SYSTEM AND METHODS FOR SETTINGS CARDS

Abstract

The present disclosure relates to methods and devices for the presentation, configuration and operation of an application, including a user interface. In one embodiment, a method includes allowing one or more card elements for a user interface of a device to interact with other devices. Another embodiment is directed to a device configured to provide a user interface and allow for user interaction, including interaction with other devices. The device includes one or more elements to present one or more card elements for a user interface of the device. The device may include a display and a controller configured to control presentation of a card element for a user interface of a device, and control operation of at least one of the device and the user interface based on an operation associated with the card element.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to U.S. Provisional Application No. 62/113,225 titled SYSTEM AND METHODS FOR AN APPLICATION CONFIGURATION AND PRESENTATION filed on Feb. 6, 2015, the content of which is expressly incorporated by reference in its entirety.

This application is related to the concurrently filed applications entitled: SYSTEM AND METHODS FOR APPLICATION USER INTERFACE PRESENTATION AND CARD ELEMENTS filed on ______ and assigned patent application Ser. No. ______; SYSTEM AND METHODS FOR CARD ELEMENT APPLICATION OPERATION filed on ______ and assigned patent application Ser. No. ______; SYSTEM AND METHODS FOR CARD EXCHANGE AND USER INTERFACE PRESENTATION filed on ______ and assigned patent application Ser. No. ______; SYSTEM AND METHODS FOR CONTROL OF CARD ELEMENTS WITHIN AN APPLICATION USER INTERFACE filed on ______ and assigned patent application Ser. No. ______; SYSTEM AND METHODS FOR CARD INTERACTION AND ASSIGNING CARDS TO DEVICES filed on ______ and assigned patent application Ser. No. ______; SYSTEM AND METHODS FOR CARD INTERACTION AND ASSIGNING CARDS TO SPACES filed on ______ and assigned patent application Ser. No. ______; SYSTEMS AND METHODS FOR CONNECT TO CONTROL filed on ______ and assigned patent application Ser. No. ______; SYSTEMS AND METHODS FOR DEVICE TO DEVICE CONTROL filed on ______ and assigned patent application Ser. No. ______; and SYSTEM AND METHODS FOR PRESENTATION OF A USER INTERFACE AND CARD ELEMENTS filed on ______ and assigned patent application Ser. No. ______, the disclosures of which are expressly incorporated by reference.

FIELD

The present disclosure relates to electronic devices and applications, and more particularly to systems, methods and devices configured for exchange, communication and control based on card elements.

BACKGROUND

Technologies associated with network devices, and in particular personal devices, are implemented in various forms and accessible from many sources. Conventional systems are often limited by there configurations. For example, conventional communication protocols and configurations do not allow for devices to connect. Conventional systems that do allow for connectivity are typically platform dependent and usually require profile designations or authentication for interaction. Device configuration requiring a platform specific configuration prevents interaction makes it difficult for a user to interact with other users, interact with other users' devices, or interoperate devices.

BRIEF SUMMARY OF THE EMBODIMENTS

Systems, methods and devices are disclosed for using a settings card. In one embodiment, a method for using a settings card includes displaying, by a user device, a user interface. The user interface presented includes graphical elements for one or more card elements. The user interface presented includes graphical elements for one or more space. The method further includes presenting, by the user device, a graphical element for a settings card, based on a selection of the settings card on the user interface. The method further includes detecting, by the user device, a control input, the control input being an input for the settings card. The method further includes outputting, by the user device, a control command which is based on the control input. The control command is configured to control the operation of one or more third-party devices, which are associated with the settings card.

In another embodiment, a device is configured to system for using a settings card includes a user interface. The system further includes a controller, configured to control the presentation of a card element for the user interface. The system further includes a communications network, linking the user device to a plurality of third-party devices. The system further includes the user device presenting a user row and a device row on a user interface. The system further includes the user device presenting a device list on the user interface, the device list representing a plurality of third-party devices. The system further includes the user device presenting a plurality of user card elements on the user row, such that the user card elements are associated with a selected third-party device, the selected third-party device being one of the plurality of third-party devices on the device list. The system further includes one of the plurality of device card elements being a device settings card. The system further includes the user device allowing a user to select the device settings card and send the device settings card to the user row. The system thus providing the user with access to the device settings card.

