EP4097671A1 - Universal voice assistant - Google Patents
Universal voice assistantInfo
- Publication number
- EP4097671A1 EP4097671A1 EP21768318.4A EP21768318A EP4097671A1 EP 4097671 A1 EP4097671 A1 EP 4097671A1 EP 21768318 A EP21768318 A EP 21768318A EP 4097671 A1 EP4097671 A1 EP 4097671A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- appliance
- command
- computer
- recited
- user
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
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Classifications
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q30/00—Commerce
- G06Q30/02—Marketing; Price estimation or determination; Fundraising
- G06Q30/0241—Advertisements
- G06Q30/0251—Targeted advertisements
- G06Q30/0269—Targeted advertisements based on user profile or attribute
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q30/00—Commerce
- G06Q30/06—Buying, selling or leasing transactions
- G06Q30/0601—Electronic shopping [e-shopping]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/2803—Home automation networks
- H04L12/2807—Exchanging configuration information on appliance services in a home automation network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/2803—Home automation networks
- H04L12/2816—Controlling appliance services of a home automation network by calling their functionalities
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/2803—Home automation networks
- H04L12/2823—Reporting information sensed by appliance or service execution status of appliance services in a home automation network
Definitions
- Personal communication, productivity, and entertainment devices are known to include voice platforms, for example, the “ALEXA” cloud-based, voice service platform, the “SIRI” cloud-based, voice service platform, the “GOOGLE ASSISTANT” cloud- based, voice service platform, etc.
- voice service platforms generally function to convert spoken words to text using automatic speech recognition (ASR), to deduce the speaker’s meaning using natural language understanding (NLU), and to provide the underlying customer intent to an app - also referred to as a “skill,” “action,” or the like.
- ASR automatic speech recognition
- NLU natural language understanding
- An app once installed on a voice sendee enabled device, functions to give the voice sendee enabled device an ability to communicate with other devices, websites, sendees, and the like and, in some instances, functions to provide a user interface for interacting with a device, website, service, and the like.
- devices, websites, sendees, and the like are generally configured to be operable with different ones of the various cloud-based, voice sendee platforms, it is seen that there is a challenge in getting devices to work together, for example, to provide true connectivity within a “connected home.” The following disclosure is intended to address this problem among others.
- This following relates generally to systems and methods for enabling voice interaction with appliances, services (e.g., media streaming services, gaming services, news feed services, social platform services, etc.), and the like by way of appropriate supplied apps which may be presented or downloaded to a smart device having associated therewith one or more cloud-based, voice service platforms.
- an agent program resident in the smart device may periodically scan a local network environment (e.g., a wired and/or wireless network), listen for the utterance of keywords, and/or the like for the purpose of detecting the presence of one or more cloud-based voice service platforms, appliances, services, etc., either automatically or at user request.
- a local network environment e.g., a wired and/or wireless network
- the setup agent may initiate a download (and sometimes automatic installation) of an appropriate app for the detected cloud-based voice service platform, appliance, service, or the like, or, in those cases where a suitable app is found to be already included in the system, the setup agent may initiate any actions necessary to install or enable the app and, furthermore, may function to synchronize the app, after installation, with the detected cloud-based, voice service platform, appliance, or service.
- Such actions may include, for example, status download and update, transfer of user authentications, etc.
- the setup agent may also make use of a cloud based service or services to determine if an app is available for a newly detected appliance, service, or the like and, if necessary, to coordinate, authentication and synchronization of the app with the voice enabled platform and/or across all smart devices, devices, services, etc. that are currently present in an environment as desired.
- FIGS. 1 and 2 illustrate exemplary systems in which a standalone device may be utilized to control operation of several appliances
- FIGS. 3 and 4 illustrate exemplary systems in which control functionality may be incorporated into an appliance which is part of a home entertainment system
- Figure 5 illustrates a block diagram of an exemplary controlling device
- Figure 6 illustrates a graphical representation of an exemplary control environment
- Figure 7 illustrates an exemplary preferred command matrix for use in a control environment, for example, as illustrated in Figure 6;
- Figure 8 illustrates a block diagram of an exemplary smart device which may support a remote control app and a setup method for use in configuring the smart device as a controlling device;
- Figure 9 illustrates an exemplary series of steps which may be performed in order to set up and configure the smart device of Fig. 8;
- Figure 10 illustrates an exemplary series of steps which may be performed in order to define to a control device an appliance configuration which corresponds to a user activity
- Figure 11 illustrates exemplary activity configuration matrices such as may be defined during the steps of Figure 10;
- Figure 12 illustrates an exemplary current appliance state matrix which may be maintained by a data repository associated with a controlling device for use in determining the commands necessary to invoke one of the states defined by the matrix of Figure 11;
- Figure 13 illustrates an exemplary series of steps which may be performed by a controlling device in issuing a function command to an appliance
- Figure 14 illustrates an exemplary series of steps which may be performed by a controlling device in establishing appliance states matching a desired activity defined in one of the matrices of Figure 11;
- Figure 15 illustrates an exemplary series of steps which may be performed by a smart device to setup command control macros
- Figure 16 illustrates an exemplary series of steps which may be performed to configure a controlling device for issuing command communications via use of RF communication methodologies
- FIG. 17 illustrates an exemplary system in which a smart device may be utilized to interface several different appliances
- Figures 18A and 18B illustrate exemplary smart device generated user interfaces appropriate for interacting with one of the appliances of Figure 17;
- Figure 19 illustrates in block diagram form an exemplary smart device which may be used in the exemplary systems of Figures 17 and 18 A;
- Figure 20 illustrates in flow chart form an exemplary series of steps carried out by a smart device setup agent upon detection of a network enabled appliance in its environment
- Figure 21 illustrates in flow chart form an exemplary series of steps carried out by a smart device setup agent to synchronize status and other data across multiple instances of an appliance interface app;
- Figure 22 illustrates a series of steps for using a token to facilitate installation of an app in a voice-enabled smart device
- Figure 23 illustrates a series of steps for processing voice input in a native language of a user
- Figure 24 illustrates an exemplary system including a voice service enabled smart device
- Figure 25 illustrates exemplary components of a voice service enabled smart device.
- a device 100 (which is preferably capable of supporting one or more cloud-based, voice service platforms for the purpose of making the device 100 voice service enabled) may be used to at least issue commands to control various controllable appliances, such as a television 106, a cable set top box combined with a digital video recorder (“STB/DVR”) 110, a DVD player 108, and an AV receiver 120.
- STB/DVR digital video recorder
- controllable appliances may include, but need not be limited to, televisions, VCRs, DVRs, DVD players, cable or satellite converter set-top boxes (“STBs”), amplifiers, CD players, game consoles, home lighting, drapery, fans, HVAC systems, thermostats, personal computers, etc.
- STBs cable or satellite converter set-top boxes
- CD players CD players
- game consoles home lighting, drapery, fans, HVAC systems, thermostats, personal computers, etc.
- such devices may have an associated app, also referred to herein as a “skill,” “action,” or the like, that functions to provide the cloud-based voice service platform enabled device 100 with an ability to communicate with these devices (and with other devices, websites, sendees, and the like as desired and/or required).
- appliance commands may be caused to be issued by device 100, when appropriately configured, in response to infrared (“IR”) request signals 116 received from a remote control device 102, radio frequency (“RF”) request signals 118 received from an app 124 resident on a smart device 104 or any other device from which device 100 may be adapted to receive requests, using any appropriate communication method.
- IR infrared
- RF radio frequency
- the device 100 when appropriately configured, will respond to voice communications received via use of, for example, one or more microphones provided to device 100.
- requested transmission of any commands from the device 100 to appliances 106,108,112,120 may take the form of wireless IR signals 114, CEC commands issued over a wired “HDMI” interface 112, RF signals such as contemplated by “RF4CE,” “ZWAVE,” and “BLUETOOTH,” etc. as appropriate to the capabilities of the particular appliance to which each command may be directed.
- AV receiver 120 may not support “HDMI” inputs, being connected to audio source appliances 108,110 via S/PDIF interfaces 122.
- device 100 may be constrained to transmit all commands destined for AV receiver 120 exclusively as IR signals, while commands destined for the other appliances 106 through 110 may take the form of either CEC, RF, or IR signals as appropriate for each command.
- CEC volume adjustment via CEC.
- certain TV manufacturers may elect not to support volume adjustment via CEC. If the illustrative TV 106 is of such manufacture, device 100 may relay volume adjustment requests to TV 106 as IR signals 114, while other requests such as power on/off or input selections may be relayed in the form of CEC commands over “HDMI” connection 112.
- transmissions to and from device 100 may take the form of any convenient IR, RF, hardwired, point-to-point, or networked protocol, as necessary for a particular embodiment.
