WO2017024741A1 - 智能电器工作方法及装置 - Google Patents

智能电器工作方法及装置 Download PDF

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Publication number
WO2017024741A1
WO2017024741A1 PCT/CN2015/099695 CN2015099695W WO2017024741A1 WO 2017024741 A1 WO2017024741 A1 WO 2017024741A1 CN 2015099695 W CN2015099695 W CN 2015099695W WO 2017024741 A1 WO2017024741 A1 WO 2017024741A1
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Prior art keywords
smart
wearable device
preset
smart wearable
appliance
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PCT/CN2015/099695
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English (en)
French (fr)
Inventor
侯恩星
陈宏�
孟德国
Original Assignee
小米科技有限责任公司
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Publication date
Application filed by 小米科技有限责任公司 filed Critical 小米科技有限责任公司
Priority to JP2017513698A priority Critical patent/JP6782229B2/ja
Priority to RU2017102522A priority patent/RU2658169C1/ru
Priority to KR1020167014404A priority patent/KR101842379B1/ko
Priority to MX2017005837A priority patent/MX2017005837A/es
Publication of WO2017024741A1 publication Critical patent/WO2017024741A1/zh

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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B15/00Systems controlled by a computer
    • G05B15/02Systems controlled by a computer electric
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/18Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form
    • G05B19/414Structure of the control system, e.g. common controller or multiprocessor systems, interface to servo, programmable interface controller
    • G05B19/4147Structure of the control system, e.g. common controller or multiprocessor systems, interface to servo, programmable interface controller characterised by using a programmable interface controller [PIC]
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/418Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • G06F1/1613Constructional details or arrangements for portable computers
    • G06F1/163Wearable computers, e.g. on a belt
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/28Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
    • H04L12/2803Home automation networks
    • H04L12/2816Controlling appliance services of a home automation network by calling their functionalities
    • H04L12/282Controlling appliance services of a home automation network by calling their functionalities based on user interaction within the home
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/02Services making use of location information
    • H04W4/023Services making use of location information using mutual or relative location information between multiple location based services [LBS] targets or of distance thresholds
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/06Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/70Services for machine-to-machine communication [M2M] or machine type communication [MTC]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/80Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/20Pc systems
    • G05B2219/26Pc applications
    • G05B2219/2614HVAC, heating, ventillation, climate control
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/20Pc systems
    • G05B2219/26Pc applications
    • G05B2219/2642Domotique, domestic, home control, automation, smart house
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/28Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
    • H04L12/2803Home automation networks
    • H04L2012/284Home automation networks characterised by the type of medium used
    • H04L2012/2841Wireless
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/28Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
    • H04L12/2803Home automation networks
    • H04L2012/2847Home automation networks characterised by the type of home appliance used
    • H04L2012/285Generic home appliances, e.g. refrigerators

Definitions

  • the present disclosure relates to the field of smart home technology, and in particular, to a smart electric appliance working method and device.
  • Smart Home connects various devices in the home (air conditioners, such as audio and video equipment, lighting systems, curtain control, security systems, digital cinema systems, audio and video servers, video cabinet systems, network appliances, etc.) through Internet of Things technology to provide home appliances.
  • air conditioners such as audio and video equipment, lighting systems, curtain control, security systems, digital cinema systems, audio and video servers, video cabinet systems, network appliances, etc.
  • Control lighting control, telephone remote control, indoor and outdoor remote control, burglar alarm, environmental monitoring, HVAC control, infrared forwarding and programmable timing control and other functions and means.
  • smart homes not only have traditional residential functions, but also combine construction, network communication, information appliances, and equipment automation to provide a full range of information interaction functions.
  • Embodiments of the present disclosure provide a smart electrical device working method and apparatus, and the technical solutions are as follows:
  • a smart electrical device working method including:
  • the working state of the smart electrical device is controlled according to a preset parameter, where the preset parameter includes a distance between the smart wearable device and the smart electrical device. Parameters.
  • the determining whether the smart wearable device is a preset smart wearable device according to the message may include:
  • the smart wearable device is not a preset smart wearable device.
  • the identification of the smart wearable device may include a hardware address of the smart wearable device or a unique name of the smart wearable device.
  • the preset parameter may include any one or more of a distance between the smart wearable device and the smart appliance, and a signal strength of the message.
  • the method may further include any one or more of the following operations:
  • the controlling the working state of the smart device according to the preset parameter may include:
  • the first threshold is less than or equal to the second threshold, and the maximum value of the first preset range is less than or equal to a minimum value of the second preset range.
  • the controlling the working state of the smart device according to the preset parameter may include:
  • the third threshold is greater than or equal to the fourth threshold, and the minimum value of the third preset range is greater than or equal to a maximum value of the fourth preset range.
  • controlling the working state of the smart device according to the preset parameter may include:
  • the smart appliance may include: a smart air conditioner, a smart TV, a smart light fixture, a smart tablet computer, a smart water heater.
  • the method may further include:
  • the smart device When the operation of the smart wearable device is not received within the predetermined length of time, or the operation of determining whether the smart wearable device is a preset smart wearable device according to the message, the smart device is The working state is adjusted to the predetermined working mode.
  • the method may further include:
  • a smart electrical appliance working apparatus including:
  • a first acquiring module configured to obtain a packet broadcast by the smart wearable device
  • a determining module configured to determine, according to the packet, whether the smart wearable device is a preset smart wearable device
  • a first control module configured to: when determining that the smart wearable device is a preset smart wearable device, control an operating state of the smart electrical device according to a preset parameter, where the preset parameter includes reflecting the smart wearable device and the The parameters of the distance between the smart appliances are described.
  • the determining module may include:
  • a determining sub-module configured to determine whether the identifier is a first device identifier that is set in a terminal that is used to control the smart device in advance; or determine whether the identifier is a second device identifier that is bound to the smart device; Or determining whether the identifier is a first device identifier and a second device identifier at the same time;
  • a first determining submodule configured to determine that the smart wearable device is a preset smart wearable device if the determination result is yes;
  • a second determining submodule configured to determine that the smart wearable device is not a preset smart wearable device if the determination result is no.
  • the identification of the smart wearable device may include a hardware address of the smart wearable device or a unique name of the smart wearable device.
  • the preset parameter may include any one or more of a distance between the smart wearable device and the smart appliance, and a signal strength of the message.
  • the apparatus may further comprise any one or more of the following modules:
  • a first determining module configured to acquire a location of the smart wearable device by using a GPS technology, and determine a distance between the smart wearable device and the smart electrical device according to the location of the smart wearable device;
  • a second determining module configured to determine, by using an infrared detecting technology, a distance between a user wearing the smart wearable device and the smart appliance;
  • a third determining module configured to determine, according to the packet, a signal strength of the packet.
  • the first control module may include:
  • a first opening submodule configured to enable the smart device when the distance is less than a first threshold or within a first preset range within a preset time period;
  • a first closing sub-module configured to: when the distance is greater than a second threshold or within a second preset range within a preset time period, turning off the smart appliance;
  • the first threshold is less than or equal to the second threshold, and the maximum value of the first preset range is less than or equal to a minimum value of the second preset range.
  • the first control module may further include:
  • a second opening submodule configured to enable the smart device when the signal strength is greater than a third threshold or within a third preset range within a preset time period;
  • a second closing submodule configured to: when the signal strength is less than a fourth threshold or within a fourth preset range within a preset time period, turning off the smart appliance;
  • the third threshold is greater than or equal to the fourth threshold, and the minimum value of the third preset range is greater than or equal to a maximum value of the fourth preset range.
  • the first control module may include:
  • a third determining sub-module configured to determine, according to a preset correspondence between the preset parameter range and the working mode of the smart device, an operating mode of the smart device corresponding to the preset parameter;
  • a adjusting submodule configured to adjust an operating state of the smart appliance to an operating mode of the smart appliance corresponding to the preset parameter.
  • the smart appliance may include: a smart air conditioner, a smart TV, a smart light fixture, a smart tablet computer, a smart water heater.
  • the apparatus may further include:
  • the adjusting module is configured to: when the packet broadcast by the smart wearable device is not received within the predetermined duration, or the operation of determining whether the smart wearable device is a preset smart wearable device according to the packet, Adjusting the working state of the smart appliance to a predetermined working mode.
  • the apparatus may further include:
  • a second acquiring module configured to acquire a sending direction of a signal of the packet
  • the second control module is configured to control a wind direction of the smart air conditioner according to a sending direction of the signal of the message.
  • a smart electrical appliance working apparatus including:
  • a memory for storing processor executable instructions
  • processor is configured to:
  • the working state of the smart electrical device is controlled according to a preset parameter, where the preset parameter includes a distance between the smart wearable device and the smart electrical device. Parameters.
  • the foregoing technical solution is to obtain a packet broadcast by the smart wearable device, determine whether the smart wearable device is a preset smart wearable device according to the packet, and control the smart device according to the preset parameter when determining that the smart wearable device is the preset smart wearable device.
  • the working state of the electric appliance, the preset parameters include parameters that can reflect the distance between the smart wearable device and the smart electric appliance.
  • the smart appliance can be intelligently controlled according to the distance between the smart wearable device and the smart appliance, thereby eliminating the manual operation of the user and improving the user experience.