Other aspects, features, and techniques will be apparent to one skilled in the relevant art in view of the following brief description of the figures and detailed description of the exemplary embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

The features, objects, and advantages of the present disclosure will become more apparent from the detailed description set forth below when taken in conjunction with the drawings in which like reference characters identify correspondingly throughout and wherein.

FIG. 1A depicts a graphical representation of a simplified system diagram according to one or more embodiments;

FIG. 1B depicts a graphical representation of system entities according to one or more embodiments;

FIGS. 2A-2B depict graphical representations of methods of using a settings card according to one or more embodiments;

FIG. 3 depicts a graphical representation of a user interface according to one or more embodiments;

FIGS. 4A-4B depict a graphical representation of card interaction within the user interface according to one or more embodiments;

FIG. 5 depicts a settings card on the user interface, being used to control a display device according to one or more embodiments;

FIG. 6 depicts a settings card on the user interface, being used to control a plurality of devices according to one or more embodiments; and

FIG. 7 depicts a simplified diagram of a device according to one or more embodiments.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

Overview and Terminology

One aspect of the disclosure is to provide a method and a system for using a settings card. In one embodiment, a mobile operating system/experience (MOX) application is provided for the method of using a settings card to control devices. In another embodiment, a system is disclosed for using a settings card to control devices.

As used herein, a card can relate to graphical elements displayed in a user interface, wherein the card elements can allow for one or more of exchange, communication, control and/or application accessibility. Card elements may be associated with one or more types of cards or capabilities. A card element may have a data structure associated with the each card providing metadata that can allow an application and/or devices to utilize the card. According to one embodiment, each card element can include a graphical element that is represented by a device and/or can include a data record stored by one or more servers or devices that allow for the card to be shard, transmitted, loaned, exchanged, associated, pulled and/or pushed to one or more devices and spaces. Card elements may define capabilities of devices and/or spaces. Card elements may be associated with devices or spaces that are real or virtual. Card elements may be uniquely identified.

As used herein, a MOX application relates to an application having particular core elements that allow for the application to be executed across many different devices and devices types. The application may be platform agnostic and thus, configurable on one or more operating systems or platform types (e.g., linux, etc.). The MOX application provides connectivity, control and/or communication relative to one or more devices. The MOX application can be operated based on communication with a network and/or pear-to-pear communication among devices. The MOX application may operate within a network or system that is an ecosystem or MOX ecosystem. The MOX application may be deployed on one or more devices, entities or spaces that make up a MOX ecosystem.

According to one embodiment, the MOX system is an application that runs on a mobile device. According to another embodiment, MOX provides a unique user interface with many features. Features of the MOX application can be characterized as user interface (user experience) features and architectural features. The MOX system incorporates cards. Cards are displayed as visual elements in the user interface that can be manipulated to provide exchange of data, capabilities, and allow for device control. Card elements may be configured as containers.

As used herein, an entity relates to elements that that are recognized and that make up an ecosystem of the application. An entity may relate to a device, space, and users of an application.

An ecosystem relates to collections of entities that are associated.

Spaces relate to real and virtual locations that are recognized by the application. By way of example, a space may be assigned to one or more of a room, building, floor, home, office or other physical location (e.g., café, office, etc.). Spaces may also be assigned to virtual locations that do not have a corresponding physical location.

A device can relate to devices configured to execute and run a MOX application. A device can also relate to non-MOX devices. Devices may refer to real and virtual devices.

Architectural aspects of the MOX application relate to the card configuration, platform for operating with mobile device OS, and underlying processes for card exchange functionality.

One embodiment is directed to processes for presentation of a user interface and a device configured to present a user interface, such as MOX, with cards.

Another embodiment is directed to an application platform, processes and devices for operating within a MOX platform. MOX may provide a common UI for multiplatform devices, such as a single unified way to control or know even though devices are not connected. The MOX architecture may include one or more of the following attributes: use of cards as containers, defined card architecture, card based metadata (Json Metadata). MOX may allow for spaces and provide a visual of all spaces based on connection. MOX may include a prioritization algorithm based on proximity, known/history, places with access, etc. MOX may allow for a search of virtual spaces. MOX may be configured with a MOX stack and MOX plugin, and security features. MOX may allow the same card to provide different actions on different devices. May be configured to publish card into any device (virtual or real).