- wireless communications 116, 118, etc., between exemplary devices are illustrated herein as direct links, it should be appreciated that in some instances such communication may take place via a local area network or personal area network, and as such may involve various intermediary devices such as routers, bridges, access points, etc. Since these items are not necessary for an understanding of the instant invention, they are omitted from this and subsequent Figures for the sake of clarity.
- device 100 may receive wireless request signals from a remote control 200 and/or an app resident on a tablet computer 202.
- command transmissions to appliances 106,108,110 may take the form of wired CEC commands or wireless RF or IR commands.
- remote control 200 may be in bi-directional communication 208 with device 100 and accordingly the device 100 may delegate the transmission of certain commands, such as IR commands 210, to the remote control device 200 or to yet another device adapted to provide command signaling, e.g., use remote control 200 as a relay device for those commands determined to be best executed via IR transmissions.
- a setup app 214 executing on a smart device may be utilized in conjunction with an Internet (212,204) accessible or cloud based server 206 and associated database 207 to initially configure device 100 for operation with the specific group of appliances to be controlled, e.g., to communicate to device 100 a matching command code set and capability profile for each particular appliance to be controlled, for example based on type, manufacture, model number, etc., as will be described in greater detail hereafter.
- a device and/or module having control functionality 100’ may be embedded in an appliance, for example STB/DVR 310.
- remote control 102 and/or smart device 104 may transmit wireless request signals directly to STB/DVR 310 for action by the built-in device 100’, which actions may, as before, comprise CEC command transmissions via “HDMI” connection 112 or wireless RF or IR command transmissions 114, originating in this instance from an appropriate RF transmitter or IR blaster provisioned to the STB/DVR appliance 310.
- a set up application resident in STB/DVR 310 may be utilized to configure device 100’, using for example an Internet connection 304 accessible through a cable modem and/or cable distribution system headend.
- device having control functionality 100’ may be embedded in an AV receiver 420 which may serve as an “HDMI” switch between various content sources such as a STB/DVR 110 or a DVD player 108 and a rendering device such as TV 106.
- AV receiver 420 may also support various other input formats, for example analog inputs such as the illustrative input 404 from CD player 408; composite or component video; S/PDIF coaxial or fiberoptic; etc.
- request signals 406, voice commands, etc. may be directed to AV receiver 420, for example from remote control 402, for action by device 100’.
- resulting appliance commands may be transmitted using CEC signals transmitted over “HDMI” connections 112, RF, or via IR signals 114 transmitted from an associated IR blaster.
- initial configuration of device 100’ to match the equipment to be controlled may be performed by an Internet-connected app resident in AV receiver 420, or by an app resident in tablet computer 202 or other smart device, as mentioned previously in conjunction with Figure 2.
- device 100’ may be incorporated into an Internet-capable TV, an “HDMI” switch, a game console, etc.; appliance command set and capability database 207 may be located at an internet cloud or a cable system headend, may be stored locally (in all or in part), which local storage may take the form of internal memory within the device 100’ itself or in an appliance such as a TV, STB or AV receiver, or may take the form of a memory stick or the like attachable to a smart device or appliance; etc.
- appliance command set and capability database 207 may be located at an internet cloud or a cable system headend, may be stored locally (in all or in part), which local storage may take the form of internal memory within the device 100’ itself or in an appliance such as a TV, STB or AV receiver, or may take the form of a memory stick or the like attachable to a smart device or appliance; etc.
- an exemplary device 100 may include, as needed for a particular application, a processor 500 coupled to a memory 502 which memory may comprise a combination of ROM memory, RAM memory, and/or non-volatile read/write memory and may take the form of a chip, a hard disk, a magnetic disk, an optical disk, a memory stick, etc., or any combination thereof. It will also be appreciated that some or all of the illustrated memory may be physically incorporated within the same IC chip as the processor 500 (a so called “microcontroller”) and, as such, it is shown separately in Fig. 5 only for the sake of clarity.
- Interface hardware provisioned as part of the exemplary device 100 platform may include IR receiver circuitry 504 and IR transmitter circuitry 506; one or more microphones; an “HDMI” interface 508; one or more RF, e.g., WiFi, transceivers and interfaces 510; an Ethernet interface 512; and any other wired or wireless I/O interface(s) 514 as appropriate for a particular embodiment, by way of example without limitation “BLUETOOTH,” “RF4CE,” “USB,” “ZIGBEE,” “ZENSYS,” “X10/INSTEON,” “HOMEPLUG,” “HOMEPNA,” etc.
- the electronic components comprising the exemplary device 100 platform may be powered by an external power source 516.
- processor 500 and/or memory 502 and/or certain portions of interface hardware items 504 through 514 may be shared with other functionalities of the host appliance.
- the memory 502 may include executable instructions that are intended to be executed by the processor 500 to control the operation of the device 100 (collectively, the device programming) as well as data which serves to define the necessary control protocols and command values for use in transmitting command signals to controllable appliances (collectively, the command data).
- the processor 500 may be programmed to control the various electronic components within the exemplary device 100, e.g., to monitor the communication means 504,510 for incoming request messages from controlling devices, to monitor the microphones for sound signals, to cause the transmission of appliance command signals, etc.
- the device 100 may be adapted to be responsive to events, such as a received voice signal, a received request message from remote control 102 or smart device 104, changes in connected appliance status reported over “HDMI” interface 508, “WIFI” interface 510, or “ETHERNET” interface 512, etc.
- events such as a received voice signal, a received request message from remote control 102 or smart device 104, changes in connected appliance status reported over “HDMI” interface 508, “WIFI” interface 510, or “ETHERNET” interface 512, etc.
- appropriate instructions within the device programming may be executed. For example, when a command request is received via a microphone, from a smart phone 104, or the like, the device 100 may retrieve from the command data stored in memory 502 a preferred command transmission medium (e.g., IR, “RF4CE”, CEC over “HDMI,” IP over “WIFI,”, etc.) and a corresponding command value and control protocol to be used in transmitting that command to an intended target appliance, e.g., TV 106, in a format recognizable by that appliance to thereby control one or more functional operations of that appliance.
- a preferred command transmission medium e.g., IR, “RF4CE”, CEC over “HDMI,” IP over “WIFI,”, etc.
- a corresponding command value and control protocol to be used in transmitting that command to an intended target appliance, e.g., TV 106, in a format recognizable by that appliance to thereby control one or more functional operations of that appliance.
- the status of connected appliances may be monitored and/or tabulated by the device programming in order to facilitate adjustment of appliance settings to match user- defined activity profiles, e.g. “Watch TV”, “View a movie”, etc.
- user- defined activity profiles e.g. “Watch TV”, “View a movie”, etc.
- command values, protocols to use, etc. may be obtained from a cloud-computing service as needed or as required.
- the programming of the exemplary device 100 may comprise a universal control engine core 650 together with a series of scalable software modules 652 through 660, including apps or “skills,” each module supporting a particular appliance command protocol or method and provisioned as appropriate for a particular embodiment.
- the illustrative embodiment of Figure 6 may include an internet protocol (IP) module 652, a CEC over “HDMI” module 654, a “BLUETOOTH” module 656, an IR module 660, and other modules(s) 658, e.g., an RF module, as appropriate for the particular application.
- IP internet protocol
- HDMI HDMI
- BLUETOOTH BLUETOOTH
- the appliances to be controlled may include an IP enabled AV receiver 620, an IP enabled STB/DVR 610, TV 106, DVD player 108, and CD player 408. As illustrated, certain of these devices may be interconnected via “HDMI” 112 and/or Ethernet 670 interfaces. (In this regard, it should be appreciated that the illustrative interconnections 112 and 670 of Figure 6 are intended to depict logical topography only, and accordingly details of exact physical cabling structure and/or the presence of any necessary switches, routers, hubs, repeaters, interconnections, etc., are omitted for the sake of clarity.)
- volume control and analog input selection commands 622 targeted to AV receiver 620 may be required to be issued via IR transmissions, while power on/off and “HDMI” input selection functionality commands 624 may be better communicated via CEC commands and advanced functionality commands 626 such as sound field configuration may be best communicated via an Ethernet connection.
- power on/off and “HDMI” input selection functionality commands 624 may be better communicated via CEC commands and advanced functionality commands 626 such as sound field configuration may be best communicated via an Ethernet connection.
- the various operational functions of the other appliances may be best commanded via a mixture of mediums, methods, and protocols, as illustrated.
- a particular appliance may support receipt of an operational command via more than one path, for example the power on/off function of AV receiver 620 may be available not only as a CEC command, but also via an IR command.
- the preferred command format may be that which has been determined to offer the greatest reliability, for example, in the above instance the CEC command may be preferred since this form of command is not dependent on line-of-sight and also permits confirmation that the action has been performed by the target appliance.