  • FIG. 1 is a flow chart showing a method of operating a smart appliance according to an exemplary embodiment
  • FIG. 2 is a flowchart of step S102 in a method for operating a smart appliance according to an exemplary embodiment
  • FIG. 3A is a flowchart of another smart electrical device working method according to an exemplary embodiment
  • FIG. 3B is a flowchart of another smart electrical device working method according to an exemplary embodiment
  • FIG. 3C is a flowchart of another smart electrical device working method according to an exemplary embodiment
  • FIG. 3D is a flowchart of step S103 in the smart appliance working method according to an exemplary embodiment
  • FIG. 3E is another flowchart of step S103 in the smart appliance working method according to an exemplary embodiment
  • FIG. 4A is another flowchart of step S103 in the smart appliance working method according to an exemplary embodiment
  • FIG. 4B is a flowchart of another smart electrical device working method according to an exemplary embodiment
  • FIG. 5 is a flowchart of a smart electrical device working method according to an exemplary embodiment
  • FIG. 6 is a flowchart of another smart electrical device working method according to an exemplary embodiment
  • FIG. 7 is a block diagram showing a smart electric appliance working device according to an exemplary embodiment
  • FIG. 8 is a block diagram of a judging module 72 in a smart appliance working device, according to an exemplary embodiment
  • FIG. 9 is a block diagram of another smart electric appliance working device according to an exemplary embodiment.
  • FIG. 10 is a block diagram of a first control module 73 in a smart appliance working device, according to an exemplary embodiment
  • FIG. 11 is another block diagram of a first control module 73 in a smart appliance working device, according to an exemplary embodiment
  • FIG. 12 is a block diagram of a first control module 73 in a smart appliance working device, according to an exemplary embodiment
  • FIG. 13 is a block diagram of another smart electric appliance working device according to an exemplary embodiment
  • FIG. 14 is a block diagram of another smart electric appliance working apparatus according to an exemplary embodiment
  • FIG. 15 is a block diagram of a smart appliance work device, shown in accordance with an exemplary embodiment.
  • FIG. 1 is a flowchart of a smart electrical device working method according to an exemplary embodiment. As shown in FIG. 1 , the foregoing method may be used in a smart electrical appliance, and may also be used in a terminal, where the terminal may be a mobile terminal or a fixed terminal. The terminal is not limited in the embodiment of the present disclosure.
  • the above method includes the following steps S101-S104:
  • step S101 a message broadcast by the smart wearable device is acquired.
  • Smart appliances are smart appliances that use wireless communication protocols such as Wi-Fi, Bluetooth, Zigbee (which can support multiple protocols at the same time, but at least Bluetooth). It can communicate with the terminal used by the user to receive local or remote control commands from the terminal client.
  • Smart wearable devices worn by users such as smart bracelets, smart glasses, etc., are smart wearable devices that use the Bluetooth protocol, which may be bound to smart appliances or unbound.
  • the smart wearable device periodically broadcasts a wireless message to the surroundings. When the method is applied to the smart appliance, the smart appliance receives the message broadcast by the smart wearable device through Wi-Fi, Bluetooth or Zigbee; when the method is used for the terminal used by the user The terminal receives the message broadcast by the smart wearable device through Wi-Fi, Bluetooth or Zigbee.
  • step S102 it is determined whether the smart wearable device is a preset smart wearable device according to the message.
  • step S102 can be implemented as the following steps S201-S204:
  • step S201 the identifier of the smart wearable device is obtained from the message.
  • the packet broadcast by the smart wearable device includes the identifier of the smart wearable device, which is convenient for other devices to recognize.
  • the smart appliance or the terminal parses the identifier of the smart wearable device in the packet.
  • the identification of the smart wearable device may include a hardware address of the smart wearable device or a unique name of the smart wearable device.
  • step S202 it is determined whether the identifier is a first device identifier set in the terminal that is used to control the smart appliance in advance; or whether the identifier is a second device identifier bound to the smart appliance; or whether the identifier is simultaneously The first device identifier and the second device identifier, if the determination result is yes, continue to step S203; if the determination result is no, proceed to step S204.
  • the smart wearable device may be pre-bound with the smart appliance through its identifier, or although the smart wearable device is not bound to the smart appliance, the identifier of the device that can be linked with the smart appliance is set in the terminal used by the user.
  • the user can set the linkage between the smart wearable device and the smart appliance bound to the terminal in the client of the terminal in which the user is used.
  • step S203 if the determination result in step S202 is yes, it is determined that the smart wearable device is a preset smart wearable device;
  • step S204 if the result of the determination in step S202 is NO, it is determined that the smart wearable device is not the preset smart wearable device.
  • whether the smart wearable device is a preset smart wearable device is determined by the identifier of the smart wearable device, so that whether the smart wearable device is a preset smart wearable device can be accurately and quickly determined.
  • step S103 when it is determined that the smart wearable device is the preset smart wearable device, the working state of the smart electrical appliance is controlled according to the preset parameter, and the preset parameter includes a parameter reflecting the distance between the smart wearable device and the smart electrical appliance.
  • the types of preset parameters may be various, such as any one or more of a distance between the smart wearable device and the smart appliance, and a signal strength of the message.
  • the method may further include any one or more of the following steps:
  • step S301 the location of the smart wearable device is acquired by the GPS technology, and the distance between the smart wearable device and the smart appliance is determined according to the location of the smart wearable device.
  • GPS technology can locate the location of the smart wearable device, so that the distance between the smart wearable device and the smart appliance can be conveniently determined.
  • step S302 the distance between the user wearing the smart wearable device and the smart appliance is determined using infrared detection technology.
  • step S303 the signal strength of the message is determined according to the message, and the distance between the smart wearable device and the smart device is determined according to the signal strength of the message.
  • the distance between the signal emitting point and the signal receiving point is measured by the strength of the received signal.
  • the signal emitting point is a smart wearable device
  • the signal receiving point is a smart device. Therefore, the intelligence of the message can be used to determine the intelligence.
  • the distance between the wearable device and the smart appliance The stronger the signal strength, the shorter the distance between the smart wearable device and the smart appliance, and the weaker the signal strength, indicating that the distance between the smart wearable device and the smart appliance is longer.
  • the distance between the smart wearable device and the smart appliance is determined according to the signal strength of the message, wherein the signal strength can be embodied as a signal strength.
  • step S103 may be implemented as any one of the above three steps, or may include three steps or any two of the steps simultaneously, including three steps or any two of them. In the steps, the implementation of the steps does not distinguish the order.
  • step S103 when the preset parameter includes a distance between the smart wearable device and the smart appliance, step S103 may be implemented as the following steps S304 and/or S305:
  • step S304 when the distance is less than the first threshold or within the first preset range within the preset time period, the smart appliance is turned on.
  • the first threshold is 3 meters
  • the preset time period is 1 minute.
  • the distance between the smart wearable device and the smart appliance is less than 3 meters within 1 minute, the user is wearing the smart wearable device, indicating that the user Close to the smart appliance or the user is at home, at this time, the smart appliance can be turned on.
  • step S305 when the distance is greater than the second threshold or within the second preset range within the preset time period, the smart appliance is turned off.
  • the first threshold is less than or equal to the second threshold, and the maximum value of the first preset range is less than or equal to the minimum value of the second preset range.
  • the second threshold may be implemented as 6 meters, and the preset time period is 2 minutes, when the distance between the smart wearable device and the smart appliance is 2 Within 6 minutes, the user wears the smart wearable device, indicating that the user is far away from the smart device or the user is not at home. At this time, the smart device can be turned off.
  • FIG. 3D shows a case where the step S103 includes the two steps S304 and S305 described above.
  • the implementation of the steps does not distinguish the sequence, and the step S103 may only include any one of the steps S304 and S305. .
  • step S103 when the preset parameter includes the signal strength of the message, step S103 may also be implemented as the following steps S306 and/or S307:
  • step S306 when the signal strength is greater than the third threshold or within the third preset range within the preset time period, the smart appliance is turned on; and/or,
  • step S307 when the signal strength is less than the fourth threshold or in the fourth preset range within the preset time period, Turn off the smart appliance;
  • the third threshold is greater than or equal to the fourth threshold, and the minimum value of the third preset range is greater than or equal to the maximum value of the fourth preset range.
  • the distance between the signal issuing point (smart wearable device) and the signal receiving point (smart appliance) is determined by the signal strength of the received message, and the signal strength of the message can be divided into two strong and weak files.
  • the signal value of the packet is greater than the third threshold or is in the third preset range, the signal strength of the corresponding packet is strong; the signal value of the packet is smaller than the fourth in the preset time period.
  • the threshold is in the fourth preset range, the signal strength of the corresponding message is weak.
  • the smart appliance is turned on; when the signal strength of the message is weak, the smart appliance is turned off.
  • FIG. 3E shows a case where the step S103 includes the two steps S306 and S307 described above.
  • the implementation of the steps does not distinguish the sequence, and the step S103 may only include any one of the steps S306 and S307. .
  • step S103 can be implemented as the following steps S401-S402:
  • step S401 determining a working mode of the smart device corresponding to the preset parameter according to a correspondence between the preset preset parameter range and the working mode of the smart device;
  • step S402 the working state of the smart appliance is adjusted to the working mode of the smart appliance corresponding to the preset parameter.
  • the operation modes of the smart air conditioner may include: a cooling mode, a heating mode, and a ventilation mode.
  • the correspondence between the preset parameter range and the working mode of the smart device in different operation modes can be preset.
  • several distance ranges may be preset, such as 0-3 meters, 3-5 meters, and 5-6 meters, and the corresponding working modes of the three distance ranges are low wind speed, medium Wind speed and high wind speed, when the distance between the smart wearable device and the smart air conditioner is 5 meters, the working state of the smart air conditioner is automatically adjusted to the middle wind speed.
  • the working state of the smart device can be adjusted according to the preset parameters, thereby meeting the needs of the user.
  • the above method may further include steps S403-S407:
  • step S403 a message broadcast by the smart wearable device is obtained.
  • step S404 it is determined whether the smart wearable device is a preset smart wearable device according to the message.
  • step S405 the signal strength of the message is determined according to the message, and the distance between the smart wearable device and the smart device is determined according to the signal strength of the message.