MOX may operate based on independently defined APIs, which are available via a RESTful interface (similar to the cloud interface). The APIs may be defined by an OEM to support the device.

In certain embodiments, a MOX card itself is an HTML object, containing relevant resources related to color pallet, and branding, as well as the interactive components. Both the front and the back of the card are supplied by the device itself, and are validated by the cloud.

As used herein, the terms “a” or “an” shall mean one or more than one. The term “plurality” shall mean two or more than two. The term “another” is defined as a second or more. The terms “including” and/or “having” are open ended (e.g., comprising). The term “or” as used herein is to be interpreted as inclusive or meaning any one or any combination. Therefore, “A, B or C” means “any of the following: A; B; C; A and B; A and C; B and C; A, B and C”. An exception to this definition will occur only when a combination of elements, functions, steps or acts are in some way inherently mutually exclusive.

Reference throughout this document to “one embodiment,” “certain embodiments,” “an embodiment,” or similar term means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment. Thus, the appearances of such phrases in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner on one or more embodiments without limitation.

Exemplary Embodiments

Embodiments are directed to settings card interaction within a mobile operating system/experience application. By allowing a settings card to control devices, a user is able to interact with multiple devices from a common user interface. The systems, methods and devices allow for advanced interoperability between connected devices.

Referring now to the figures, FIG. 1A depicts a graphical representation of a simplified system diagram according to one or more embodiments. System 100 may be configured for presentation of an application by device 105. By way of example, system 100 includes one or more devices that may be configured with similar core elements to allow for an application to reside on one or more devices for connectivity, communication, exchange and/or control relative to the devices. Based on the application, device 105 may communicate and interoperate with one or more other devices, such as devices 110_1-n. According to another embodiment, device 105 may communicate and interoperate with one or more other devices, such as devices 120_1-n by way of a communication network 115.

Device 105 may be configured to execute an application, such as a MOX application providing one or more functions, including but not limited to viewing of cards associated with the user device, viewing other devices and cards associated with other devices, exchange of cards between the user device-exchange may be based on one or more of push/fling, pull and exchange of cards and contextual presentation of cards.

According to one embodiment, device 105 is configured to run an application, such as a MOX application, wherein the application is configured to present a user interface. Device 105 includes memory and hardware configured to store and execute and application, such as a MOX application and to operate with one or more card elements.

According to one embodiment, devices 110_1-n relate to one or more devices in close proximity to device 105. Device 105 may be configured to communicate wirelessly with the devices 110_1-n by way of the MOX application. Devices 110_1-n relate to devices associated with a particular space and/or ecosystem. Accordingly, a user interface may identify and/or include graphical elements for devices 110_1-n and for card elements of devices 110_1-n. Devices 120_1-n relate to devices which may be communicated with over communication network 115. Devices 120_1-n may relate to devices in close proximity or distances from device 105. Devices 120_1-n may relate to electronic devices. In some embodiments, devices 120_1-n include one or more servers.

Device 105 may run a MOX application may allow for detection of user input/touch command of a graphical element and movement from one section of the display to another section where the graphical element is a card element, and how the system processes the movement (exchange, interact, control, etc.).

The MOX application can allow for one or more of card presentation, association of cards and entities (e.g., devices, virtual devices), transition of card and/or entities with respect to user actions or spaces, display of cards based on capability matching, selection of which cards to display, user and device avatars, a summary view and detailed view of card, and card comments.

Device 105 may present/provide a user interface and MOX application to allow for hanging cards on devices, controlling devices using cards, borrowing services (e.g., Wi-Fi) using cards, capability sharing (e.g., sharing control of a device), and one or more features built around sharing cards. Device 105 may detect user input/touch commands of a graphical element and movement from one section of the display to another section where the graphical element is a card element. The MOX application processes movement of cards (exchange, interact, control, etc.).

Device 105 includes a display configured to present a user interface and a controller coupled to the display. The controller is configured to present a user interface. An exemplary representation of a user interface is depicted in FIG. 3 according to one or more embodiments. The user interface is presented including graphical elements for one or more card elements, graphical elements for one or more spaces and devices, such as devices 110_1-n and devices 120_1-n.