- the exemplary device core program 650 may be provisioned with a preferred command matrix 700, as illustrated in Figure 7.
- Exemplary preferred command matrix 700 may comprise a series of data cells or elements, e.g. cells 712, each corresponding to a specific command 702 and a specific one of the appliances to be controlled 704.
- the data content of such a cell or element may comprise identification of a form of command/transmission to be used and a pointer to the required data value and formatting information for the specific command.
- the data element 712 corresponding to the “Input 2” command 706 for the configured TV appliance 708, may comprise an indicator that a CEC command is to be used, i.e., an indicator of the transmission device that is to be used to communicate the command to the intended target appliance, together with a pointer to the appropriate command data value and HDMI-CEC bus address; while data element 714 corresponding to the same command function for the configured AV receiver 710 may comprise an indicator that an IR command is to be used, together with a pointer to appropriate command data and formatting information within an IR code library stored elsewhere in memory 502 .
- one or more secondary command matrices 716 may also be provisioned, allowing for the use of alternate command methods in the event it is determined by the device programming that a preferred command was unsuccessful.
- Command matrix 700 may also contain null entries, for example 718, where a particular function is not available on or not supported by a specific appliance.
- command matrix 700 may be created and loaded into the memory 502 of the device 100 during an initialization and set up process, as will now be described in further detail.
- a setup application may be provided.
- such a set up application may take the form of programming to be executed on any convenient device with a suitable user interface and capable of establishing communication with the device 100, such as without limitation a smart phone, tablet computer, personal computer, set top box, TV, etc., as appropriate for a particular embodiment.
- such a set up application may be incorporated into the device programming itself, utilizing for example a connected TV screen, smart device screen, etc. and an associated controlling device (which may include the smart device, a cloud-based voice service platform device, etc.) having input capabilities, e.g., keys, microphone(s), etc., for use as the user interface.
- a tablet computer such as the exemplary device 202 of Figure 2 may comprise, as needed for a particular application, a processor 800 memory 802 which memory may comprise a combination of ROM memory, RAM memory, and/or non-volatile read/write memory and may take the form of a chip, a hard disk, a magnetic disk, an optical disk, a memory stick, etc., or any combination thereof.
- a processor 800 memory 802 which memory may comprise a combination of ROM memory, RAM memory, and/or non-volatile read/write memory and may take the form of a chip, a hard disk, a magnetic disk, an optical disk, a memory stick, etc., or any combination thereof.
- external memory 804 may take the form of an SD card, memory stick, or the like.
- Hardware provisioned as part of an exemplary tablet computer platform may include a microphone, an LCD touchscreen 810 with associated display driver 806 and touch interface 808; hard keys 812 such as for example a power on/off key; a USB port 816; “WIFI” transceiver and interface 818; a “BLUETOOTH” transceiver and interface 820; a camera 822; and various other features 824 as appropriate for a particular embodiment, for example an accelerometer, GPS, ambient light sensor, near field communicator; etc.
- the electronic components comprising the exemplary tablet computer device 202 may be powered by a battery -based internal power source 814, rechargeable for example via USB interface 816.
- Memory 802 may include executable instructions that are intended to be executed by the processor 800 to control the operation of the tablet computer device 202 and to implement various functionalities such as Web browsing, game playing, video streaming, etc.
- programming comprising additional functionalities may be downloaded into tablet computer 202 via, for example, “WIFI” interface 818, “USB” 816, external memory 804, or any other convenient method.
- one such app may comprise a control app, for example as that described in co-pending U.S. Patent Application No.
- tablet computer 202 may also be provisioned with a setup app 214, either as part of a control app or as separately downloadable app.
- step 902 upon being invoked at step 902 may initially request that the user place all of the appliances to be controlled into a known state, e.g., powered on, in order to enable the appliance detection and/or testing steps which follow. In some instances, this step may be omitted if it is determined that all appliances that are known to be within the ecosystem are already in a desired state, e.g., powered on. This determination may be monitored by monitoring the state of hardware that is associated with or otherwise connected to any such appliances.
- the setup app may determine the identity of those appliances (and, thereby, determine those appliances which are CEC-enabled, RF enabled (e.g., RF4CE-enabled), etc.) This may be accomplished by communicating a request to the associated device 100, which at step 906 may, for example, cause the device programming to scan connected “HDMI” devices for appliances which are CEC-enabled and/or identifiable via interaction over the “HDMI” interface, for example as described in co-pending U.S. Patent Application No. 13/198,072, of like assignee and incorporated herein by reference in its entirety, and communicate such appliance identities to the setup application. Likewise, this may be accomplished by communicating a request to the associated device 100, which at step 906a causes the device programming to scan for appliances which are RF-enabled and/or identifiable via interaction over one or more communication interfaces.
- RF enabled e.g., RF4CE-enabled
- the setup application may determine if additional non-CEC appliances are connected to the device 100 via the “HDMI” interface. This may be accomplished by requesting the device programming to scan for any further “HDMI” connections at step 910 and communicate the findings back to the setup application. Though not illustrated, it will be appreciated that where appropriate for a particular embodiment the device programming may conduct similar scans to in order to discover appliances connected via Ethernet, “USB,” “BLUETOOTH,” “RF4CE,” “WIFI,” etc., where such interfaces may be provisioned to a device 100.
- the setup application may display or otherwise communicate a listing of detected appliances (both identified and not yet identified) to the user.
- the user may be prompted to enter appliance identifying information for those “HDMI” or otherwise connected appliances which were detected but not identified, as well as identifying information regarding any additional appliances which may form part of the system to be controlled but are not discoverable as described above (for example appliances such as AV receiver 120 or CD player 408 which may be responsive only to unidirectional IR commands).
- such identifying information may take the form of user-entered data such as an appliance type, brand and model number, or a setup code from a listing in a user guide; or may take the form of scanned or electronic information such as a digital picture of the appliance itself or of a bar code, QR code, or the like associated with appliance; near field acquisition of RFID tag data; etc.; or any combination thereof as appropriate for a particular embodiment.
- the setup app may communicate that information to a database/cloud server, for example server 206, for performance of step 918, comprising identification of and retrieval of command codeset and capability data corresponding to the identified appliances from a database 207 and/or one or more appropriate “skills,” and provision this data/programming to the setup application for processing and ultimate transfer to the device 100 in whole or in part.
- a database/cloud server for example server 206
- a transferred codeset may comprise complete command data values, formatting information, and/or one or more further transmission related parameters that would be used to transmit a command via a wireless connection, e.g., IR, RF, etc., or via a wired connection, may comprise one or more pointers to such command data values, formatting information, and/or one or more further transmission related parameters that are already stored in the memories 502 and/or 802/804 of the device 100 or the device upon which the setup application is currently resident, or a combination thereof.
- a wireless connection e.g., IR, RF, etc.
- database 207 may contain alternate codesets for an identified appliance, or where uncertainty exists regarding a particular appliance model number, etc.
- various control paradigms and/or command data sets may be tested against the appliances to be controlled. Such testing may take the form of soliciting user response to effects observable commands, monitoring of “HDMI” interface status changes as described for example in U.S. Patent Application No. 13/240,604, of like assignee and incorporated herein by reference in its entirety, or any other method as convenient for a particular application.
- a suitable preferred command matrix for example as illustrated in Figure 7, may be constructed and stored into the memory 502 of exemplary device 100, the matrix being constructed by considering the communication capabilities and functionalities of the devices identified via the above-described processes.
- any suitable method may be utilized, for example a system-wide prioritization of command media and methods by desirability (e.g., apply IP, CEC, IR in descending order); appliance-specific command maps by brand and/or model; function- specific preference and/or priority maps (e.g. all volume function commands via IR where available); etc.; or any combination thereof.
- the exact selection of command method priorities or mapping may take into account factors such connection reliability, e.g. wired versus wireless, bidirectional versus unidirectional communication, etc.; speed of command transmission or execution; internal priorities within an appliance, e.g. received IP received packets processed before CEC packets, etc.; type of protocol support (e.g. error correction versus error detection; ack/nak, etc.); or any other factors which may applied in order to achieve optimum performance of a particular embodiment.
- said preferred command matrix may be performed at the database server or within the setup application, or a combination thereof, depending on the particular embodiment.
- an exemplary setup application may subsequently guide a user through a series of steps in order to establish the desired appliance configurations for a series of possible activities.
- the user may be presented with a list of possible activities, e.g., “Watch TV”, “Watch a movie”, “Listen to music”, etc.
- the user may also be able to edit activity titles and/or create additional user defined activities.
- a user may select a particular activity for configuration, for example “Watch TV”.
- the user may be prompted to identify the content source for the activity being configured, for example cable STB/DVR 110 for the exemplary “Watch TV” activity.
