistant device 210.
- Digital assistant server 310 can include, among other things, an on-boarding component 320, an indexing component 330, a maintenance component 340, a relevant component 350, and a distribution component 360, among other things.
- the on-boarding component 320 can receive action datasets generated by one or more digital assistant devices 210 in communication therewith.
- the on- boarding component can generate an action signature for a received action dataset, similar to how a digital assistant device may, as described herein above.
- the action signature can be searched utilizing the indexing component 330, which maintains an index of all action datasets stored by the digital assistant server 310.
- the indexing component 330 facilitates quick determination of uniqueness of received action datasets, and reduces redundancy and processing load of the digital assistant server 310.
- the maintenance component 340 can determine whether any portion of a received action dataset is different than action datasets already stored on or by the server (e.g., in a database), and extract such portions for merging into the existing corresponding action datasets. Such portions may be identified in circumstances where only command templates are hashed in the action signature, or where each portion of the action dataset (e.g., application identifying information, command template(s), event sequence) is independently hashed either by training component 240 of FIG. 2 or on-boarding component 310 of FIG. 3, to more easily identify changes or differences between action datasets.
- a received action dataset can include separate hashes for its application identifying information, event sequence, and command template(s).
- the digital assistant server 310 can employ the indexing component 330 and maintenance component 340 to quickly identify, for instance, that the received action data corresponds to a particular application and operation, or that the command template(s) are different than those stored in the stored action dataset by virtue of the command template hashes being different.
- the independent hash signatures for each portion of data included in an action dataset can facilitate efficient determination of changes or differences between any combination of data portions in a received action dataset and a stored action dataset.
- Relevance component 350 can determine, based on commands or command representations received by a digital assistant device 210, a likelihood that a particular command template corresponds to the received command or command representation. While a variety of relevance determining methods may be employed, a machine learning implementation may be preferable, though a ranking of determined most similar command templates to a command or command representation received from a digital assistant device 210 can also facilitate a determination of relevance and therefore one or more most relevant command templates. Determined most-relevant command templates can thereby facilitate the selection of a most relevant action dataset to be distributed to the command-sending digital assistant device 210.
- the distribution component 360 can distribute or communicate to one or more digital assistant devices 210, determined relevant or most relevant action datasets, determined new action datasets, determined updated action datasets, any portion and/or combination of the foregoing, or generated notifications corresponding to any portion and/or combination of the foregoing, among other things, based on a variety of factors.
- the distribution component 360 can include features that determine, among other things, which applications are installed on a digital assistant device 210. Such features can enable the digital assistant server 310 to determine which action datasets or portions thereof are relevant to the digital assistant device 210, and should be distributed to the digital assistant device 210.
- a digital assistant device 210 profile (not shown) describing all applications currently installed or executable by a digital assistant device 210, can be maintained (e.g., stored, updated) by the digital assistant server 310.
- the profile can be updated periodically, manually, or dynamically by a server interfacing component 260 of the digital assistant device 210 (e.g., whenever the digital assistant is in communication with and sends a command to the digital assistant server 310, or whenever an application is installed or updated on the digital assistant device 210).
- the distribution component 360 can distribute or communicate notifications, action datasets, or portions thereof, in a variety of ways, such as pushing, sending in response to received requests for updates, sending in response to established communications with a digital assistant device 210, or by automatic wide scale (e.g., all digital assistant devices) or selective scale (e.g., region, location, app type, app name, app version) distribution, among other things.
- automatic wide scale e.g., all digital assistant devices
- selective scale e.g., region, location, app type, app name, app version
- FIG. 4 a data structure 400 of an exemplary action dataset 410 in accordance with some of the described embodiments is illustrated.
- the depicted data structure is not intended to be limiting in any way, and any configuration of the depicted data portions of information may be within the purview of the present disclosure. Further, additional data portions or less data portions may be included in an action dataset 410 also remaining within the purview of the present disclosure.
- the action dataset 410 includes application identifying information 420, recorded event sequence data 430, and command templates 440.
- the action dataset 410 further includes hash(es) 450, which can include a hash value generated based on the entire action dataset 410, or hash values generated based on any portion of the aforementioned data portions 420, 430, 440, among other things.