Architectural aspects of the MOX application can include card configuration, platform for operating with mobile device OS, and underlying processes for card exchange functionality.

Device 105 may be a mobile device or tablet executing an application, such as the MOX application executed by device 105. Although FIG. 1 depicts one device 105, it should be appreciated that system 100 and the application may allow for multiple devices to communicate and interoperate.

System 100 may include a server, such as one of devices 120_1-n and device 105 may be configured to communicate with the server. The device is configured to present a user interface including graphical elements for one or more card elements, detect a user interface command to associate a selected card element presented by the user interface with a selected space presented by the user interface, and output a communication to the server including an association of the selected card element with the selected space, wherein the association of the selected card with the selected space includes updating metadata for the card element.

FIG. 1B depicts a graphical representation of system entities according to one or more embodiments. According to one or more embodiments, an application or electronic platform is provided for communication, control and exchange based on one or more associations. FIG. 1B depicts a graphical representation of application entities for a MOX application system. A MOX system 150 can include a plurality of devices, such as device 155. Device 155 may relate to a representation of device 105 of FIG. 1A. System 150 depicts an exemplary representation of entities that can make up ecosystem of the application with respect to device 155.

Each device in system 150 can be associated with one or more ecosystems. Device 155 is associated with ecosystem 160. Within a MOX system, each device may be associated with different ecosystems. Ecosystems may be particular to a particular device or user. Ecosystem includes a plurality of spaces 165_1-n. According to one embodiment, each of spaces 165_1-n may be associated with device 155 by user selection, location of device 155 and/or by system 150. A user interface of device 150 may display graphical elements associated with one or more of spaces 165_1-n based on the location and/or operation of the device. Spaces 165_1-n may be real or virtual locations. By way of example, spaces 165_1-n may be assigned to one or more of a room, building, floor, home, office or other physical location (e.g., café, office, etc.). Spaces 165_1-n may also be assigned to virtual locations that do not have a corresponding physical location. Each of spaces 165_1-n may be associated with one or more devices, such as device 155 for a user. Based the selection of a space or location of device 155, the user interface may present one or graphical elements for each space. In addition, device 155 may be configured to assign one or more cards with a space.

Card elements 156 are HTML objects, containing relevant resources related to color pallet, and branding, as well as the interactive components. Both the front and the back of the card are supplied by the device itself, and are validated by the cloud.

Each of spaces 165_1-n may include and/or be associated with a plurality of entities 170, spaces 175, devices 180, and cards 185. Entities 170 associated with a space, such as space 165₁, can include MOX and non-MOX enabled devices, users, etc. Spaces 175 associated with a space, such as space 165₁, can include one or more spaces associated based on location, card selection, user preferences/selections, etc. Devices 180 associated with a space, such as space 165₁, can include MOX and non-MOX enabled devices, devices based on location, device assigned to a space etc. Cards 185 associated with a space, such as space 165₁, can include one or more card elements associated by a user to a space, such as cards 156 or cards that may be available while within a space.

Ecosystem 190 may be another ecosystem that is not assigned to device 155. Device 155 may be configured to join or gain access to ecosystem 190 using a MOX application.

Conventional controls for third-party devices do not provide the cross-functionality which is disclosed herein. Often, conventional controls require individual configuration for each and every device. Alternatively, the disclosure herein allows for the control of multiple third-party devices from a single user interface. The number and types of third-party devices are potentially limitless. Each individual third-party device can be controlled, regardless of its type or location, by the single user interface on a single user device. The user interface can also be configured such that third-party devices have pre-set settings. The user interface disclosed can allow for improved connectivity between third-party devices and control of said devices. The user interface disclosed can also eliminate individual control units associated with third-party devices as being completely unnecessary. Improved connectivity, configuration, and control are just some of the improvements disclosed herein.

FIGS. 2A-2B depict graphical representations of the method of using a settings card. FIG. 2A depicts process 200 for the use of a settings card according to one or more embodiments. Process 200 may be performed by a device such as device 105 of FIG. 1A. Process 200 is illustrated from the perspective of the device 105. Process 200 may be configured to present a user interface at block 205. The user interface presented at block 205 may be associated with a MOX application. The user interface may be presented at block 205 including graphical elements for one or more card elements, and graphical elements for one or more spaces. In one embodiment, the user interface includes graphical elements for one or more spaces in one portion of the user interface and the graphical elements for one or more card elements in a second portion of the user interface. For example, the spaces may be icons or graphical elements presented in a top portion of the user interface. Each card element includes graphical display elements in the user interface configured to be manipulated within the user interface to allow for at least one of exchange of data, capabilities, and device control.