- Such a prompt may take the form of a listing of eligible appliances as determined during the foregoing appliance set up steps; explicit user provision of an appliance type; etc.
- the user may be prompted in a similar manner to select video and audio rendering appliances for use in this activity, for example TV 106 and AVR receiver 120 respectively.
- the set up application in concert with device programming may be able to ascertain which input port of each rendering appliance is attached to the content source appliance identified for this activity and/or if any intermediate switching appliance is in use (for example AV receiver 420 of the system illustrated in Figure 4).
- the set up application may automatically create all or part of an appropriate rendering device input selection for the activity being configured. If not, at steps 1008 and 1010, the user may be additionally requested to identify the applicable content route(s) to the rendering appliances, e.g., input port numbers, presence of intermediate switches, etc.
- the set up application may construct an activity matrix, for example as illustrated in Figure 11.
- activity matrix 1100 for a “Watch TV” activity may comprise a series of cells, for example 1110 or 1112, each corresponding to a desired configuration of a particular state 1106 or function 1108 of a specific appliance 1104 during the specified activity.
- cell 1110 may indicate that the input of AV receiver 120 is to be set to “S/PDIF2”, while cells 1112 and 1114 may indicate that transport function commands (e.g., “play”, “pause”, “fast forward” etc.) are to be directed to STB/DVR 110 and not to DVD 114.
- transport function commands e.g., “play”, “pause”, “fast forward” etc.
- the assignment of functions such as, for example, volume control, to specific appliances during a particular activity may be performed within an individual controlling device, i.e., the controlling device may determine the appliance to which volume control commands are to be directed, in a preferred embodiment this assignment may be performed within the device 100, thereby ensuring consistency across each activity when multiple controlling devices are present in an environment, for example devices 102 and 104 of the environment illustrated in Figure 1.
- the newly-constructed activity matrix 1100 may be tested by causing the device programming, utilizing preferred command matrix 700, to issue the commands necessary to place the identified appliances into the desired state and thereafter receiving verification at step 1018 that the desired activity was successfully initiated.
- verification may comprise, for example, detection and reporting of “HDMI” or other content streams and/or appliance status by device programming by directly monitoring CEC status or by using methods such as described for example in U.S. Patent Application No. 13/240,604; solicitation of user input confirming correct operation; monitoring for presence or absence of analog input signals; recording of appliance status or error messages; etc.; or any combination thereof as appropriate for a particular embodiment.
- step 1018 the set up application may return to step 1002 to allow reconfiguration of that activity and/or definition of alternative activities. If testing was successful, at steps 1020 and 1022 the completed activity matrix, for example 1100 as illustrated in Figure 11, may be transferred to the device 100 for storage in device memory 502. Thereafter, at step 1024 the user may be offered the opportunity to return to step 1002 to define additional activity configurations, for example 1101,1102 as illustrated in Figure 11, or to exit the activity configuration process.
- the series of steps performed by the device programming in order to convey a function command to an appliance in accordance with a command request 1300 received from a controlling device such as remote control 102 or 200, smart device 104 or 202, via voice input, etc., or in accordance with an internally generated requirement resulting from receipt of an activity request (as will be described hereafter) may initially comprise retrieval from a preferred command matrix that data element which corresponds to the requested command and target appliance.
- receipt of a “TV power on” request from remote control 102, via voice input, or the like at a device 100 provisioned with the preferred command matrices illustrated in Figure 7 may cause retrieval of data element 720, indicating that the command is to be communicated to the TV appliance, e.g., television 106, using an “HDMF7CEC command.
- the device programming may determine if the retrieved value constitutes a null element. If so, the referenced appliance does not support the requested command and accordingly at step 1314 an error message may be generated and the process thereafter terminated.
- error message may depend upon the particular embodiment and/or the requesting controlling device: for example, if the request originated from a controlling device which is in bidirectional communication with the device the error may be communicated back to the requesting device for action, i.e., display to the user, illuminate a LED, activate a buzzer, etc. as appropriate.
- a device 100 is incorporated into an appliance as device 100’, that appliance’s front panel display, LEDs, speaker, etc. may be utilized.
- the device 100 may communicate the corresponding function command to the target appliance using the indicated command value and transmission method, e.g., for the exemplary data element 720 this may comprise issuing a CEC “power on” command to CEC logical device address zero (TV) via the device’s “HDMI” interface 508.
- the device programming may determine if the communication interface and protocol used in issuing the command provides for any confirmation mechanism, i.e., explicit acknowledgement of receipt, monitoring of “HDMI” status on an interface, detection of a media stream or HDCP handshake, etc.
- the device programming may simply assume that the command was successful and processing is complete. If, however, confirmation means exists, at step 1310 the device programming may wait to determine if the command was successfully executed. Once positive confirmation is received, processing is complete. If no confirmation or a negative confirmation is received, at step 1312 the device programming may determine if an alternative method is available to communicate the command to the target appliance.
- this may comprise accessing a secondary command matrix 716 in order to determine if an alternative communication method is available for the specific function, e.g., “TV power on.” If an alternative does exist, at step 1316 the substitute command value and transmission method may be retrieved and processing may return to step 1306 to initiate an alternative attempt.
- an IR “power on” command encoded according to SIRCS Spin Infrared Control System
- an exemplary device 100 may also support activity selection, whereby receipt of a single user request from a controlling device, via voice input, or the like may cause a series of commands to be issued to various appliances in order to configure a system appropriately for a particular user activity, such as for example, watching television.
- activity selection whereby receipt of a single user request from a controlling device, via voice input, or the like may cause a series of commands to be issued to various appliances in order to configure a system appropriately for a particular user activity, such as for example, watching television.
- a set of matrices defining desired equipment states suitable to various activities for example as illustrated at 1100 through 1102 of Figure 11, may be stored in device memory 502 for access by device programming when executing such a request.
- the programming of an exemplary device 100 may maintain an additional matrix 1200 representative of the current state of the controlled appliances, arranged for example by appliance 1202 and by operational state 1204.
- data elements 1206 and 1208 in the illustrative table 1200 may indicate that TV 106 is currently powered on (1208) with “HDMI” port number 2 selected as the input (1206).
- the data contents of the elements in such a table may be maintained in any convenient manner as appropriate to a particular embodiment, for example without limitation retrieval of “HDMF7CEC status; monitoring input media streams and/or HDCP status; measuring power consumption; construction of a simulated appliance state such as described for example in U.S. Patent 6,784,805; etc.; or any combination thereof.
- certain appliances such as for example AV receiver 120 which may be controllable only via unidirectional IR, the current state of the appliance may not be discernible.
- a null data element 1210 maybe entered into exemplary matrix 1200 to indicate that this appliance may require configuration using discrete commands only and/or user interaction.
- the data contents of the illustrative table may be maintained in memory 502 on an ongoing basis by device programming, while in other embodiments this data may be gathered “on the fly” at the time the activity request is being processed. Combinations of these methods may also be used, for example “on the fly” gathering for appliances connected via an HDMI bus combined with maintenance of a simulated state for appliances controlled via IR signals.
- device programming may compare a desired state matrix, for example 1100, to a current state matrix, for example 1200, element by element, issuing commands as necessary to bring appliances to the desired state.
- a desired state matrix for example 1100
- a current state matrix for example 1200
- element by element issuing commands as necessary to bring appliances to the desired state.
- an exemplary series of steps which may be performed by the programming of a device in order to effect a “Watch TV” activity configuration will now be presented in conjunction with Figure 14.
- the reader may also wish to reference the equipment configuration of Figure 1 and the activity and current state matrices 1100 and 1200 of Figures 11 and 12.
- the exemplary device programming may access an applicable appliance state matrix 1100.
- communication of the “power on” command to TV 106 may comprise a CEC command issued over “HDMI” connection 112.
- a “mute” command may be communicated to TV 106, since element 1116 of illustrative matrix 1100 indicates that TV106 is not the primary audio rendering appliance.
- communication of the “mute” command to TV 106 may comprise an IR transmission 114.
- the active input of TV 106 may be set to “HDMI1” via a CEC command, and at steps 1414,1416 a CEC “power on” command may be communicated to STB/DVR 110 if that appliance is not already powered on.
- the exemplary device programming may set an internal status to indicate that future transport command requests (e.g., play, pause, FF, etc.) should be routed to STB/DVR 110, as indicated by element 1112 of matrix 1100.
- future transport command requests e.g., play, pause, FF, etc.
- a CEC “power off’ command may be communicated to STB/DVR 108 if that appliance is not already powered off.
- steps 1424 and 1426 “power on” and “input S/PDIF2” commands may be communicated to AV receiver 120 via IR signals.