- the action dataset 410 can be generated by training component 250 of digital assistant device 210 of FIG. 2 and/or received from distribution component 360 of digital assistant server 310 of FIG. 3.
- the application identifying information 420 can include information about a particular application that is required for execution to perform a particular operation for which the action dataset 410 was created. Exemplary pieces of application identifying information 420 are depicted in identifying information 425, which can include any one or more of an operating system (OS) name for which the particular application is executed on, an OS version of the aforementioned OS, a defined native language of the aforementioned OS, a name of the particular application, a version of the particular application, and the like. It is contemplated that the application identifying information 420 is required and checked (e.g., by the digital assistant server 310 of FIG. 3), before an action dataset 410 is distributed to a digital assistant device (e.g., digital assistant device 210 of FIG. 2) and employed by the digital assistant device to ensure that the action dataset 410 is compatible with, or can be correctly interpreted by action executing component 240 of FIG. 2, so that the corresponding and desired operation is performed by the digital assistant device 210.
- OS operating system
- the recorded event sequence data 430 can include any or all task or event- related data that was obtained, received, or determined by the digital assistant device (e.g., via training component 250 of FIG. 2) responsible for generating the action dataset 410.
- the recorded event sequence data can include timing attributes of received inputs (e.g., delays before or in between successive inputs, duration of inputs, GUI elements interacted with, relative positions of GUI elements, labels or metadata of GUI elements, scroll inputs and distances, links or URLs accessed activated, detected activation of application deep links activated in response to received inputs, and more).
- the recorded event sequence data 430 may include conditions that require actual user intervention before subsequent events or tasks are resumed.
- the recorded event sequence data 430 may include a condition corresponding to when user authentication has occurred, and instructions (e.g., interpretable by action executing component 240) to proceed with the tasks or events in the recorded event sequence data 430 based upon an occurrence of the condition.
- the action executing component 240 of FIG. 2 can parse metadata, GUI elements, or other information from an executing application to determine when certain events occur or conditions are met.
- a server device such as digital assistant server 310 of FIG. 3, can receive a command transmitted from a digital assistant device, such as digital assistant device 210 of FIG. 2.
- the command can include, among other things, an alphanumeric text representation of a spoken command that was detected by the digital assistant device.
- the digital assistant device can employ a speech-to-text engine or 3 rd -party service to convert the detected spoken command to alphanumeric text before it is communicated to the server device.
- the server device can determine, among other things, that the received command corresponds to an action dataset that is stored by the server device.
- the action dataset can be one of many action datasets stored by the server device, and can be stored in a local memory or a database, such as database 140 of FIG. 1, that is in communication with the server device.
- a stored action dataset can be generated by any computing device, such as a remote computing device or another digital assistant device, which can generate the action dataset and communicate it to the server device for storage, indexing, and maintenance thereof.
- An action dataset can include, among other things, one or more command templates that includes keywords and/or parameter fields, which can be employed by the server device to determine that the received command corresponds to the action dataset.
- each action dataset can include, among other things, a set of instructions that is interpretable by a digital assistant device in accordance with the present disclosure, to reproduce a particular set of operations that can be unique to the action dataset.
- the server device can communicate the action dataset determined to correspond to the received command to the digital assistant device.
- the received command or portions thereof can also be communicated back to the digital assistant device.
- the digital assistant device can, at step 540, reproduce the set of operations included in the received action dataset.
- the communication of the action dataset from the server device to the digital assistant device can cause the digital assistant device, based on its receipt of the action dataset, to reproduce the set of operations included in the action dataset.
- the digital assistant device s interpretation of the included set of operations can reproduce or execute a desired result (e.g., function) that is defined by the set of operations of the action dataset.
- the set of operations can be interpreted by the digital assistant device immediately upon receipt of the action dataset. In some other aspects, the set of operations can be interpreted after a prompt is displayed or audibly reproduced by the digital assistant device and an affirmative confirmation (e.g., selection, user input, or verbal acknowledgement) is received by the digital assistant device. As it is contemplated that in some situations, multiple action datasets may be determined by the server device to correspond to the received command, each of the determined corresponding action datasets can be communicated to the digital assistant device, such that a selection of a preferred operation can be received by the digital assistant device.