At block 210, a graphical element for a settings card is displayed by the user device. The settings card displayed is selected, by the user, from any one of a plurality of settings cards as shown on the user interface.

At block 215, a control input for the settings card is detected by the user device. The control input is specifically associated with the settings card, such that each of the plurality of settings cards has a distinct set of control inputs.

At block 220, a control command is output from the user device. The control command is sent to a device. The control command relates to the control input for a settings card, previously detected at block 215. The control command is configured to control the operation of one or more devices (e.g., MOX devices).

FIG. 2B depicts process 250 for the use of a settings card according to one or more embodiments. Process 250 may be performed by a device such as device 105 of FIG. 1A. Process 250 is illustrated from the perspective of an application (e.g., a MOX application). In an alternate embodiment, the settings card itself is a micro-application, running within the MOX application itself.

At block 255, the application associated with a user device receives a control input. The control input is specifically associated with a settings card, such that each of the plurality of settings cards has a distinct set of control inputs.

At block 260, the application associated with a user device determines the control input's relationship to a device. Each control input is specifically associated with a settings card, and each settings card is specifically associated with at least one of a plurality of devices. This being the case, the application determines how the individual control input relates to the device.

At block 265, the application associated with a user device outputs a control command to the device. The control command output process is sent over a communication link between the application, run on the user device, and the device. The communication link can be through a local network or a more global network, such as the Internet.

FIG. 3 depicts a graphical representation of a user interface according to one or more embodiments. The user interface is displayed on a user device 305. The user device 305 can be a cellular phone, an electronic tablet, an e-reader, a laptop computer, or any other device with control capabilities and a connection to a communication network. The user interface is presented including graphical elements for one or more card elements including graphical elements for one or more spaces. User interface features allow for one or more of viewing of cards associated with the user device, viewing other devices and cards associated with other entities (e.g., other devices, spaces), and exchange of cards between the user device. Exchange may be based on one or more of push/fling, pull and exchange of cards. The user interface also allows for contextual presentation of cards.

In one embodiment, the user interface may provide card Interaction by way of an Exchange View. A MOX application may provide processes and device for exchange of a card via a user interface (MOX). User interface features and processes for showing cards include a detailed view and summary view when selected, capability matching, communication of device features, devices indicating that services and capabilities are available, and associating content with any device so that content appears to reside on the device.

In one embodiment, MOX may provide card interaction including a push operation. The push operation may include one or more of a fling gesture of card, a profile card, settings card, cards in general, etc., hanging a card, capabilities (network access, temporary control of a device, guest features, etc.) capability matching, appearance of card transition.

In one embodiment, MOX may provide card interaction including a pull operation. The pull operation may include one or more of pulling a device card, borrowing capabilities, capability matching, pulling settings vs. pulling an app., pulling a card off of a device, appearance of card transition.

In one embodiment, MOX may provide card interaction including Assigning/associating cards to devices (virtual or connected). The operation may include one or more of a device that is connected or not is presented in the MOX UI and connection to the device (whether virtual or actual) based on card, processes for identification based on scanning, and searching for non-connected and connected devices, associating devices (connected or not with spaces), and creating a virtual equivalent.

In one embodiment, MOX may provide card interaction including assigning cards to spaces or card hanging. The operation may include one or more of processes and device where a card may be assigned to a space, including acts for flinging, pushing or hanging card to a space, presentation of the card on other devices, presenting cards based on a space that a device is in, card presentation based on geolocation.

One embodiment is directed to detection of user input/touch command of a graphical element and movement from one section of the display to another section where the graphical element is a card element. The MOX application processes movement of cards (exchange, interact, control, etc.). The application allows for description of card presentation, description of cards and entities (e.g., devices, virtual devices) in user interface, transition of card and/or entities with respect to user actions or spaces, display of cards based on capability matching, selection of which cards to display, user and device avatars, design summary view and detailed view of card, and card comments.