  • step S406 when it is determined that the smart wearable device is the preset smart wearable device, the working state of the smart electrical appliance is controlled according to the preset parameter, and the preset parameter includes a parameter reflecting the distance between the smart wearable device and the smart electrical appliance.
  • step S407 when the message broadcast by the smart wearable device is not received within the predetermined time period, or the operation of the smart wearable device is determined to be a preset smart wear device according to the message, the smart device is adjusted to the predetermined work mode. .
  • the smart device cannot receive the message broadcast by the smart wearable device, or the message that cannot be broadcasted from the smart wearable device
  • the smart wearable device When the data is read, or when the operation of the smart wearable device fails to determine whether the smart wearable device is a preset smart wearable device, the smart wearable device is determined to be in a leaving state, a closed state, or a fault state. At this time, the smart appliance can be adjusted to a predetermined working mode.
  • the smart appliance when the smart wearable device is in a shutdown or fault state, the smart appliance is adjusted to an alternate sleep mode. When the smart wearable device is in the leave state, the smart appliance is adjusted to the low power sleep mode.
  • sleep modes There are a variety of sleep modes, which can be preset by the user or learned through historical data sent by the smart wearable device.
  • the above method of the embodiment of the present disclosure can intelligently control the smart appliance according to the distance between the smart wearable device and the smart appliance, thereby eliminating the manual operation of the user and improving the user experience.
  • the smart air conditioner performs the following operations as follows:
  • step S501 the smart air conditioner receives the message broadcast by the smart wearable device
  • step S502 the smart air conditioner parses the MAC address of the smart wearable device in the message, and determines whether the MAC address is an address of the smart wearable device bound to the smart air conditioner;
  • step S503 when the address is the address of the smart wearable device bound to the smart air conditioner, the location of the smart wearable device is obtained by using the GPS technology, and the distance between the smart wearable device and the smart appliance is determined according to the location of the smart wearable device;
  • step S504 the signal strength of the message is obtained
  • step S505 determining whether to turn on the smart air conditioner according to the distance between the smart wearable device and the smart appliance, and determining whether to turn on the smart air conditioner according to the signal strength of the message;
  • step S506 when the determination results of the two are the same, the working state of the smart air conditioner is controlled according to the determination result; the same result of the determination means that the smart air conditioner is simultaneously determined to be turned on or off.
  • step S507 when the judgment results of the two are not the same, the adjustment is abandoned or the process returns to step S503 to perform the re-judgment.
  • the result of re-determining N times is still "the judgment results of the two are not the same", the adjustment is abandoned.
  • N is greater than or equal to two; when the number of re-judging does not reach N times, the judgment result that "the judgment results of the two are the same” is obtained, and the working state of the smart air conditioner is controlled according to the judgment result.
  • the smart appliance may include smart appliances such as smart air conditioners, smart TVs, smart lights, smart tablets, smart water heaters, and the like.
  • the method may include the following steps S601-S606:
  • step S601 a message broadcast by the smart wearable device is acquired.
  • step S602 it is determined whether the smart wearable device is a preset smart wearable device according to the message.
  • step S603 the signal strength of the message is determined according to the message, and the distance between the smart wearable device and the smart device is determined according to the signal strength of the message.
  • step S604 when it is determined that the smart wearable device is the preset smart wearable device, the working state of the smart electrical appliance is controlled according to the preset parameter, and the preset parameter includes a parameter reflecting the distance between the smart wearable device and the smart electrical appliance.
  • step S605 the transmission direction of the signal of the message is acquired.
  • step S606 the swing direction of the smart air conditioner is controlled according to the transmission direction of the signal of the message.
  • the issuing point of the message that is, the orientation of the smart wearable device
  • the issuing point of the message can be determined, thereby determining the orientation of the user, thereby controlling the wind direction of the smart air conditioner. For example, if the user is at a certain position on the right side of the smart air conditioner, the air conditioner can be controlled to blow to the left side to prevent the air outlet from facing the user.
  • FIG. 7 is a block diagram of a smart appliance working device, which may be implemented as part or all of an electronic device by software, hardware, or a combination of both, according to an exemplary embodiment.
  • the smart electrical work device includes:
  • the first obtaining module 71 is configured to acquire a message broadcast by the smart wearable device
  • the determining module 72 is configured to determine, according to the packet, whether the smart wearable device is a preset smart wearable device;
  • the first control module 73 is configured to: when determining that the smart wearable device is the preset smart wearable device, control the working state of the smart electrical device according to the preset parameter, where the preset parameter includes a distance between the smart wearable device and the smart electrical device. parameter.
  • the determining module 72 may include:
  • the obtaining sub-module 81 is configured to obtain an identifier of the smart wearable device from the packet;
  • the determining sub-module 82 is configured to determine whether the identifier is a first device identifier of the controllable smart appliance set in the terminal in advance; or determine whether the identifier is a second device identifier bound to the smart appliance; or determine whether the identifier is simultaneously a first device identifier and a second device identifier;
  • the first determining sub-module 83 is configured to determine that the smart wearable device is a preset smart wearable device if the determination result is yes;
  • the second determining sub-module 84 is configured to determine that the smart wearable device is not a preset smart wearable device if the determination result is no.
  • the identification of the smart wearable device may include a hardware address of the smart wearable device or a unique name of the smart wearable device.
  • the preset parameter may include a distance between the smart wearable device and the smart appliance, and the signal strength of the message Any one or more of the degrees.
  • the above apparatus may further include any one or more of the following modules:
  • the first determining module 74 is configured to acquire a location of the smart wearable device by using a GPS technology, and determine a distance between the smart wearable device and the smart electrical device according to the location of the smart wearable device;
  • the second determining module 75 is configured to determine, by using an infrared detecting technology, a distance between the user wearing the smart wearable device and the smart appliance;
  • the third determining module 76 is configured to determine the signal strength of the message according to the message.
  • the first control module 73 may include:
  • the first opening sub-module 101 is configured to enable the smart appliance when the distance is less than the first threshold or within the first preset range within a preset time period; and/or,
  • the first shutdown sub-module 102 is configured to turn off the smart appliance when the distance is greater than the second threshold or within the second preset range within the preset time period;
  • the first threshold is less than or equal to the second threshold, and the maximum value of the first preset range is less than or equal to the minimum value of the second preset range.
  • the first control module 73 may further include:
  • the second opening sub-module 111 is configured to enable the smart appliance when the signal strength is greater than the third threshold or within the third preset range within a preset time period; and/or,
  • the second closing sub-module 112 is configured to turn off the smart appliance when the signal strength is less than the fourth threshold or within the fourth preset range within the preset time period;
  • the third threshold is greater than or equal to the fourth threshold, and the minimum value of the third preset range is greater than or equal to the maximum value of the fourth preset range.
  • the first control module 73 may include:
  • the third determining sub-module 121 is configured to determine, according to a preset correspondence between the preset parameter range and the working mode of the smart device, an operating mode of the smart device corresponding to the preset parameter;
  • the adjustment sub-module 122 is configured to adjust the working state of the smart appliance to the working mode of the smart appliance corresponding to the preset parameter.
  • the smart appliances may include: smart air conditioners, smart televisions, smart lights, smart tablets, smart water heaters.
  • the device when the smart device is a smart air conditioner, as shown in FIG. 13, the device may further include:
  • the second obtaining module 77 is configured to acquire a sending direction of the signal of the packet
  • the second control module 78 is configured to control the wind direction of the smart air conditioner according to the transmission direction of the signal of the message.
  • the foregoing apparatus may further include:
  • the adjusting module 79 is configured to: when the packet broadcast by the smart wearable device is not received within a predetermined duration, or the operation of the smart wearable device fails according to the packet, Adjust to the scheduled working mode.
  • a smart electrical appliance working apparatus including:
  • a memory for storing processor executable instructions
  • processor is configured to:
  • the working state of the smart electrical device is controlled according to a preset parameter, where the preset parameter includes a distance between the smart wearable device and the smart electrical device. Parameters.
  • the above processor is also configured to:
  • the determining, according to the packet, whether the smart wearable device is a preset smart wearable device may include:
  • the smart wearable device is not a preset smart wearable device.
  • the above processor is also configured to:
  • the identifier of the smart wearable device may include a hardware address of the smart wearable device or a unique name of the smart wearable device.
  • the preset parameter may include any one or more of a distance between the smart wearable device and the smart appliance, and a signal strength of the message.
  • the above processor is also configured to:
  • the method may further include any one or more of the following operations:
  • the above processor is also configured to:
  • the controlling the working state of the smart device according to the preset parameter may include:
  • the smart appliance When the preset parameter is greater than the second threshold or is in the second preset range within the preset time period, the smart appliance is turned off;
  • the first threshold is less than or equal to the second threshold, and the maximum value of the first preset range is less than or equal to a minimum value of the second preset range.
  • the above processor is also configured to:
  • the controlling the working state of the smart device according to the preset parameter includes:
  • the third threshold is greater than or equal to the fourth threshold, and the minimum value of the third preset range is greater than or equal to a maximum value of the fourth preset range.
  • the above processor is also configured to:
  • the controlling the working state of the smart device according to the preset parameter may include:
  • the above processor is also configured to:
  • the smart appliance may include: a smart air conditioner, a smart TV, a smart light fixture, a smart tablet computer, and a smart water heater.
  • the above processor is also configured to:
  • the smart device When the operation of the smart wearable device is not received within the predetermined length of time, or the operation of determining whether the smart wearable device is a preset smart wearable device according to the message, the smart device is The working state is adjusted to the predetermined working mode.