- exemplary device programming may set an internal status to indicate that future volume control command requests (e.g. volume up/down, mute) should be routed to AV receiver 120, as indicated by element 1118 of matrix 1100, where after processing of the activity request is complete.
- future volume control command requests e.g. volume up/down, mute
- the exemplary device 100 may also support activity selection, whereby receipt of a single user request from a smart device, via a voice signal, etc., may cause a series of commands to be issued to various appliances in order to configure a system appropriately for one or more user activities, such as “watch TV,” “watch movie,” “listen to music,” etc.
- activity selection whereby receipt of a single user request from a smart device, via a voice signal, etc., may cause a series of commands to be issued to various appliances in order to configure a system appropriately for one or more user activities, such as “watch TV,” “watch movie,” “listen to music,” etc.
- Fig. 15 an exemplary method is illustrated in Fig. 15. More particularly, with reference to Fig. 15, upon invocation of a setup app at step 1502 a user may be requested to place all of the appliances to be controlled into a known state, e.g., powered on or already joined in a wireless network, in order to enable the appliance detection and/or testing steps which follow.
- the setup app may determine the identity of those appliances, and thereby determine which of those appliances are CEC-enabled or IP enabled. This may be accomplished by communicating a request to the associated device 100, which at step 1506 may cause the device programming to scan connected “HDMI” devices for appliances which are CEC-enabled and/or identifiable via interaction over the “HDMI” interface, for example as described in co-pending U.S. Patent Application No. 13/198,072, of like assignee and incorporated herein by reference in its entirety, and communicate such appliance identities to the setup application.
- the setup app may also determine if the appliances have any associated icon information (for example stored as metadata on the appliance, available from a remote server, or the like) as well as information related to interface connection types, e.g., “WIFI,” “HDMI” input/output, for use in the creation of supported macros. If the icon information is available, the icon information may be sent to the smart device by the appliance and/or retrieved by the smart device using other information provided by the appliance as appropriate as shown in step 1526.
- icon information for example stored as metadata on the appliance, available from a remote server, or the like
- information related to interface connection types e.g., “WIFI,” “HDMI” input/output
- icon information may then be automatically added to the user interface of the smart device whereupon an activation of the added icon may be used to provide access to command and control functionalities associated with the corresponding controllable device, including commands in the form of a listing of automatically generated macros available for that controllable device as described below.
- icon information provided to the smart device may be used in connection with information stored on the smart device, stored in the internet cloud and/or at a remote server to automatically add an icon to the user interface of the smart device where the icon can be in the form of a logo for the controllable appliance, icons in the form of logos for content (e.g., television station logos) that can be accessed via the controllable appliance, etc.
- icons may function as soft keys which may be selected to cause the performance of a further action for example, to display a device control page (e.g., to present television control soft keys such as channel up, channel down, etc.), cause the transmission of commands, etc. as described for example in U.S. Patent Application No. 10/288,727, (now U.S. Patent 7,831,930) of like assignee and incorporated herein by reference in its entirety, or any other method as convenient for a particular application.
- a device control page e.g., to present television control soft keys such as channel up, channel down, etc.
- an appropriate app or “skill” can be retrieved for use by the smart device, for example from a cloud-based service, to enable the smart device (which may or may not include an associated display) to provide an appropriate user interface, to receive input via use of a voice signal, and/or to enable transmission and/or receipt of desired signals to and/or from the device 100.
- step 1510 scanning for CEC connected appliances as discussed above
- the setup application may next determine if additional non-CEC appliances are connected to the device 100 via the “HDMI” interface. This may be accomplished by requesting the device programming to scan for any further “HDMI” connections at step 1512 and communicate the findings back to the setup application.
- the device programming may conduct similar scans in order to discover appliances connected via Ethernet, “USB,” “BLUETOOTH,” “RF4CE,” “WIFI,” etc., where such interfaces may be provisioned to a device 100.
- the setup application may display, annunciate, etc. a listing of detected appliances (both identified and not yet identified) to the user.
- the user may then be prompted to provide appliance identifying information for those “HDMI” or otherwise connected appliances which were detected but not identified, as well as identifying information regarding any additional appliances which may form part of the system to be controlled but which were not discoverable as described above (for example appliances such as AV receiver 120 or CD player 408 which may be responsive only to unidirectional IR commands).
- such identifying information may take the form of user-entered data such as an appliance type, brand and model number, or a setup code from a listing in a user guide; or may take the form of scanned or electronic information such as a digital picture of the appliance itself or of a bar code, QR code, or the like associated with appliance; near field acquisition of RFID tag data; MAC address; etc.; or any combination thereof as appropriate for a particular embodiment.
- the setup app may communicate that information to a database server, for example server 206, for performance of step 1520 in which the database server uses the identification information to retrieve icon information as needed (e.g., when such data was not obtainable from the appliance), command information and/or app/” skill” programming as discussed previously, and in step 1522, to automatically generate executables, including macros which correspond to the appliance or a plurality of appliances considering their capability data as maintained in a database 207 and/or as retrieved from the appliances. Any such data gathered from and/or created by the server 206 will then be provisioned to the setup application for processing and ultimate transfer to the smart device and/or device 100 as required.
- a database server for example server 206
- the transferred information and/or metadata may comprise user interface data, complete command data values, appliance input/output data and current status, formatting information, pointers to command data values and formatting information already stored in the memories 502 and/or 802/804 of the device 100 or the device upon which the setup application is currently resident, etc.
- database 207 may contain alternate codesets, icon metadata, or macro information for an identified appliance, or where uncertainty exists regarding a particular appliance model number, etc.
- control paradigms and/or command data sets may be tested against the appliances to be controlled. Such testing may take the form of soliciting user response to effects observable commands, monitoring of “HDMI” interface status changes as described for example in U.S. Patent Application No.
- a suitable preferred user profile 1524 may be constructed and stored into the memory 502 of exemplary device 100, the user profile 1524 being constructed by considering the communication capabilities and functionalities of the devices identified via the above-described processes.
- any suitable method may be utilized, for example a system-wide prioritization of command media and methods by desirability (e.g., apply IP, CEC, IR in descending order); appliance-specific command maps by brand and/or model; function- specific preference and/or priority maps (e.g. all volume function commands via IR where available); etc.; or any combination thereof.
- the exact selection of command method priorities or mapping may take into account factors such connection reliability, e.g. wired versus wireless, bidirectional versus unidirectional communication, etc.; speed of command transmission or execution; internal priorities within an appliance, e.g. received IP received packets processed before CEC packets, etc.; type of protocol support (e.g. error correction versus error detection; ack/nak, etc.); or any other factors which may applied in order to achieve optimum performance of a particular embodiment.
- said construction of said user profile 1524 may be performed at the database server or within the setup application, or a combination thereof, depending on the particular embodiment.
- a host device e.g., a device 100 having some or all of the functionalities described above, can use an appliance discovery process, which may entail using a multi-cast discovery schema, to obtain information about one more appliances 106, 108, 110, etc.
- the host device may, through use of the appliance discovery process, such as described in U.S. Application No.
- first appliance related data e.g., appliance ID, brand name, model number, name, parameters associated with a communication methodology supported by the appliance, etc.
- the first appliance related data retrieved from the appliance can then be used to determine if the first appliance related data received from the appliance corresponds to a single one of the plurality of appliance records/appliance profiles that are stored within a database (for example, a database associated with a cloud server) or multiple ones of the plurality of appliance records stored within the database as described previously. It is to be further appreciated that such information may be obtained by reading such information from a provided token, QR code, or the like as also described previously.
- an RF codeset identifier associated with the one of the plurality of appliance records may be used to select from a plurality of codesets the RF codeset that is supported by that appliance.
- a controlling device in communication with the host device can then be provisioned with the indicated RF codeset - as described above - to thereby configure the controlling device (or the host device in the event the host device is intended to be a controlling device) to issue commands directly to the appliance, via use of a RF transmitter, where the command that is caused to be issued for reception by the appliance will correspond to a command event received at the controlling device, e.g., an event indicative of an input element being activated, a communication being received from an external device, etc.
- a smart device in communication with the device 100 can be provisioned with an app/“ skill” to provide an appropriate user interface, to receive input via use of a voice signal, and/or to enable transmission and/or receipt of desired signals to and/or from the device 100 as needed or required.
- further appliance related data e.g., further ones of appliance ID, brand name, model number, name, parameters associated with a communication methodology supported by the appliance, etc.
- further appliance related data is preferably caused to be iteratively received from the appliance through use of the same or other interconnections with the appliance until such time as no further appliance related data is capable of being retrieved from the appliance or until such time as all appliance related data received from the appliance corresponds to a single one of the plurality of appliance records stored within the database.