User interface features allow the MOX application to provide functions including hanging cards on devices, controlling devices using cards, borrowing services (e.g., Wi-Fi) using cards, capability sharing (e.g., sharing control of a device), and one or more features built around sharing cards.

The user interface of the user device 305 has a number of individual features, such as a user row 333 and a device row 331. The user interface also presents a device list 325. The device list includes a listing of a plurality of third-party devices 310₁, 310₂, 310_n, 330, 320₁, 320₂, and 320_n. In this embodiment, there is no limit to the number of devices listed in the device list 325. Some of the devices, 310₁, 310₂, 310_n, are connected directly with the user device 305. Some of the devices, 320₁, 320₂, and 320_n, are connected to the user device 305 by a communication network. The communication network can be a local network or a more global network, such as the Internet.

The user interface of the user device 305 also presents a plurality of user card elements 334 which are stored on the user row 333. These user card elements 334 are associated with the user device 305. Likewise, the user interface of the user device 305 presents a plurality of device card elements 332 which are stored on the device row 331. These device card elements 332 are associated with a selected third-party device 330. The selected third-party device is one of the plurality of third-party devices which are listed on the device list 325. The user has the ability to select any third-party device, 310₁, 310₂, 310_n, 330, 320₁, 320₂, and 320_n, and upon selection, the user's choice will become the selected third-party device 330. Once the user has made a choice for the selected third-party device 330, the device row 331 will automatically update such that the device row 331 displays the plurality of device card elements 332 associated with the selected third-party device 330.

FIG. 4A depicts card interaction within the user interface for the user. The user interface is displayed on the user device 405. The user interface presents a user row 433 and a device row 431. The user interface also presents a device list 425. The device list includes a listing of a plurality of third-party devices 410₁, 410₂, 410_n, 430, 420₁, 420₂, and 420_n. In this embodiment, there is no limit to the number of devices listed in the device list 425. Some of the devices, 410₁, 410₂, 410_n, are connected directly with the user device 405. Some of the devices, 420₁, 420₂, and 420_n, are connected to the user device 405 by a communication network. The communication network can be a local network or a more global network, such as the Internet.

The user has the ability to select any third-party device, 410₁, 410₂, 410_n, 430, 420₁, 420₂, and 420_n, and upon selection, the user's choice will become the selected third-party device 430. Once the user has made a choice for the selected third-party device 430, the device row 431 will automatically update such that the device row 431 displays the plurality of device card elements associated with the selected third-party device 430. One of these device card elements in the device row 431 is the settings card 435. The settings card is a device card element that specifically controls the functional settings of the selected third-party device 430 which is associated with the settings card 435.

The user device 405 allows for the user to send the settings card 435 from the device row 431 to the user row 433. The user does this through a tactile motion. The tactile motion can be one continuous swipe, flick, fling, or similar gesture. Alternatively, the tactile motion can be a plurality of tapping motions.

Once the settings card 435 has been sent to the user row 433 of the user device 405, the user can access the settings card 435. The user has the ability to control the settings of the selected third-party device 430 through the settings card 435.

In an embodiment, when the settings card 435 is selected by the user, the settings card 435 becomes overlayed on top of the user interface. The settings card can be overlayed on top of device card elements in the device row 431 and on top of user card elements in the user row 433. When overlayed on top of the user interface, the settings card 435 is shown to the user in an enlarged or a magnified view, such that the user can easily read the contents of the settings card 435.

FIG. 4B depicts card interaction within the user interface for the user, according to a different embodiment. The user interface is displayed on the user device 455. The user device 455 allows for the user to select a settings card 485. The user does this through a tactile motion. The tactile motion can be one continuous swipe, flick, fling, or similar gesture. Alternatively, the tactile motion can be a plurality of tapping motions. When the settings card 485 is selected by the user, the settings card 485 populates the entire user interface of the user device 455. The settings card 485 is shown to the user in an enlarged or a magnified view, by populating the entire user interface of the user device 455, such that the user can easily read the contents of the settings card 485.

Once the settings card 485 has been selected by the user, the user can access the settings card 485. The user has the ability to control the settings of the selected third-party device through the settings card 485.