  • the above processor is also configured to:
  • the method may further include:
  • FIG. 15 is a block diagram of a smart appliance working device, which is suitable for a terminal device, according to an exemplary embodiment.
  • device 1200 can be a mobile phone, a computer, a digital broadcast terminal, a messaging device, a gaming console, a tablet device, a medical device, a fitness device, a personal digital assistant, and the like.
  • Apparatus 1200 can include one or more of the following components: processing component 1202, memory 1204, power component 1206, multimedia component 1208, audio component 1210, input/output (I/O) interface 1212, sensor component 1214, and communication component 1216 .
  • Processing component 1202 typically controls the overall operation of device 1200, such as operations associated with display, telephone calls, data communications, camera operations, and recording operations.
  • Processing component 1202 can include one or more processors 1220 to execute instructions to perform all or part of the steps of the above described methods.
  • processing component 1202 can include one or more modules to facilitate interaction between component 1202 and other components.
  • processing component 1202 can include a multimedia module to facilitate interaction between multimedia component 1208 and processing component 1202.
  • Memory 1204 is configured to store various types of data to support operation at device 1200. Examples of such data include instructions for any application or method operating on device 1200, contact data, phone book data, messages, pictures, videos, and the like.
  • the memory 1204 can be implemented by any type of volatile or non-volatile storage device or a combination thereof, such as static random access memory (SRAM), electrically erasable programmable read only memory (EEPROM), erasable Programmable Read Only Memory (EPROM), Programmable Read Only Memory (PROM), Read Only Memory (ROM), Magnetic Memory, Flash Memory, Disk or Optical Disk.
  • SRAM static random access memory
  • EEPROM electrically erasable programmable read only memory
  • EPROM erasable Programmable Read Only Memory
  • PROM Programmable Read Only Memory
  • ROM Read Only Memory
  • Magnetic Memory Flash Memory
  • Disk Disk or Optical Disk.
  • Power component 1206 provides power to various components of device 1200.
  • Power component 1206 can include a power management system, one or more power sources, and other components associated with generating, managing, and distributing power for device 1200.
  • Multimedia component 1208 includes a screen between the device 1200 and a user that provides an output interface.
  • the screen can include a liquid crystal display (LCD) and a touch panel (TP). If the screen includes a touch panel, the screen can be implemented as a touch screen to receive input signals from the user.
  • the touch panel includes one or more touch sensors to sense touches, slides, and gestures on the touch panel. The touch sensor may sense not only the boundary of the touch or sliding action, but also the duration and pressure associated with the touch or slide operation.
  • the multimedia component 1208 includes a front camera and/or a rear camera. When the device 1200 is in an operation mode, such as a shooting mode or a video mode, the front camera and/or the rear camera can receive external multimedia data. Each front and rear camera can be a fixed optical lens system or have focal length and optical zoom capabilities.
  • the audio component 1210 is configured to output and/or input an audio signal.
  • audio component 1210 includes a microphone (MIC) that is configured to receive an external audio signal when device 1200 is in an operational mode, such as a call mode, a recording mode, and a voice recognition mode.
  • the received audio signal may be further stored in memory 1204 or transmitted via communication component 1216.
  • audio component 1210 also includes a speaker for outputting an audio signal.
  • the I/O interface 1212 provides an interface between the processing component 1202 and the peripheral interface module, which may be a keyboard, a click wheel, a button, or the like. These buttons may include, but are not limited to, a home button, a volume button, a start button, and a lock button.
  • Sensor assembly 1214 includes one or more sensors for providing status assessment of various aspects to device 1200.
  • sensor assembly 1214 can detect an open/closed state of device 1200, a relative positioning of components, such as the display and keypad of device 1200, and sensor component 1214 can also detect a change in position of one component of device 1200 or device 1200. The presence or absence of contact by the user with the device 1200, the orientation or acceleration/deceleration of the device 1200 and the temperature change of the device 1200.
  • Sensor assembly 1214 can include a proximity sensor configured to detect the presence of nearby objects without any physical contact.
  • Sensor assembly 1214 may also include a light sensor, such as a CMOS or CCD image sensor, for use in imaging applications.
  • the sensor assembly 1214 can also include an acceleration sensor, a gyro sensor, a magnetic sensor, a pressure sensor, or a temperature sensor.
  • Communication component 1216 is configured to facilitate wired or wireless communication between device 1200 and other devices.
  • the device 1200 can access a wireless network based on a communication standard, such as WiFi, 2G or 3G, or a combination thereof.
  • the communication component 1216 receives broadcast signals or broadcast associated information from an external broadcast management system via a broadcast channel.
  • the communication component 1216 also includes a near field communication (NFC) module to facilitate short range communication.
  • NFC near field communication
  • the NFC module can be implemented based on radio frequency identification (RFID) technology, infrared data association (IrDA) technology, ultra-wideband (UWB) technology, Bluetooth (BT) technology, and other technologies.
  • RFID radio frequency identification
  • IrDA infrared data association
  • UWB ultra-wideband
  • Bluetooth Bluetooth
  • device 1200 may be implemented by one or more application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable A gate array (FPGA), controller, microcontroller, microprocessor, or other electronic component implementation for performing the above methods.
  • ASICs application specific integrated circuits
  • DSPs digital signal processors
  • DSPDs digital signal processing devices
  • PLDs programmable logic devices
  • FPGA field programmable A gate array
  • controller microcontroller, microprocessor, or other electronic component implementation for performing the above methods.
  • a non-transitory computer readable storage medium when the instructions in the storage medium are executed by a processor of the apparatus 1200, enabling the apparatus to perform the above-described smart appliance working method, the method comprising:
  • the working state of the smart electrical device is controlled according to a preset parameter, where the preset parameter includes a distance between the smart wearable device and the smart electrical device. Parameters.
  • the determining whether the smart wearable device is a preset smart wearable device according to the message may include:
  • the smart wearable device is not a preset smart wearable device.
  • the identification of the smart wearable device may include a hardware address of the smart wearable device or a unique name of the smart wearable device.
  • the preset parameter may include any one or more of a distance between the smart wearable device and the smart appliance, and a signal strength of the message.
  • the method may further include any one or more of the following operations:
  • controlling the working state of the smart device according to the preset parameter may include:
  • the smart appliance When the preset parameter is greater than the second threshold or is in the second preset range within the preset time period, the smart appliance is turned off;
  • the first threshold is less than or equal to the second threshold, and the maximum value of the first preset range is less than or equal to a minimum value of the second preset range.
  • the controlling the working state of the smart device according to the preset parameter includes:
  • the third threshold is greater than or equal to the fourth threshold, and the minimum value of the third preset range is greater than or equal to a maximum value of the fourth preset range.
  • controlling the working state of the smart device according to the preset parameter may include:
  • the smart appliance may include: a smart air conditioner, a smart TV, a smart light fixture, a smart tablet computer, a smart water heater.
  • the operation of determining whether the smart wearable device is a preset smart wearable device according to the message fails, And adjusting the working state of the smart appliance to a predetermined working mode.