- an RF codeset identifier associated with the one of the plurality of appliance records may be used to select from a plurality of protocol codesets the RF codeset that is supported by that appliance.
- a controlling device e.g., remote control 104 in communication with the host device (or the host device itself), can then be provisioned with the indicated RF codeset to thereby configure the controlling device (or the host device) to issue commands directly to the appliance, via use of a RF transmitter, where the command issued will correspond to a command event.
- automatic device discovery and pairing actions described herein may be possible using partial data received from and or communicated via one or more input/output connections of one or more protocol types and that the controlling device having device 100 functionality may accordingly have multiple input/output connections and support one or more protocol types.
- the controlling device having device 100 functionality may support “BLUETOOTH” low energy (BLE), “ZIGBEE,” and/or “RF4CE” or otherwise use the same radio but with a different network protocol stack without limitation.
- a RF pairing operation between the controlling device and the appliance is caused to be performed.
- a command to place the appliance into a state for pairing the appliance with the controlling device may be transmitted to the appliance, whether initiated automatically upon conclusion of the discovery and configuration processes or initiated manually, via use of a protocol, e.g., IR, IP, CEC, etc., that the appliance profile indicates the appliance is responsive to.
- the command for placing the appliance into a state for pairing may be issued from the controlling device or the host device as desired and in keeping with communication links available for use in transmitting such a command.
- pairing state the devices will exchange pairing information as needed to allow the devices to be subsequently communicatively linked together when proximate to each other whereby the controlling device can be used to communicate commands to the appliance via use of the appropriate RF protocol. If needed, a user may be required to enter a pin into the system, as known in the art, to facilitate such pairing.
- An exemplary communication exchange to facilitate a pairing between a remote control and an appliance for use in transmitting “RF4CE” commands to the appliance may be found in US Patent No. 9,866,892 the disclosure of which is incorporated herein by reference in its entirety.
- apps or “skills” installed on a device 2100 may also provide interfaces to various services and/or to controllable appliances, such as, for example, a television 2102, a cable or satellite set top box 2104, a thermostat 2106, a solar power array controller 2108, a clothes washer and/or drier 2110, a personal fitness tracker or pedometer 2112, a media streaming service, a social networking service, etc.
- the device 2100 may be device 100 or may be a smart device that is intended to communicate with a device 100 as described above without limitation.
- the interfaces may be used to display or otherwise annunciate information relevant to the operation and/or states of such services or devices, to receive input relevant to controlling the operation of such services or devices, to communicate with and/or control such services or devices, etc.
- the appliances may communicate with device 2100 using an available local wired or wireless network 2118 such as, for example, WiFi, Bluetooth, etc., or any other convenient means.
- an available local wired or wireless network 2118 such as, for example, WiFi, Bluetooth, etc., or any other convenient means.
- various other items such as access points, routers, Internet gateways, etc., may be required in order to fully implement the illustrative network 2118 - in the interests of clarity these are omitted from Figure 17.
- smart device 2100 may be adapted to communicate with one or more remote servers 2116 (which may be services) by way of a wide area network 2114, such as for example the Internet.
- a wide area network 2114 such as for example the Internet.
- an exemplary user appliance interface 2200 presented by an app installed on device 2100 is shown by way of illustration.
- an interface may display a current status of the appliance, in this illustrative example that of a clothes washer, including such exemplary items as the wash cycle currently being performed 2202 and time remaining 2206.
- User interface 2200 may also include an exemplary user input area 2206 with icons that are activable to access companion appliance (e.g., a clothes dryer), GUIs, user guides, troubleshooting diagnostics, etc., as well as an icon 2208 which may access additional page(s) 2210 of the current device GUI, for example to cancel the current operation, initiate other operations, or to invoke further submenus such as selection of water temperature 2212 or fabric cycle 2214.
- companion appliance e.g., a clothes dryer
- GUIs e.g., a clothes dryer
- user guides e.g., a clothes dryer
- troubleshooting diagnostics e.g., a clothes dryer
- an icon 2208 which may access additional page(s) 2210 of the current device GUI, for example to cancel the current operation, initiate other operations, or to invoke further submenus such as selection of water temperature 2212 or fabric cycle 2214.
- an exemplary appliance app GUI 2200’ may be adapted as appropriate for use with other types of smart devices, for example a “
- the device 2100 can be used in connection with a further device where the further device functions to present the user interface for device 2100. Accordingly, such further device would be provided with the programming required to allow device 2100 to receive communications from and provide communications to the device 2100.
- Such programming may be provided to the further device via use of a further installed app or “skill.”
- any information that is described herein as being presented via use of display can be presented via use of a speaker, e.g., by using synthesized voice, and any information that is described herein as being received via a use of an input element can be received via use of one or microphones, e.g., by receiving voice signals and by processing the received voice signals via use of a cloud-based voice service platform.
- a displayed GUI page may contain HyperText Markup Language (hereafter referred to as “HTML”) links for use in accessing appliance related information and/or services. Since methods for displayed HTML links are well known in the art, they will not be described in greater detail herein. Nevertheless, for additional details pertaining to HTML link operation, the reader may turn to commonly assigned U.S. application Ser. No. 13/542,146 (US 2012/0278693), filed on Jul. 5, 2012, entitled “System and Method for Ubiquitous Appliance Control,” the disclosure of which is incorporated herein by reference in its entirety.
- HTML HyperText Markup Language
- a displayed HTML page may also function to provide notifications and which may inform a user that an app update or a new app is available for a single OS or across the different Oss, including cloud-based voice service platform operating systems, in the user’s environment for the one or more of appliances.
- the user may select a displayed link or otherwise provide a voice command to initiate a downloading of an app, an authentication of an app, and/or a commencement of a synchronization process.
- the GUI may also include selectable links to user manuals for the user appliances which are located within the user’s environment or may include links to specific web based literature which may be used to highlight the appliance features, or may notify the user that a new app may be available for a new OS for which an app was not available as of the last synchronization cycle, etc.
- the smart device 2100 of Figures 17 and 18A may include as needed for a particular application, processing means 2300 which may comprise both an application processing section 2302 and an RF/communi cation processing section 2304; an LCD display 2306; a keypad 2308 which may comprise physical keys, touch keys overlaying LCD 2306, or a combination thereof; one or more microphones, a subscriber identification module (SIM) card 2310; memory means 2312 which may comprise ROM, RAM, Flash, or any combination thereof; “WIFI” and/or “BLUETOOTH wireless interface(s) 2314; a wireless telephony interface 2316; power management circuitry 2318 with associated battery 2320; a “USB” interface 2322 and connector 2324; an audio management system 2326 with associated microphone 2328, speaker 2330 and headphone jack 2332; and various optional accessory features 2338 such as a digital camera, GPS, accelerometer, etc.
- processing means 2300 which may comprise both an application processing section 2302 and an RF/communi cation processing section 2304
- the smart device 2100 may itself be a smart device 100 or the smart device 2100 may include a control device 100’ as described previously.
- Programming may be provided and stored in memory means 2312 to control the operation of smart device 2100 by way of operating system 2340 software such as for example iOS, Android, Linux, Web apps, etc., which operating software may support voice-enabled control as sell as the download and execution of various add-on apps 2342 as necessary for a particular purpose, all as well known in the art.
- a setup agent software 2344 is also provisioned to smart device 2100 in order to facilitate detection, installation, and operation of manufacturer-supplied appliance interface apps, as will now be described in further detail.
- the illustrated smart device 2100 is particularly adapted to receive input via use of a keypad and/or touchpad display that is provided as an integral part of the smart device 2100
- the smart device 2100, or other like smart devices such as the TV illustrated in Fig. 2B
- further remote devices such as a remotely located mouse, pointer device, touch pad, or the like.
- These remotely located input devices would accordingly be adapted to communicate to an associated smart device data that is indicative of user interactions with such input devices to thereby achieve the same purposes described herein, e.g., to navigate and interact with a user interface.
- the setup agent 2344 may periodically initiate a scan 2402 of its current wired or wireless, network environment (e.g., “WIFI,” “BLUETOOTH,”, etc. or any combination thereof) in order to ascertain the presence of one or more networked appliances.
- a scan 2402 of its current wired or wireless, network environment e.g., “WIFI,” “BLUETOOTH,”, etc. or any combination thereof.
- This action may be initiated automatically (for example based on a timer which is used to measure predetermined periods of time, in response to the device being turned on, in response to a detected change in location of the smart device using for example its GPS or the like type of functionality, etc.), or when connecting to new networks, or may be manually initiated by a user of smart device 2100 (for example in response to an activation of a user input element, in response to the smart device 2100 being moved, etc.) as appropriate for a particular embodiment. If it is determined at step 2404 that no responsive appliances are present in the environment, the setup agent actions are complete.