FIG. 5 depicts a settings card on the user interface, being used to control a device. The settings card can be used to control any number of devices, including devices associated with the Internet of things. This could include home automation devices, heating and cooling systems, lighting systems, media devices, personal electronics, appliances, office devices, meeting room devices, audio-visual devices, and public location devices.

In an embodiment shown, the user has already chosen a selected third-party device 530 on the user device 505. Furthermore, the user has already moved the settings card 535 associated with the selected third-party device 530 into the user row. Therefore, the user has access to the settings card 535 through the user interface of the user device 505.

In one embodiment, the selected third-party device 530 is a display device 510. The user is accessing the settings card 535 associated with the display device 510. Through this access, the user can control the channel and volume on the display device 510 directly from the user device 505. In this embodiment, the settings card 535 also has limitations. Namely, that only certain functionalities of the display device 510: channel and volume, can be controlled by the user device 505.

In a different embodiment, the settings card 535 has access limitations, such that only certain user devices can access the settings card 535 and thus control the selected third-party device 530. As one example, a husband and wife could allow their personal user devices to have access to their display device 510 through the settings card 535 while simultaneously restricting all other user devices, such as their neighbors' user devices, from accessing their display device 510 through the settings card 535.

In a different embodiment, the settings card 535 has timing limitations, such that a user device 505 can only access the settings card 535 to control the selected third-party device 530 during certain days or certain times of the day. In another different embodiment, the settings card 535 has proximity limitations, such that a user device 505 can only access the settings card 535 to control the selected third-party device 530 when the user device 505 is within a predefined geophysical boundary.

In a different embodiment, the settings card 535 associated with the selected third-party device 530 stores a favorite's profile of pre-set, preferred, settings for the third-party device 530. In an embodiment, the settings card 535 initially shows the user the display device's 510 preferred settings: the channel set at 23 and the volume set at 14. In a related embodiment, the settings card 535 associated with the selected third-party device 530 stores a user profile, associated with the user device's 505 access to the third-party device 530, the user profile being a record of the user's preferred settings.

While the embodiment shown in FIG. 5 relates to a selected third-party device 530 on the user device 505, such that the user has already moved the settings card 535 associated with the selected third-party device 530 into the user row, there are alternate ways to control a third-party device on the user device 505.

In an alternate embodiment, the user device 505 has a settings card 535 pre-loaded onto the user device 505. The user does not have to select a third-party device and subsequently move the settings card for that third party device onto the user row. Rather, the user device 505 has saved the settings card 535 for a third-party device onto the user row. This being the case, the user can access the settings card 535 for a third-party device immediately, without having to select the third-party device from a device list, move the settings card for a particular device from the device row to the user row, and then access the settings card 535.

FIG. 6 depicts a settings card on the user interface, being used to control a plurality of devices. In this embodiment, the user has already chosen a selected third-party device 630 on the user device 605. Furthermore, the user has already moved the settings card 635 associated with the selected third-party device 630 into the user row. Therefore, the user has access to the settings card 635 through the user interface of the user device 605.

In an embodiment, the selected third-party device 630 is a linked network which is made up of a plurality of linked devices: 610₁, 610₂, and 610₃, in separate locations. The user is accessing the settings card 635 associated with the plurality of linked devices 610₁, 610₂, and 610₃. Because multiple devices are associated with a single selected third-party device 630, and thus a single settings card 635, the multiple device can be controlled simultaneously, through a single settings card 635 accessed by a single user device 605. Through this access, the user can control all of the plurality of linked devices 610₁, 610₂, and 610₃ directly from the user device 605. In this embodiment, the plurality of linked devices 610₁, 610₂, and 610₃ associated with the settings card 635 are not directly linked with the user device 605. Rather, the user device 605 and the plurality of linked devices 610₁, 610₂, and 610₃ are linked through a communication network 615. This communication network 615 can be a local network or a more global network, such as the Internet.

FIG. 7 depicts a simplified diagram of a device according to one or more embodiments. Device 700 may relate to one or more devices for providing an application, such as a MOX application. According to another embodiment, device 700 may relate to one or more devices configured to run a MOX core. In one embodiment, device 700 relates to a device including a display, such as a TV, mobile device, or device having a display in general. According to another embodiment, device 700 may be devices, such as a set-top box, configured to output content to a display device. According to another embodiment, device 700 may be devices without a display. As shown in FIG. 7, device 700 includes controller 705, graphical user interface 710, communications unit 715 and memory 720.