  • the method may further include:

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Abstract

本公开是关于智能电器工作方法及装置。该方法包括:获取智能穿戴设备广播的报文;根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。上述技术方案,能够根据智能穿戴设备与智能电器之间的距离的远近来智能的控制智能电器,从而省去了用户的手动操作,提升了用户的使用体验。

Description

智能电器工作方法及装置
相关申请的交叉引用
本申请基于申请号为2015104982386、申请日为2015/8/13的中国专利申请提出,并要求该中国专利申请的优先权,该中国专利申请的全部内容在此引入本申请作为参考。
技术领域
本公开涉及智能家居技术领域,尤其涉及智能电器工作方法及装置。
背景技术
目前,智能家居是在互联网的影响之下物联化体现。智能家居通过物联网技术将家中的各种设备(空调、如音视频设备、照明系统、窗帘控制、安防系统、数字影院系统、影音服务器、影柜系统、网络家电等)连接到一起,提供家电控制、照明控制、电话远程控制、室内外遥控、防盗报警、环境监测、暖通控制、红外转发以及可编程定时控制等多种功能和手段。与普通家居相比,智能家居不仅具有传统的居住功能,还兼备建筑、网络通信、信息家电、设备自动化,提供全方位的信息交互功能。
发明内容
本公开实施例提供了智能电器工作方法及装置,所述技术方案如下:
根据本公开实施例的第一方面,提供一种智能电器工作方法,包括:
获取智能穿戴设备广播的报文;
根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;
当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。
在一个实施例中,所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备,可包括:
从所述报文中获取所述智能穿戴设备的标识;
判断所述标识是否为预先在用于控制所述智能电器的终端中设置的第一设备标识;或者判断所述标识是否为与所述智能电器绑定的第二设备标识;或者判断所述标识是否同时为第一设备标识和第二设备标识;
如果所述判断结果为是,确定所述智能穿戴设备为预设的智能穿戴设备;
如果所述判断结果为否,确定所述智能穿戴设备不是预设的智能穿戴设备。
在一个实施例中,所述智能穿戴设备的标识可包括所述智能穿戴设备的硬件地址或者所述智能穿戴设备的唯一名称。
在一个实施例中,所述预设参数可包括所述智能穿戴设备与智能电器之间的距离、所述报文的信号强度中的任一项或多项。
在一个实施例中,所述根据预设参数控制所述智能电器的工作状态之前,所述方法还可包括以下任一操作或多项操作:
通过GPS技术获取所述智能穿戴设备的位置,根据所述智能穿戴设备的位置确定所述智能穿戴设备与所述智能电器之间的距离;或者
利用红外探测技术确定佩戴所述智能穿戴设备的用户与所述智能电器之间的距离;或者
根据所述报文确定所述报文的信号强度。
在一个实施例中,当所述预设参数包括所述智能穿戴设备与智能电器之间的距离时,所述根据预设参数控制所述智能电器的工作状态,可包括:
当所述距离在预设时间段内均小于第一阈值或者处于第一预设范围时,开启所述智能电器;和/或,
当所述距离在预设时间段内均大于第二阈值或者处于第二预设范围时,关闭所述智能电器;
其中所述第一阈值小于或者等于所述第二阈值,所述第一预设范围的最大值小于或者等于所述第二预设范围的最小值。
在一个实施例中,当所述预设参数包括所述报文的信号强度时,所述根据预设参数控制所述智能电器的工作状态,可包括:
当所述信号强度在预设时间段内均大于第三阈值或者处于第三预设范围时,开启所述智能电器;和/或,
当所述信号强度在预设时间段内均小于第四阈值或者处于第四预设范围时,关闭所述智能电器;
其中所述第三阈值大于或者等于所述第四阈值,所述第三预设范围的最小值大于或者等于所述第四预设范围的最大值。
在一个实施例中,所述根据预设参数控制所述智能电器的工作状态,可包括:
根据预设的预设参数范围与智能电器的工作模式的对应关系,确定所述预设参数所对应的智能电器的工作模式;
将所述智能电器的工作状态调整至所述预设参数所对应的智能电器的工作模式。
在一个实施例中,所述智能电器可包括:智能空调、智能电视、智能灯具、智能平板电脑、智能热水器。
在一个实施例中,所述方法还可包括:
当在预定时长内未收到所述智能穿戴设备广播的报文、或者所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备的操作失败时,将所述智能电器的工作状态调整至预定工作模式。
在一个实施例中,当所述智能电器为智能空调时,所述方法还可包括:
获取所述报文的信号的发送方位;
根据所述报文的信号的发送方位控制所述智能空调的摆风方向。
根据本公开实施例的第二方面,提供一种智能电器工作装置,包括:
第一获取模块,用于获取智能穿戴设备广播的报文;
判断模块,用于根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;
第一控制模块,用于当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。
在一个实施例中,所述判断模块,可包括:
获取子模块,用于从所述报文中获取所述智能穿戴设备的标识;
判断子模块,用于判断所述标识是否为预先用于控制所述智能电器的终端中设置的第一设备标识;或者判断所述标识是否为与所述智能电器绑定的第二设备标识;或者判断所述标识是否同时为第一设备标识和第二设备标识;
第一确定子模块,用于如果所述判断结果为是,确定所述智能穿戴设备为预设的智能穿戴设备;
第二确定子模块,用于如果所述判断结果为否,确定所述智能穿戴设备不是预设的智能穿戴设备。
在一个实施例中,所述智能穿戴设备的标识可包括所述智能穿戴设备的硬件地址或者所述智能穿戴设备的唯一名称。
在一个实施例中,所述预设参数可包括所述智能穿戴设备与智能电器之间的距离、所述报文的信号强度中的任一项或多项。
在一个实施例中,所述装置还可包括以下任一个或多个模块:
第一确定模块,用于通过GPS技术获取所述智能穿戴设备的位置,根据所述智能穿戴设备的位置确定所述智能穿戴设备与所述智能电器之间的距离;
第二确定模块,用于利用红外探测技术确定佩戴所述智能穿戴设备的用户与所述智能电器之间的距离;
第三确定模块,用于根据所述报文确定所述报文的信号强度。
在一个实施例中,所述第一控制模块,可包括:
第一开启子模块,用于当所述距离在预设时间段内均小于第一阈值或者处于第一预设范围时,开启所述智能电器;和/或,
第一关闭子模块,用于当所述距离在预设时间段内均大于第二阈值或者处于第二预设范围时,关闭所述智能电器;
其中所述第一阈值小于或者等于所述第二阈值,所述第一预设范围的最大值小于或者等于所述第二预设范围的最小值。
在一个实施例中,当所述预设参数包括所述报文的信号强度时,所述第一控制模块,还可包括:
第二开启子模块,用于当所述信号强度在预设时间段内均大于第三阈值或者处于第三预设范围时,开启所述智能电器;和/或,
第二关闭子模块,用于当所述信号强度在预设时间段内均小于第四阈值或者处于第四预设范围时,关闭所述智能电器;
其中所述第三阈值大于或者等于所述第四阈值,所述第三预设范围的最小值大于或者等于所述第四预设范围的最大值。
在一个实施例中,所述第一控制模块,可包括:
第三确定子模块,用于根据预设的预设参数范围与智能电器的工作模式的对应关系,确定所述预设参数所对应的智能电器的工作模式;
调整子模块,用于将所述智能电器的工作状态调整至所述预设参数所对应的智能电器的工作模式。
在一个实施例中,所述智能电器可包括:智能空调、智能电视、智能灯具、智能平板电脑、智能热水器。
在一个实施例中,所述装置还可包括:
调整模块,用于当在预定时长内未收到所述智能穿戴设备广播的报文、或者所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备的操作失败时,将所述智能电器的工作状态调整至预定工作模式。
在一个实施例中,当所述智能电器为智能空调时,所述装置还可包括:
第二获取模块,用于获取所述报文的信号的发送方位;
第二控制模块,用于根据所述报文的信号的发送方位控制所述智能空调的摆风方向。
根据本公开实施例的第三方面,提供一种智能电器工作装置,包括:
处理器;
用于存储处理器可执行指令的存储器;
其中,所述处理器被配置为:
获取智能穿戴设备广播的报文;
根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;
当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。
本公开的实施例提供的技术方案可以包括以下有益效果:
上述技术方案,通过获取智能穿戴设备广播的报文;根据报文判断智能穿戴设备是否为预设的智能穿戴设备;当判定智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制智能电器的工作状态,预设参数包括能够反映智能穿戴设备与智能电器之间距离远近的参数。从而能够根据智能穿戴设备与智能电器之间的距离的远近来智能的控制智能电器,从而省去了用户的手动操作,提升了用户的使用体验。
应当理解的是,以上的一般描述和后文的细节描述仅是示例性和解释性的,并不能限制本公开。
附图说明
此处的附图被并入说明书中并构成本说明书的一部分,示出了符合本发明的实施例,并与说明书一起用于解释本发明的原理。
图1是根据一示例性实施例示出的智能电器工作方法的流程图;
图2是根据一示例性实施例示出的智能电器工作方法中步骤S102的流程图;
图3A是根据一示例性实施例示出的另一种智能电器工作方法的流程图;
图3B是根据一示例性实施例示出的另一种智能电器工作方法的流程图;
图3C是根据一示例性实施例示出的另一种智能电器工作方法的流程图;
图3D是根据一示例性实施例示出的智能电器工作方法中步骤S103的流程图;
图3E是根据一示例性实施例示出的智能电器工作方法中步骤S103的另一个流程图;
图4A是根据一示例性实施例示出的智能电器工作方法中步骤S103的另一个流程图;
图4B是根据一示例性实施例示出的另一种智能电器工作方法的流程图;