- the setup agent may next determine, using the information received, if a responsive appliance is already known to the setup agent, e.g., determine if the appliance has already been detected during a previous detection operation or otherwise manually indicated to the smart device 2100. Such a determination may be made, for example, by consulting a setup agent-administered listing of appliance identities, maintained as will be described hereafter at step 2414. If the appliance is already known to the setup agent, processing continues at step 2416 to determine if further responsive appliances have been detected.
- the setup agent may next determine if an app is available for that appliance. Such a determination may be made, for example, by using vendor information, a third party compatibility database, or by a social network database which may contain related appliance information updated by other users or by searching a database that functions to cross-reference appliance identifying data as would be received from the appliances (e.g., data indicative of a manufacturer and model number) to available apps and locations from which such apps may be download.
- a database may be stored in local memory 2312 as part of the setup agent programming, may be located at a cloud based data storage facility or server 2116, or a combination thereof, as appropriate for a particular embodiment.
- processing continues at step 2414, adding the instant appliance identity to the listing of known appliance identities.
- the appropriate app may be recommended to the user or may be downloaded to the smart device 2100 from a location indicated in the database entry, e.g., a location pointed to by use of a URL, IP address, etc.
- a download and install may be performed automatically by the setup agent, or the agent may first present the download possibility to the user of smart device 2100 for confirmation.
- user credentials may be pre-loaded into the setup agent program to facilitate such automatic download, or may be requested from smart device user each time download is to be performed.
- the setup agent may register that app with a cloud based service, by way of forwarding unique identity information regarding the app and the environment (e.g., network and/or app owner information) in which it is operational to a server system such as for example the server 2116 of Figure 17. Such registration information may be subsequently utilized for the purpose of synchronizing multiple instances of the same app across different Operating Systems, as will be further described hereafter in conjunction with Figure 21.
- the setup agent may, in conjunction with the installation of certain apps which require specific equipment configurations, also generate macro command sequences as necessary to place various appliances into the required state upon initiation of the app.
- a TV viewing or game show participation app may require that a TV 2102 to be set to a particular input and/or a cable set top box 2104 be tuned to a particular channel, etc., in which case a command sequence (“macro”) may be created by the setup agent to be executed every time that app is initiated.
- a single GUI may display all of the app links and common macros across the OS’s. Since methods for control of entertainment appliances and/or use of macros are well known in the art, these will not be discussed further herein, however for additional information the interested reader may turn to for example U.S. Patent Applications 13/657,176 “System and Method for Optimized Appliance Control” or 13/071,661 “System and Method for Facilitating Appliance Control via a Smart Device”, both of common ownership and both incorporated herein by reference in their entirety.
- the setup agent may add the current appliance identity into a local tabulation of known appliances.
- an identity may comprise a serial number, MAC address, or any other data value suitable to uniquely identify the appliance.
- the setup agent may ascertain if additional responsive appliances were detected and, if so the process described above is repeated, until all responding appliances have been accounted for.
- provision may also be made within the setup agent programming to allow a user to purge or edit entries in the tabulation of known appliances, for example when a smart device is permanently relocated to a different environment, etc. Removal of known appliance tabulation entries may also be performed automatically by the setup agent when a previously responsive appliance has failed to acknowledge several scan cycles; when an associated app is deleted by the user of the smart device; etc.
- an individual appliance associated app for example such as the app illustrated in Figure 2A
- the app may initially invoke a setup agent at step 2502 in order to effect synchronization of this app’s appliance status values with those of any other instances of the same app which may be present in the current environment and/or resident on other devices registered to the same owner.
- an exemplary setup agent 2344 may access a cloud based database service, located for example on server 2116, in order to determine if any other instances of this app are present in the current environment, have common ownership, and/or the like.
- the setup app may provide a unique app identity and unique environment identity to the database service.
- an app identity may comprise a label value assigned by the developed s) of the app; a manufacturer and appliance model number; or any other data which may serve to uniquely identify the specific app.
- An environment identity may comprise a “WIFI” network name; access point address; one or more MAC addresses; a user id; etc; or any other data which may serve to uniquely identify the specific environment in which the app is currently active.
- the cloud based service may compare the provided values against a database of installed app information in order to determine if other instances of the app are present in the local environment and/or to determine if a corresponding app might be newly available for use on any of smart devices within the local area network. If an app is newly available, the app can be provisioned to such devices and synchronized with existing apps within the network as described above.
- step 2506 it may be determined, based on the response from the database service, whether any other instances of this app are in fact registered at the current environment. If not, processing continues at step 2510 where control may be returned to the app for the performance of the function(s) for which it was invoked. If, however, it is determined that other instances of the instant app are present, then at step 2508 the most recently saved status of the app may be downloaded from the corresponding entry in the cloud database and used to pre-configure the current instance.
- Such status information may include, as required for a particular appliance and/or app, items such as control settings, progress indicators, reminders, timeouts, state switches, authentications, cookies, shopping cart contents, service information, error logs, etc., without limitation.
- step 2510 the function(s) for which the app was invoked may then be performed, after which at step 2512 updated app status data reflecting the new state of the app may be uploaded to the cloud database for storage and subsequent use by this or other instances of the app.
- a voice platform enabled smart device 2100 can be used to discover an appliance and, after the appliance is discovered, a finger print for the appliance, e.g., manufacturer information, brand information, device type information, device model information, firmware version information, supported control interface information, information about a supported app running on the device, information about a supported app running on the smart device 2100 for use with the device, and/or the like information usable to uniquely identify an appliance, may be used to retrieve one or more apps (which apps may include or provide access to appropriate command data, formatting information, etc. as needed) for providing voice control capabilities to the system.
- apps which apps may include or provide access to appropriate command data, formatting information, etc. as needed
- an appliance discovery process can be utilized as described above for the purpose of determining if an appliance supports control via a voice enabled platform, e.g., to determine if the appliance is an “ALEXA” cloud-based, voice serving platform compatible device and, in the event the smart device 2100 does not have the appropriate software for supporting that device already installed thereon, e.g., the “ALEXA” cloud-based, voice service platform software, the “SIRI” cloud-based, voice service platform supporting software, the “GOOGLE ASSISTANT” cloud-based, voice service platform software, the smart device 2100 may be caused to first instal l such software in memory whereupon execution of that software may be used to perform further device discovery for use in obtaining one or more apps (also known as a “skill,” “Action,” or the like as noted above) for use in connection with the voice service platform supporting software to thereby configure the smart device 2100 to communicate with that appliance.
- apps also known as a “skill,” “Action,” or the like as noted above
- any such located operating software and/or apps may be atomically installed on a device as a part of this process or may require manual installation (in which case, the user may be notified of the software and/or apps located and prompted for installation).
- any discovery process may be performed automatically or upon manual instruction as described above.
- a voice platform enabled smart device 2100 can be used to discover a service and, after the service is discovered, a finger print for the service, e.g., manufacturer information, brand information, information about an app running on the appliance, and/or the like information usable to uniquely identify a service, may be used to retrieve one or more apps (which apps may include or provide access to appropriate command data, formatting information, etc. as needed) for providing voice control capabilities to the system.
- apps may include or provide access to appropriate command data, formatting information, etc. as needed for providing voice control capabilities to the system.
- a service discovery process can be utilized as described above for the purpose of determining if an appliance supports a service that is controllable via a voice enabled platform, e.g., to determine if the appliance supports an “ALEXA” cloud-based voice serving platform compatible service and, in the event the smart device 2100 does not have the appropriate software for supporting that service already installed thereon, e.g., the “ALEXA” cloud-based voice service platform software, the “SIRI” cloud-based voice service platform supporting software, the “GOOGLE ASSISTANT” cloud-based voice sendee platform software, the smart device 2100 may be caused to first install such software in m emory whereupon execution of that software may be used to perform further service discovery for use in obtaining one or more apps (also known as a “skill,” “Action,” or the like as noted above) for use in connection with the voice service platform supporting software to thereby configure the smart device 2100 to communicate with that service.
- apps also known as a “skill,” “Action,” or the like
- any such located operating software and/or apps may be atomically installed on a device as a part of this process or may require manual installation (in which case, the user may be notified of the software and/or apps located and prompted for installation).
- any discovery process may be performed automatically or upon manual instruction as described above.
- the system may listen for and/or solicit the user to speak keywords for this same purpose.
- the keywords might not only include the above noted information usable to form a fingerprint for an appliance and/or a service but might also include keywords that are known to be recognizable by a specific cloud-based, voice service platform.
- the system may cause the operating software associated with that digital assistant to be provided to the smart device 2100 for installation (or may cause such operating software to be enabled if already resident of the smart device 2100) and, if needed or desired, the operating software for the voice enabled platform, once operating on the smart device 2100, can be used to perform further appliance and/or service detection processes for use in connection with configuring the smart device 2100 with apps usable to communicate with such appliance and/or services as described above.