Controller 705 may be configured to execute code stored in memory 720 for operation of device 700 including presentation of a graphical user interface. Controller 705 may include a processor and/or one or more processing elements. In one embodiment controller 705 may be include one or more of hardware, software, firmware and/or processing components in general. According to one embodiment, controller 705 may be configured to perform one or more processes described herein. Graphical user interface 710 may be configured to receive one or more commands via an input/output (I/O) interface 725 which may include one or more inputs or terminals to receive user commands. When device 700 relates to a TV, I/O interface 725 may receive one or more remote control commands.

Controller 705 may be configured to run a MOX application, the MOX application including one or more card elements, restful APIs, a MOX core and a MOX configuration.

Communications unit 715 may be configured for wired and/or wireless communication with one or more network elements, such as servers. Memory 720 may include non-transitory RAM and/or ROM memory for storing executable instructions, operating instructions and content for display.

In an alternate embodiment, the plurality of linked devices could be home automation devices, heating and cooling systems, lighting systems, media devices, personal electronics, appliances, office devices, meeting room devices, audio-visual devices, and public location devices.

It will be appreciated that all of the disclosed methods and procedures described herein can be implemented using one or more computer programs or components. These components may be provided as a series of computer instructions on any conventional computer-readable medium, including RAM, ROM, flash memory, magnetic or optical disks, optical memory, or other storage media. The instructions may be configured to be executed by a processor, which when executing the series of computer instructions performs or facilitates the performance of all or part of the disclosed methods and procedures.

It should be understood that various changes and modifications to the example embodiments described herein will be apparent to those skilled in the art. Such changes and modifications can be made without departing from the spirit and scope of the present subject matter and without diminishing its intended advantages. It is therefore intended that such changes and modifications be covered by the appended claims.

While this disclosure has been particularly shown and described with references to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the claimed embodiments.

Claims

1. A method for using a card, the method comprising:

displaying, by a first device, a user interface, wherein the user interface is presented including graphical elements for one or more card elements, and wherein the user interface is presented including graphical elements for one or more devices;

displaying, by the first device, a graphical element for a card, based on a selection of the card on the user interface;

detecting, by the first device, a control input, the control input being an input for the card; and

outputting, by the first device, a control command based on the control input, wherein the control command is configured to control the operation of one or more devices associated with the card.

2. The method of claim 1, wherein the card is a micro-application configured to control one or more devices associated with the card.

3. The method of claim 1, wherein the control command is configured to control the operation of a display device.

4. The method of claim 1, wherein the control command is configured to control a plurality of devices.

5. The method of claim 1, wherein the control command is pre-configured to control a plurality of associated devices.

6. The method of claim 1, wherein the card is configured for limited control functionality of devices associated with the card.

7. The method of claim 1, wherein the card is configured to be loaned to devices associated within a location of card devices.

8. The method of claim 1, wherein the card stores a favorite profile for a device.

9. The method of claim 1, wherein the card stores a user profile associated with access to devices based on preferred settings.

10. A device comprising:

a display; and

a controller coupled to the display, wherein the controller is configured to control display of a user interface, wherein the user interface is presented including graphical elements for one or more card elements, and wherein the user interface is presented including graphical elements for one or more of a plurality of devices; control display of display a graphical element for a card, based on a selection of the card on the user interface; detect a control input, the control input being an input for the card; and output a control command based on the control input, wherein the control command is configured to control the operation of the plurality of devices associated with the card.

11. The device of claim 10, wherein the card is a micro-application configured to control one or more devices associated with the card.

12. The device of claim 10, wherein the control command is configured to control the operation of a display device.

13. The device of claim 10, wherein the control command is configured to control the plurality of devices.

14. The device of claim 10, wherein the control command is pre-configured to control a plurality of associated devices.

15. The device of claim 10, wherein the card is configured for limited control functionality of devices associated with the card.

16. The device of claim 10, wherein the card is configured to be loaned to devices associated within a location of card devices.

17. The device of claim 10, wherein the card stores a favorite profile for a device.

18. The device of claim 10, wherein the card stores a user profile associated with access to devices based on preferred settings.