图5是根据一示例性实施例一示出的智能电器工作方法的流程图;
图6是根据一示例性实施例示出的另一种智能电器工作方法的流程图;
图7是根据一示例性实施例示出的智能电器工作装置的框图;
图8是根据一示例性实施例示出的智能电器工作装置中判断模块72的框图;
图9是根据一示例性实施例示出的另一种智能电器工作装置的框图;
图10是根据一示例性实施例示出的智能电器工作装置中第一控制模块73的框图;
图11是根据一示例性实施例示出的智能电器工作装置中第一控制模块73的另一个框图;
图12是根据一示例性实施例示出的智能电器工作装置中第一控制模块73的框图;
图13是根据一示例性实施例示出的另一种智能电器工作装置的框图;
图14是根据一示例性实施例示出的另一种智能电器工作装置的框图;
图15是根据一示例性实施例示出的适用于智能电器工作装置的框图。
具体实施方式
这里将详细地对示例性实施例进行说明,其示例表示在附图中。下面的描述涉及附图时,除非另有表示,不同附图中的相同数字表示相同或相似的要素。以下示例性实施例中所描述的实施方式并不代表与本发明相一致的所有实施方式。相反,它们仅是与如所附权利要求书中所详述的、本发明的一些方面相一致的装置和方法的例子。
图1是根据一示例性实施例示出的一种智能电器工作方法的流程图,如图1所示,上述方法可用于智能电器中,也可用于终端中,终端可以是移动终端也可以是固定终端,本公开实施例不做限定。上述方法包括以下步骤S101-S104:
在步骤S101中,获取智能穿戴设备广播的报文。
智能电器为使用了Wi-Fi、蓝牙、Zigbee等无线通讯协议(可以同时支持多种协议,但是至少要有蓝牙)的智能电器。它可以和用户使用的终端进行通信,接收来自于终端客户端的本地或者远程控制指令。用户佩戴的智能穿戴设备,例如智能手环、智能眼镜等,为使用了蓝牙协议的智能穿戴设备,该智能穿戴设备可以是和智能电器绑定过的,也可以是未绑定的。智能穿戴设备周期性的向周围广播无线报文,当该方法用于智能电器时,智能电器通过Wi-Fi、蓝牙或者Zigbee接收智能穿戴设备广播的报文;当该方法用于用户使用的终端时,终端通过Wi-Fi、蓝牙或者Zigbee接收智能穿戴设备广播的报文。
在步骤S102中,根据报文判断智能穿戴设备是否为预设的智能穿戴设备。
在一个实施例中,如图2所示,步骤S102可实施为如下步骤S201-S204:
在步骤S201中,从报文中获取智能穿戴设备的标识。
智能穿戴设备广播的报文中包含智能穿戴设备的标识,方便其它设备识别。智能电器或者终端接收到报文后,会解析出报文中的智能穿戴设备的标识。在一个实施例中,智能穿戴设备的标识可包括智能穿戴设备的硬件地址或者智能穿戴设备的唯一名称。
在步骤S202中,判断标识是否为预先用于控制所述智能电器的在终端中设置的第一设备标识;或者判断标识是否为与智能电器绑定的第二设备标识;或者判断标识是否同时为第一设备标识和第二设备标识,如果判断结果为是,继续执行步骤S203;如果判断结果为否,继续执行步骤S204。
本步骤中,智能穿戴设备可以通过其标识与智能电器预先进行绑定,或者虽然智能穿戴设备未与智能电器绑定,用户使用的终端中设置过可以和智能电器发生联动的设备的标识。用户可以预先在其使用的终端的客户端中设置和终端绑定的智能穿戴设备和智能电器发生联动。
在步骤S203中,如果步骤S202的判断结果为是,确定智能穿戴设备为预设的智能穿戴设备;
在步骤S204中,如果步骤S202的判断结果为否,确定智能穿戴设备不是预设的智能穿戴设备。
本实施例中,通过智能穿戴设备的标识来确定智能穿戴设备是否为预设的智能穿戴设备,从而可以准确、快捷的确定出智能穿戴设备是否为预设的智能穿戴设备。
在步骤S103中,当判定智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制智能电器的工作状态,预设参数包括反映智能穿戴设备与智能电器之间距离远近的参数。
在一个实施例中,预设参数的种类可以有多种,比如可以是智能穿戴设备与智能电器之间的距离、报文的信号强度中的任一种或多种。
在一个实施例中,在步骤S103之前,方法还可包括以下任一步骤或多项步骤:
如图3A所示,在步骤S301中,通过GPS技术获取智能穿戴设备的位置,根据智能穿戴设备的位置确定智能穿戴设备与智能电器之间的距离。
GPS技术可以定位出智能穿戴设备的位置,从而可以方便的确定出智能穿戴设备与智能电器之间的距离。
如图3B所示,在步骤S302中,利用红外探测技术确定佩戴智能穿戴设备的用户与智能电器之间的距离。
如图3C所示,在步骤S303中,根据报文确定报文的信号强度,根据报文的信号强度确定智能穿戴设备与智能电器之间的距离。
根据报文确定报文的RSSI(Received Signal Strength Indicator,接收信号的强度指示), 通过接收到的信号强弱测定信号发出点与信号接收点的距离,本步骤中,信号发出点为智能穿戴设备,信号接收点为智能电器,因此,通过报文的信号强度就能判断出智能穿戴设备与智能电器之间的距离。信号强度越强,表明智能穿戴设备与智能电器之间的距离越短,信号强度越弱,表明智能穿戴设备与智能电器之间的距离越长。根据报文的信号强度来确定智能穿戴设备与智能电器之间的距离,其中,信号强度可具体实施为信号强度。
如图3A、3B、3C所示,步骤S103可以实施为上述三个步骤中的任意一个步骤,也可同时包括三个步骤或其中任意两个步骤,当同时包括三个步骤或其中任意两个步骤时,步骤的实施不区分先后顺序。
在一个实施例中,如图3D所示,当预设参数包括智能穿戴设备与智能电器之间的距离时,步骤S103可实施为如下步骤S304和/或S305:
在步骤S304中,当距离在预设时间段内均小于第一阈值或者处于第一预设范围时,开启智能电器。
举例说明,第一阈值为3米,预设时间段为1分钟,当智能穿戴设备与智能电器之间的距离在1分钟之内均小于3米,由于用户佩戴该智能穿戴设备,则说明用户离智能电器较近或者用户在家,此时,可开启智能电器。
在步骤S305中,当距离在预设时间段内均大于第二阈值或者处于第二预设范围时,关闭智能电器。
其中第一阈值小于或者等于第二阈值,第一预设范围的最大值小于或者等于第二预设范围的最小值。
举例说明,当预设参数为智能穿戴设备与智能电器之间的距离时,第二阈值可实施为6米,预设时间段为2分钟,当智能穿戴设备与智能电器之间的距离在2分钟之内均大于6米,由于用户佩戴该智能穿戴设备,则说明用户离智能电器较远或者用户不在家,此时,可关闭智能电器。
图3D所示为步骤S103同时包括上述两个步骤S304和S305的情况,当同时包括两个步骤时,步骤的实施不区分先后顺序,步骤S103也可只包含步骤S304、S305中的任意一个步骤。
在一个实施例中,如图3E所示,当预设参数包括报文的信号强度时,步骤S103还可实施为如下步骤S306和/或S307:
在步骤S306中,当信号强度在预设时间段内均大于第三阈值或者处于第三预设范围时,开启智能电器;和/或,
在步骤S307中,当信号强度在预设时间段内均小于第四阈值或者处于第四预设范围时, 关闭智能电器;
其中第三阈值大于或者等于第四阈值,第三预设范围的最小值大于或者等于第四预设范围的最大值。
具体实施时,通过接收到的报文的信号强弱来测定信号发出点(智能穿戴设备)与信号接收点(智能电器)的距离,可以将报文的信号强度分为强、弱两档,报文的信号值在预设时间段内均大于第三阈值或者处于第三预设范围时,对应的报文的信号强度为强;报文的信号值在预设时间段内均小于第四阈值或者处于第四预设范围时,对应的报文的信号强度为弱。当报文的信号强度为强时,开启智能电器;当报文的信号强度为弱时,关闭智能电器。
图3E所示为步骤S103同时包括上述两个步骤S306和S307的情况,当同时包括两个步骤时,步骤的实施不区分先后顺序,步骤S103也可只包含步骤S306、S307中的任意一个步骤。
在一个实施例中,如图4A所示,步骤S103可实施为如下步骤S401-S402:
在步骤S401中,根据预设的预设参数范围与智能电器的工作模式的对应关系,确定预设参数所对应的智能电器的工作模式;
在步骤S402中,将智能电器的工作状态调整至预设参数所对应的智能电器的工作模式。
其中,当智能电器为智能空调时,智能空调的运行模式可包括:制冷模式、制热模式和通风模式。可预先设置不同的运行模式下预设参数范围与智能电器的工作模式的对应关系。举例说明,当运行模式处于通风模式时,可以预先设置几个距离范围,比如0-3米、3-5米、5-6米,这三个距离范围分别对应的工作模式为低风速、中风速、高风速,则当智能穿戴设备与智能空调之间的距离为5米时,自动将智能空调的工作状态调整至中风速。上述实施例,可根据预设参数来调整智能电器的工作状态,从而可以满足用户的需求。
在一个实施例中,如图4B所示,上述方法还可包括步骤S403-S407:
在步骤S403中,获取智能穿戴设备广播的报文。
在步骤S404中,根据报文判断智能穿戴设备是否为预设的智能穿戴设备。
在步骤S405中,根据报文确定报文的信号强度,根据报文的信号强度确定智能穿戴设备与智能电器之间的距离。
在步骤S406中,当判定智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制智能电器的工作状态,预设参数包括反映智能穿戴设备与智能电器之间距离远近的参数。
在步骤S407中,当在预定时长内未收到智能穿戴设备广播的报文、或者根据报文判断智能穿戴设备是否为预设的智能穿戴设备的操作失败时,将智能电器调整为预定工作模式。
当智能电器无法接收到智能穿戴设备广播的报文,或者无法从智能穿戴设备广播的报文 中读取数据,或者根据报文判断智能穿戴设备是否为预设的智能穿戴设备的操作失败时,确定智能穿戴设备处于离开状态、关闭状态、或者故障状态。此时,可以将智能电器调整为预定工作模式。
例如,当智能穿戴式设备为关闭或者故障状态时,将智能电器调整至备用的休眠模式。当智能穿戴式设备为离开状态时,将智能电器调整至低功率休眠模式。休眠模式可以有多种,可以由用户自行预先设置参数,也可通过智能穿戴设备发送的历史数据学习获得。
本公开实施例的上述方法,能够根据智能穿戴设备与智能电器之间的距离的远近来智能的控制智能电器,从而省去了用户的手动操作,提升了用户的使用体验。
下面以具体实施例来说明本公开实施例提供的上述技术方案。
利用本公开实施例提供的智能电器工作方法,其中,智能穿戴设备为智能手环、智能电器为智能空调,如图5所示,智能空调接下来进行如下操作:
在步骤S501中,智能空调接收智能穿戴设备广播的报文;