- the system preferably maintains a database in which finger print information is cross- referenced to such operating software and/or apps.
- the database may be stored in memory of a local device and/or stored in memory associated with a server device that is accessible via a wide-area-network, e.g., stored in database associated with a cloud-computer service.
- information needed to locate and download the appropriate operating software and/or apps can be deduced by a device and used to retrieve such software and/or apps from its own memory and/or memory associated with still further services, e.g., from a database associated with a third party server.
- any such software and/or app providing service can track owner information, e.g., log-in information, privileges, appliance(s) registered to the user, etc., to limit the ability to access and download apps, to seamlessly integrate downloaded and installed apps into the system, etc. as described above.
- owner information e.g., log-in information, privileges, appliance(s) registered to the user, etc.
- a cloud service provided for the noted purposes may function to authenticate a user when they log into the service and thereafter, using device and/or service discovery information received from one or more devices on the user’s system, establish an ownership mapping between the user, the smart device, and appliances/services that will be included in the user’s “connected” environment.
- the voice assistant operating on the voice enabled platform of smart device 2100 to notify a user that a new skill to a matching appliance or service that was recently added to a network, e.g., a local area network, is available for installation.
- a network e.g., a local area network
- the availability of a new, matching skill can be indicated to the user on the device 2100, such as by having the device 2100 display a special illumination pattern via use of LEDs, via an audible a notification, or the like.
- a user can then ask the voice assistant to check what the notification is about, which will lead to a skill recommendation whereupon the user can voice an acknowledgement to permit installation of the skill.
- the installation of the skill can be performed via use of a cloud API call using input parameters such as the user identification, smart device 2100 ID, and skill ID.
- input parameters such as the user identification, smart device 2100 ID, and skill ID.
- a user may also set a policy that any matched skills are allowed to be installed automatically in which case the smart device 2100 will skip the skill recommendation and invoke the skill installation API when a new, matching skill is discovered without further user intervention.
- a MSO multi-service operator
- a MSO database contains the user information as noted, e.g., name, home address, phone number, equipment list, email address, payment information, tv viewing history and habits, information related to a services account, such as, email address or user id, user authentication information, usage history and preferences, and/or the like, etc.
- user information e.g., name, home address, phone number, equipment list, email address, payment information, tv viewing history and habits
- information related to a services account such as, email address or user id, user authentication information, usage history and preferences, and/or the like, etc.
- some or all of this information may also be stored in database associated with one or more third party service providers.
- this information can be leveraged by the MSO to send a personalized collection of tokens to its subscribers (for example electronically or via mail) and each token would be provided with data that will be usable to automatically enable a corresponding skill/app for a particular voice enabled platform on the subscriber’s smart device 2100, e.g., their set-top box.
- the tokens can provide data for use in installing a skill associated with a food delivery service, a ride sharing service, a review service, an e-commerce service, or the like.
- the user can scan, read, or otherwise obtain the data from the token - using the smart device or another device capable of forwarding such read data to the smart device - to automatically cause the associated skill to be installed on their smart device, in this example, their set-top box.
- identifying information associated with the set-top box can be used to determine the user’s home address
- the set-top box can be used to determine other connected appliances on the network of the user (as described above)
- the system can be used to automatically log the user into an existing account with a service platform (or to create a new account with a service platform) to thereby allow such service to be quickly and easily integrated into the system.
- transactions between a subscriber and a service platform that would be performed via use of the voice enabled smart device, having the appropriate skill installed thereon, can then be monetized by the MSO per any agreement with the MSO and the service platform.
- the hardware and software components provided to a device may include one or more of the following: 1) an image capturing device adapted to recognize visual tokens (bar codes, QR codes, images which tokens can be scanned from a printed media or from a display on a screen; 2) an active RF scanner recognizing a passive RF tag encoded with information (NFC); and 3) a mechanical or optical decoder recognizing mechanical features in a physical token (a scanner that recognizes holes punched in a physical card or braille dots embossed on a physical media.
- one or multiples of the following actions can be taken by the device and/or cloud services associated with the device: 1) start media playback, including but not limited to movies, TV shows, music, radio, podcasts (media content can be routed to/played on an appropriate device, which can be the TV, external speakers, or the streaming device’s internal speaker via the transmission of appropriate commands as desired); 2) start an interactive session to a service, including but not limited to food delivery, ride sharing, audio/video calls (an app can be installed/invoked as needed to provide an interface so the user can interact with the services via the interface, e.g., by using an input device/mechanism such as a remote control, voice, or additional tokens); and 3) present user with e-commerce promotions to physical or digital products, and facilitate the transaction for the user to complete purchases (the presentation can be via a display and/or speaker and user input/selections can be obtained via use of an input device/mecha
- a voice enable system it will also be desirable for a voice enable system to be adapted to recognize specific keywords, such as wake words, spoken in different languages.
- the recognition of these keywords e.g., the same wake word spoken in English, Spanish, or Chinese, is preferably conducted locally on the smart device 2100 without the need for any cloud services.
- the voice enable device may be caused to wake to thereby capture the following voice input whereupon the following voice input would be provided to a voice processing cloud service together with information that identifies the language in which the words were spoken for further processing. It will be understood that a benefit to the user is being able to interact with the system in his/her native language with the system responding quicker to the user’s commands because the voice process service will not need to recognize/detect the language in the full voice stream received from the user.
- a voice enabled smart device may additionally include a camera in addition to devices that are meant to provide feedback to a user, such as a speaker, one or more LEDs, etc.
- a media rendering device such as a television
- the media rendering device is also usable as a means to provide feedback to a user (and to solicit input from the user, for example by providing a voice controlled graphical user interface).
- a smart device can be used to scan, for example via use of an upwardly facing camera, ID barcodes, 2D QR codes or graphics, and even 3D objects. The scanning of such objects can then be used to initiate an interactive session with the user via use of the media rendering device.
- the interactive application can be invoked whereupon the interactive application will function to cause the smart device to generate a graphical user interface for display on the media rendering device and to cause the smart device to make active its microphone to receive commands from the user for interacting with the graphical user interface to perform some task, for example, to navigate to and to commence a viewing of/listening to a media.
- a known object e.g., a known QR code
- the interactive application can be invoked whereupon the interactive application will function to cause the smart device to generate a graphical user interface for display on the media rendering device and to cause the smart device to make active its microphone to receive commands from the user for interacting with the graphical user interface to perform some task, for example, to navigate to and to commence a viewing of/listening to a media.
- the programming of an exemplary device may utilize a command prioritization list, for example a prioritization list “IP, CEC, IR” may cause the device programming to first determine if the requested command can be issued using Internet Protocol, only if not, then determine if the requested command can be issued using a CEC command over the “HDMI” interface, and only if not, then attempt to issue the requested command via an infrared signal.
- a command prioritization list for example a prioritization list “IP, CEC, IR” may cause the device programming to first determine if the requested command can be issued using Internet Protocol, only if not, then determine if the requested command can be issued using a CEC command over the “HDMI” interface, and only if not, then attempt to issue the requested command via an infrared signal.
- Such a prioritization reflects an exemplary preference of using bi-directional communication protocols over uni-directional communication protocols over line of sight communication protocols, e.g., IR, when supported by the intended target appliance.
- IR line of sight communication protocols
- the examples above may describe a setup agent resident in a smart device, such as a phone or tablet, it will be appreciated that the teachings herein may be equally applicable to other app-capable device such as for example without limitation “smart” TVs, cable or satellite set top boxes, streaming video devices, home automation systems, and the like.
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US20020082730A1 (en) * | 2000-12-21 | 2002-06-27 | Microsoft Corporation | Universal media player |
US20060028337A1 (en) * | 2004-08-09 | 2006-02-09 | Li Qi P | Voice-operated remote control for TV and electronic systems |
JP5003518B2 (en) * | 2008-02-04 | 2012-08-15 | ソニー株式会社 | Remote control system, receiver and remote control method |
US20110137742A1 (en) * | 2009-12-09 | 2011-06-09 | Ebay Inc. | Payment using unique product identifier codes |
US9449500B2 (en) * | 2012-08-08 | 2016-09-20 | Universal Electronics Inc. | System and method for optimized appliance control |
CN105100848B (en) * | 2014-04-21 | 2020-05-22 | 索尼公司 | Intelligent device, intelligent device control system and implementation method thereof |
US10063625B2 (en) * | 2014-05-15 | 2018-08-28 | Universal Electronics Inc. | System and method for appliance detection and app configuration |
US10296957B2 (en) * | 2015-05-04 | 2019-05-21 | BILT Incorporated | Enhanced information delivery facility |
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