- the digital assistant device may present or provide for display a list of corresponding applications of each received action dataset, so that a user can provide a selection (e.g., touch input or audible input) of one of the received action datasets so that it’s included set of operations can be interpreted by the digital assistant device.
- a selection e.g., touch input or audible input
- a server device such as digital assistant server 310 of FIG. 3, can receive an action dataset generated by a remote computing device, such as a computing device 700 described in accordance with FIG. 7.
- the remote computing device can be any digital assistant device, such as described in accordance with digital assistant device 210 of FIG. 2.
- the received action dataset can include, among other things, a set of instructions that is interpretable by any digital assistant device in accordance with embodiments described herein, and may further include one or more command templates having one or more defined keywords and/or parameter fields.
- each command template corresponds to a spoken command or a command representation that can be determined, by the server device or digital assistant device, that the spoken command or command representation corresponds to a particular (or several particular) action dataset(s).
- the server device can receive a command from a digital assistant device, such as digital assistant device 210 of FIG. 2.
- the digital assistant device from which the command was received can be a different digital assistant that had generated and communicated the action dataset to the server device, though the possibility that a single digital assistant device can both generate, send to the server, and receive the same action dataset is considered within the purview of the present disclosure.
- the command can include, among other things, an alphanumeric text representation of a spoken command that was detected by the digital assistant device.
- the digital assistant device can employ a speech-to-text engine or 3 rd -party service to convert the detected spoken command to alphanumeric text before it is communicated to the server device.
- the server device can determine, among other things, that the received command corresponds to an action dataset that is stored by the server device.
- the action dataset can be one of many action datasets stored by the server device, and can be stored in a local memory or a database, such as database 140 of FIG. 1, that is in communication with the server device.
- An action dataset can include, among other things, one or more command templates that includes keywords and/or parameter fields, which can be employed by the server device to determine that the received command corresponds to the action dataset. For instance, the keywords can be compared to the received command, and parameters corresponding to the parameter fields can be extracted from the received command.
- each action dataset can include, among other things, a set of instructions that is interpretable by a digital assistant device in accordance with the present disclosure, to reproduce a particular set of operations that can be unique to the action dataset.
- the server device can communicate the action dataset determined to correspond to the received command to the digital assistant device.
- the received command or portions thereof e.g., extracted parameters
- the digital assistant device when the digital assistant device receives the action dataset from the server device responsive to the command having been sent to the server device, the digital assistant device can, at step 640, reproduce the set of operations included in the received action dataset.
- the communication of the action dataset from the server device to the digital assistant device can cause the digital assistant device, based on its receipt of the action dataset, to reproduce the set of operations included in the action dataset.
- the digital assistant device s interpretation of the included set of operations can reproduce or execute a desired result (e.g., function) that is defined by the set of operations of the action dataset.
- the set of operations can be interpreted by the digital assistant device immediately upon receipt of the action dataset. In some other aspects, the set of operations can be interpreted after a prompt is displayed or audibly reproduced by the digital assistant device and an affirmative confirmation (e.g., selection, user input, or verbal acknowledgement) is received by the digital assistant device. As it is contemplated that in some situations, multiple action datasets may be determined by the server device to correspond to the received command, each of the determined corresponding action datasets can be communicated to the digital assistant device, such that a selection of a preferred operation can be received by the digital assistant device.
- the digital assistant device may present or provide for display a list of corresponding applications of each received action dataset, so that a user can provide a selection (e.g., touch input or audible input) of one of the received action datasets so that it’s included set of operations can be interpreted by the digital assistant device.
- a selection e.g., touch input or audible input
- computing device 700 an exemplary computing device is provided and referred to generally as computing device 700.
- the computing device 700 is but one example of a suitable computing environment and is not intended to suggest any limitation as to the scope of use or functionality of the invention. Neither should the computing device 700 be interpreted as having any dependency or requirement relating to any one or combination of components illustrated.
- Embodiments of the invention may be described in the general context of computer code or machine-useable instructions, including computer-useable or computer- executable instructions, such as program modules, being executed by a computer or other machine, such as a personal data assistant, a smartphone, a tablet PC, or other handheld device.
- program modules including routines, programs, objects, components, data structures, and the like, refer to code that performs particular tasks or implements particular abstract data types.