在步骤S502中,智能空调解析出报文中的该智能穿戴设备的MAC地址,并判断该MAC地址是否为与该智能空调绑定的智能穿戴设备的地址;
在步骤S503中,当该地址为与智能空调绑定的智能穿戴设备的地址时,通过GPS技术获取智能穿戴设备的位置,根据智能穿戴设备的位置确定智能穿戴设备与智能电器之间的距离;
在步骤S504中,获取报文的信号强度;
在步骤S505中,根据智能穿戴设备与智能电器之间的距离判断是否开启智能空调,以及根据报文的信号强度判断是否开启智能空调;
在步骤S506中,当二者的判断结果相同时,根据判断结果控制智能空调的工作状态;判断结果相同指的是同时判断为开启或者关闭智能空调。
在步骤S507中,当二者的判断结果不相同时,放弃调整或者继续返回步骤S503进行重新判断,当重新判断了N次的结果依然是“二者的判断结果不相同”时,放弃调整,N大于等于二;当重新判断的次数未达到N次就得到“二者的判断结果相同”的判断结果,则根据判断结果控制智能空调的工作状态。
在一个实施例中,智能电器可包括:智能空调、智能电视、智能灯具、智能平板电脑、智能热水器等智能型电器。
在一个实施例中,当智能电器为智能空调时,如图6所示,该方法可包括以下步骤S601-S606:
在步骤S601中,获取智能穿戴设备广播的报文。
在步骤S602中,根据报文判断智能穿戴设备是否为预设的智能穿戴设备。
在步骤S603中,根据报文确定报文的信号强度,根据报文的信号强度确定智能穿戴设备与智能电器之间的距离。
在步骤S604中,当判定智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制智能电器的工作状态,预设参数包括反映智能穿戴设备与智能电器之间距离远近的参数。
在步骤S605中,获取报文的信号的发送方位。
在步骤S606中,根据报文的信号的发送方位控制智能空调的摆风方向。
在本实施例中,根据报文的信号的发送方位,可以确定报文的发出点,也就是智能穿戴设备的方位,从而确定出用户的方位,从而控制智能空调的摆风方向。比如,用户在智能空调右侧的某一位置,则可控制空调向左侧吹,避免出风口正对用户。
下述为本公开装置实施例,可以用于执行本公开方法实施例。
图7是根据一示例性实施例示出的一种智能电器工作装置的框图,该装置可以通过软件、硬件或者两者的结合实现成为电子设备的部分或者全部。如图7所示,该智能电器工作装置包括:
第一获取模块71,被配置为获取智能穿戴设备广播的报文;
判断模块72,被配置为根据报文判断智能穿戴设备是否为预设的智能穿戴设备;
第一控制模块73,被配置为当判定智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制智能电器的工作状态,预设参数包括反映智能穿戴设备与智能电器之间距离远近的参数。
在一个实施例中,如图8所示,判断模块72,可包括:
获取子模块81,被配置为从报文中获取智能穿戴设备的标识;
判断子模块82,被配置为判断标识是否为预先在终端中设置的可控制智能电器的第一设备标识;或者判断标识是否为与智能电器绑定的第二设备标识;或者判断标识是否同时为第一设备标识和第二设备标识;
第一确定子模块83,被配置为如果判断结果为是,确定智能穿戴设备为预设的智能穿戴设备;
第二确定子模块84,被配置为如果判断结果为否,确定智能穿戴设备不是预设的智能穿戴设备。
在一个实施例中,智能穿戴设备的标识可包括智能穿戴设备的硬件地址或者智能穿戴设备的唯一名称。
在一个实施例中,预设参数可包括智能穿戴设备与智能电器之间的距离、报文的信号强 度中的任一项或多项。
在一个实施例中,如图9所示,上述装置还可包括以下任一个或多个模块:
第一确定模块74,被配置为通过GPS技术获取智能穿戴设备的位置,根据智能穿戴设备的位置确定智能穿戴设备与智能电器之间的距离;
第二确定模块75,被配置为利用红外探测技术确定佩戴智能穿戴设备的用户与智能电器之间的距离;
第三确定模块76,被配置为根据报文确定报文的信号强度。
在一个实施例中,如图10所示,当预设参数包括智能穿戴设备与智能电器之间的距离时,第一控制模块73,可包括:
第一开启子模块101,被配置为当距离在预设时间段内均小于第一阈值或者处于第一预设范围时,开启智能电器;和/或,
第一关闭子模块102,被配置为当距离在预设时间段内均大于第二阈值或者处于第二预设范围时,关闭智能电器;
其中第一阈值小于或者等于第二阈值,第一预设范围的最大值小于或者等于第二预设范围的最小值。
在一个实施例中,如图11所示,当预设参数包括报文的信号强度时,第一控制模块73,还可包括:
第二开启子模块111,被配置为当信号强度在预设时间段内均大于第三阈值或者处于第三预设范围时,开启智能电器;和/或,
第二关闭子模块112,被配置为当信号强度在预设时间段内均小于第四阈值或者处于第四预设范围时,关闭智能电器;
其中第三阈值大于或者等于第四阈值,第三预设范围的最小值大于或者等于第四预设范围的最大值。
在一个实施例中,如图12所示,第一控制模块73,可包括:
第三确定子模块121,被配置为根据预设的预设参数范围与智能电器的工作模式的对应关系,确定预设参数所对应的智能电器的工作模式;
调整子模块122,被配置为将智能电器的工作状态调整至预设参数所对应的智能电器的工作模式。
在一个实施例中,智能电器可包括:智能空调、智能电视、智能灯具、智能平板电脑、智能热水器。
在一个实施例中,当智能电器为智能空调时,如图13所示,上述装置还可包括:
第二获取模块77,被配置为获取报文的信号的发送方位;
第二控制模块78,被配置为根据报文的信号的发送方位控制智能空调的摆风方向。
在一个实施例中,如图14所示,上述装置还可包括:
调整模块79,被配置为当在预定时长内未收到智能穿戴设备广播的报文、或者根据报文判断智能穿戴设备是否为预设的智能穿戴设备的操作失败时,将智能电器的工作状态调整至预定工作模式。
根据本公开实施例的第三方面,提供一种智能电器工作装置,包括:
处理器;
用于存储处理器可执行指令的存储器;
其中,所述处理器被配置为:
获取智能穿戴设备广播的报文;
根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;
当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。
上述处理器还被配置为:
所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备,可包括:
从所述报文中获取所述智能穿戴设备的标识;
判断所述标识是否为预先在用于控制所述智能电器的终端中设置的的第一设备标识;或者判断所述标识是否为与所述智能电器绑定的第二设备标识;或者判断所述标识是否同时为第一设备标识和第二设备标识;
如果所述判断结果为是,确定所述智能穿戴设备为预设的智能穿戴设备;
如果所述判断结果为否,确定所述智能穿戴设备不是预设的智能穿戴设备。
上述处理器还被配置为:
所述智能穿戴设备的标识可包括所述智能穿戴设备的硬件地址或者所述智能穿戴设备的唯一名称。
在一个实施例中,所述预设参数可包括所述智能穿戴设备与智能电器之间的距离、所述报文的信号强度中的任一项或多项。
上述处理器还被配置为:
所述根据预设参数控制所述智能电器的工作状态之前,所述方法还可包括以下任一操作或多项操作:
通过GPS技术获取所述智能穿戴设备的位置,根据所述智能穿戴设备的位置确定所述 智能穿戴设备与所述智能电器之间的距离;
利用红外探测技术确定佩戴所述智能穿戴设备的用户与所述智能电器之间的距离;
根据所述报文确定所述报文的信号强度。
上述处理器还被配置为:
所述根据预设参数控制所述智能电器的工作状态,可包括:
当所述预设参数在预设时间段内均小于第一阈值或者处于第一预设范围时,开启所述智能电器;和/或,
当所述预设参数在预设时间段内均大于第二阈值或者处于第二预设范围时,关闭所述智能电器;
其中所述第一阈值小于或者等于所述第二阈值,所述第一预设范围的最大值小于或者等于所述第二预设范围的最小值。
上述处理器还被配置为:
当所述预设参数包括所述报文的信号强度时,所述根据预设参数控制所述智能电器的工作状态,包括:
当所述信号强度在预设时间段内均大于第三阈值或者处于第三预设范围时,开启所述智能电器;和/或,
当所述信号强度在预设时间段内均小于第四阈值或者处于第四预设范围时,关闭所述智能电器;
其中所述第三阈值大于或者等于所述第四阈值,所述第三预设范围的最小值大于或者等于所述第四预设范围的最大值。
上述处理器还被配置为:
所述根据预设参数控制所述智能电器的工作状态,可包括:
根据预设的预设参数范围与智能电器的工作模式的对应关系,确定所述预设参数所对应的智能电器的工作模式;
将所述智能电器的工作状态调整至所述预设参数所对应的智能电器的工作模式。
上述处理器还被配置为:
所述智能电器可包括:智能空调、智能电视、智能灯具、智能平板电脑、智能热水器。
上述处理器还被配置为:
当在预定时长内未收到所述智能穿戴设备广播的报文、或者所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备的操作失败时,将所述智能电器的工作状态调整至预定工作模式。
上述处理器还被配置为:
当所述智能电器为智能空调时,所述方法还可包括:
获取所述报文的信号的发送方位;
根据所述报文的信号的发送方位控制所述智能空调的摆风方向。
图15是根据一示例性实施例示出的一种智能电器工作装置的框图,该装置适用于终端设备。例如,装置1200可以是移动电话,计算机,数字广播终端,消息收发设备,游戏控制台,平板设备,医疗设备,健身设备,个人数字助理等。
装置1200可以包括以下一个或多个组件:处理组件1202,存储器1204,电源组件1206,多媒体组件1208,音频组件1210,输入/输出(I/O)的接口1212,传感器组件1214,以及通信组件1216。
处理组件1202通常控制装置1200的整体操作,诸如与显示,电话呼叫,数据通信,相机操作和记录操作相关联的操作。处理元件1202可以包括一个或多个处理器1220来执行指令,以完成上述的方法的全部或部分步骤。此外,处理组件1202可以包括一个或多个模块,便于处理组件1202和其他组件之间的交互。例如,处理部件1202可以包括多媒体模块,以方便多媒体组件1208和处理组件1202之间的交互。