- Embodiments of the invention may be practiced in a variety of system configurations, including handheld devices, consumer electronics, general-purpose computers, more specialty computing devices, etc.
- Embodiments of the invention may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network.
- program modules may be located in both local and remote computer storage media including memory storage devices.
- computing device 700 includes a bus 710 that directly or indirectly couples the following devices: memory 712, one or more processors 714, one or more presentation components 716, one or more input/output (I/O) ports 718, one or more I/O components 720, and an illustrative power supply 722.
- Bus 710 represents what may be one or more busses (such as an address bus, data bus, or combination thereof).
- I/O input/output
- FIG. 7 is merely illustrative of an exemplary computing device that can be used in connection with one or more embodiments of the present invention. Distinction is not made between such categories as “workstation,” “server,” “laptop,” “handheld device,” etc., as all are contemplated within the scope of FIG. 7 and with reference to“computing device.”
- Computer-readable media can be any available media that can be accessed by computing device 700 and includes both volatile and nonvolatile media, removable and non removable media.
- Computer-readable media may comprise computer storage media and communication media.
- Computer storage media includes both volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules, or other data.
- Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital versatile disks (DVDs) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can be accessed by computing device 700.
- Computer storage media does not comprise signals per se.
- Communication media typically embodies computer-readable instructions, data structures, program modules, or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media.
- modulated data signal means a signal that has one or more of its characteristics set or changed in such a manner as to encode information in the signal.
- communication media includes wired media, such as a wired network or direct-wired connection, and wireless media, such as acoustic, RF, infrared, and other wireless media. Combinations of any of the above should also be included within the scope of computer-readable media.
- Memory 712 includes computer storage media in the form of volatile and/or nonvolatile memory.
- the memory may be removable, non-removable, or a combination thereof.
- Exemplary hardware devices include solid-state memory, hard drives, optical-disc drives, etc.
- Computing device 700 includes one or more processors 714 that read data from various entities such as memory 712 or I/O components 720.
- Presentation component(s) 716 presents data indications to a user or other device.
- Exemplary presentation components include a display device, speaker, printing component, vibrating component, and the like.
- the I/O ports 718 allow computing device 700 to be logically coupled to other devices, including I/O components 720, some of which may be built in. Illustrative components include a microphone, joystick, game pad, satellite dish, scanner, printer, wireless device, etc.
- the I/O components 720 may provide a natural user interface (NUI) that processes air gestures, voice, or other physiological inputs generated by a user. In some instances, inputs may be transmitted to an appropriate network element for further processing.
- NUI may implement any combination of speech recognition, touch and stylus recognition, facial recognition, biometric recognition, gesture recognition both on screen and adjacent to the screen, air gestures, head and eye tracking, and touch recognition associated with displays on the computing device 700.
- the computing device 700 may be equipped with depth cameras, such as stereoscopic camera systems, infrared camera systems, RGB camera systems, and combinations of these, for gesture detection and recognition. Additionally, the computing device 700 may be equipped with accelerometers or gyroscopes that enable detection of motion. The output of the accelerometers or gyroscopes may be provided to the display of the computing device 700 to render immersive augmented reality or virtual reality.
- computing device 700 may include one or more radio(s) 724 (or similar wireless communication components).
- the radio 724 transmits and receives radio or wireless communications.
- the computing device 700 may be a wireless terminal adapted to receive communications and media over various wireless networks.
- Computing device 700 may communicate via wireless protocols, such as code division multiple access (“CDMA”), global system for mobiles (“GSM”), or time division multiple access (“TDMA”), as well as others, to communicate with other devices.
- CDMA code division multiple access
- GSM global system for mobiles
- TDMA time division multiple access
- the radio communications may be a short-range connection, a long-range connection, or a combination of both a short-range and a long-range wireless telecommunications connection.
- a short-range connection may include, by way of example and not limitation, a Wi-Fi® connection to a device (e.g., mobile hotspot) that provides access to a wireless communications network, such as a WLAN connection using the 802.11 protocol; a Bluetooth connection to another computing device is a second example of a short-range connection, or a near-field communication connection.
- a long-range connection may include a connection using, by way of example and not limitation, one or more of CDMA, GPRS, GSM, TDMA, and 802.16 protocols.
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