存储器1204被配置为存储各种类型的数据以支持在设备1200的操作。这些数据的示例包括用于在装置1200上操作的任何应用程序或方法的指令,联系人数据,电话簿数据,消息,图片,视频等。存储器1204可以由任何类型的易失性或非易失性存储设备或者它们的组合实现,如静态随机存取存储器(SRAM),电可擦除可编程只读存储器(EEPROM),可擦除可编程只读存储器(EPROM),可编程只读存储器(PROM),只读存储器(ROM),磁存储器,快闪存储器,磁盘或光盘。
电力组件1206为装置1200的各种组件提供电力。电力组件1206可以包括电源管理系统,一个或多个电源,及其他与为装置1200生成、管理和分配电力相关联的组件。
多媒体组件1208包括在所述装置1200和用户之间的提供一个输出接口的屏幕。在一些实施例中,屏幕可以包括液晶显示器(LCD)和触摸面板(TP)。如果屏幕包括触摸面板,屏幕可以被实现为触摸屏,以接收来自用户的输入信号。触摸面板包括一个或多个触摸传感器以感测触摸、滑动和触摸面板上的手势。所述触摸传感器可以不仅感测触摸或滑动动作的边界,而且还检测与所述触摸或滑动操作相关的持续时间和压力。在一些实施例中,多媒体组件1208包括一个前置摄像头和/或后置摄像头。当设备1200处于操作模式,如拍摄模式或视频模式时,前置摄像头和/或后置摄像头可以接收外部的多媒体数据。每个前置摄像头和后置摄像头可以是一个固定的光学透镜系统或具有焦距和光学变焦能力。
音频组件1210被配置为输出和/或输入音频信号。例如,音频组件1210包括一个麦克风(MIC),当装置1200处于操作模式,如呼叫模式、记录模式和语音识别模式时,麦克风被配置为接收外部音频信号。所接收的音频信号可以被进一步存储在存储器1204或经由通信组件1216发送。在一些实施例中,音频组件1210还包括一个扬声器,用于输出音频信号。
I/O接口1212为处理组件1202和外围接口模块之间提供接口,上述外围接口模块可以是键盘,点击轮,按钮等。这些按钮可包括但不限于:主页按钮、音量按钮、启动按钮和锁定按钮。
传感器组件1214包括一个或多个传感器,用于为装置1200提供各个方面的状态评估。例如,传感器组件1214可以检测到设备1200的打开/关闭状态,组件的相对定位,例如所述组件为装置1200的显示器和小键盘,传感器组件1214还可以检测装置1200或装置1200一个组件的位置改变,用户与装置1200接触的存在或不存在,装置1200方位或加速/减速和装置1200的温度变化。传感器组件1214可以包括接近传感器,被配置用来在没有任何的物理接触时检测附近物体的存在。传感器组件1214还可以包括光传感器,如CMOS或CCD图像传感器,用于在成像应用中使用。在一些实施例中,该传感器组件1214还可以包括加速度传感器,陀螺仪传感器,磁传感器,压力传感器或温度传感器。
通信组件1216被配置为便于装置1200和其他设备之间有线或无线方式的通信。装置1200可以接入基于通信标准的无线网络,如WiFi,2G或3G,或它们的组合。在一个示例性实施例中,通信部件1216经由广播信道接收来自外部广播管理系统的广播信号或广播相关信息。在一个示例性实施例中,所述通信部件1216还包括近场通信(NFC)模块,以促进短程通信。例如,在NFC模块可基于射频识别(RFID)技术,红外数据协会(IrDA)技术,超宽带(UWB)技术,蓝牙(BT)技术和其他技术来实现。
在示例性实施例中,装置1200可以被一个或多个应用专用集成电路(ASIC)、数字信号处理器(DSP)、数字信号处理设备(DSPD)、可编程逻辑器件(PLD)、现场可编程门阵列(FPGA)、控制器、微控制器、微处理器或其他电子元件实现,用于执行上述方法。
一种非临时性计算机可读存储介质,当所述存储介质中的指令由装置1200的处理器执行时,使得上述装置能够执行上述智能电器工作方法,所述方法包括:
获取智能穿戴设备广播的报文;
根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;
当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。
在一个实施例中,所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备,可包括:
从所述报文中获取所述智能穿戴设备的标识;
判断所述标识是否为预先在用于控制所述智能电器的终端中设置的第一设备标识;或者判断所述标识是否为与所述智能电器绑定的第二设备标识;或者判断所述标识是否同时为第一设备标识和第二设备标识;
如果所述判断结果为是,确定所述智能穿戴设备为预设的智能穿戴设备;
如果所述判断结果为否,确定所述智能穿戴设备不是预设的智能穿戴设备。
在一个实施例中,所述智能穿戴设备的标识可包括所述智能穿戴设备的硬件地址或者所述智能穿戴设备的唯一名称。
在一个实施例中,所述预设参数可包括所述智能穿戴设备与智能电器之间的距离、所述报文的信号强度中的任一项或多项。
在一个实施例中,所述根据预设参数控制所述智能电器的工作状态之前,所述方法还可包括以下任一操作或多项操作:
通过GPS技术获取所述智能穿戴设备的位置,根据所述智能穿戴设备的位置确定所述智能穿戴设备与所述智能电器之间的距离;
利用红外探测技术确定佩戴所述智能穿戴设备的用户与所述智能电器之间的距离;
根据所述报文确定所述报文的信号强度。
在一个实施例中,所述根据预设参数控制所述智能电器的工作状态,可包括:
当所述预设参数在预设时间段内均小于第一阈值或者处于第一预设范围时,开启所述智能电器;和/或,
当所述预设参数在预设时间段内均大于第二阈值或者处于第二预设范围时,关闭所述智能电器;
其中所述第一阈值小于或者等于所述第二阈值,所述第一预设范围的最大值小于或者等于所述第二预设范围的最小值。
在一个实施例中,当所述预设参数包括所述报文的信号强度时,所述根据预设参数控制所述智能电器的工作状态,包括:
当所述信号强度在预设时间段内均大于第三阈值或者处于第三预设范围时,开启所述智能电器;和/或,
当所述信号强度在预设时间段内均小于第四阈值或者处于第四预设范围时,关闭所述智能电器;
其中所述第三阈值大于或者等于所述第四阈值,所述第三预设范围的最小值大于或者等于所述第四预设范围的最大值。
在一个实施例中,所述根据预设参数控制所述智能电器的工作状态,可包括:
根据预设的预设参数范围与智能电器的工作模式的对应关系,确定所述预设参数所对应的智能电器的工作模式;
将所述智能电器的工作状态调整至所述预设参数所对应的智能电器的工作模式。
在一个实施例中,所述智能电器可包括:智能空调、智能电视、智能灯具、智能平板电脑、智能热水器。
在一个实施例中,当在预定时长内未收到所述智能穿戴设备广播的报文、或者所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备的操作失败时,将所述智能电器的工作状态调整至预定工作模式。
在一个实施例中,当所述智能电器为智能空调时,所述方法还可包括:
获取所述报文的信号的发送方位;
根据所述报文的信号的发送方位控制所述智能空调的摆风方向。
本领域技术人员在考虑说明书及实践这里公开的公开后,将容易想到本公开的其它实施方案。本申请旨在涵盖本公开的任何变型、用途或者适应性变化,这些变型、用途或者适应性变化遵循本公开的一般性原理并包括本公开未公开的本技术领域中的公知常识或惯用技术手段。说明书和实施例仅被视为示例性的,本公开的真正范围和精神由下面的权利要求指出。
应当理解的是,本公开并不局限于上面已经描述并在附图中示出的精确结构,并且可以在不脱离其范围进行各种修改和改变。本公开的范围仅由所附的权利要求来限制。

Claims (21)

  1. 一种智能电器工作方法,其特征在于,包括:
    获取智能穿戴设备广播的报文;
    根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;
    当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。
  2. 根据权利要求1所述的方法,其特征在于,所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备,包括:
    从所述报文中获取所述智能穿戴设备的标识;
    判断所述标识是否为预先在用于控制所述智能电器的终端中设置的第一设备标识;或者判断所述标识是否为与所述智能电器绑定的第二设备标识;或者判断所述标识是否同时为第一设备标识和第二设备标识;
    如果所述判断结果为是,确定所述智能穿戴设备为预设的智能穿戴设备;
    如果所述判断结果为否,确定所述智能穿戴设备不是预设的智能穿戴设备。
  3. 根据权利要求2所述的方法,其特征在于,所述智能穿戴设备的标识包括所述智能穿戴设备的硬件地址或者所述智能穿戴设备的唯一名称。
  4. 根据权利要求1所述的方法,其特征在于,
    所述预设参数包括所述智能穿戴设备与智能电器之间的距离、所述报文的信号强度中的任一项或多项。
  5. 根据权利要求4所述的方法,其特征在于,所述根据预设参数控制所述智能电器的工作状态之前,所述方法还包括以下任一操作或多项操作:
    通过GPS技术获取所述智能穿戴设备的位置,根据所述智能穿戴设备的位置确定所述智能穿戴设备与所述智能电器之间的距离;或者
    利用红外探测技术确定佩戴所述智能穿戴设备的用户与所述智能电器之间的距离;或者
    根据所述报文确定所述报文的信号强度。
  6. 根据权利要求4所述的方法,其特征在于,当所述预设参数包括所述智能穿戴设备与智能电器之间的距离时,所述根据预设参数控制所述智能电器的工作状态,包括:
    当所述距离在预设时间段内均小于第一阈值或者处于第一预设范围时,开启所述智能电器;和/或,
    当所述距离在预设时间段内均大于第二阈值或者处于第二预设范围时,关闭所述智能电 器;
    其中所述第一阈值小于或者等于所述第二阈值,所述第一预设范围的最大值小于或者等于所述第二预设范围的最小值。
  7. 根据权利要求4所述的方法,其特征在于,当所述预设参数包括所述报文的信号强度时,所述根据预设参数控制所述智能电器的工作状态,包括:
    当所述信号强度在预设时间段内均大于第三阈值或者处于第三预设范围时,开启所述智能电器;和/或,
    当所述信号强度在预设时间段内均小于第四阈值或者处于第四预设范围时,关闭所述智能电器;
    其中所述第三阈值大于或者等于所述第四阈值,所述第三预设范围的最小值大于或者等于所述第四预设范围的最大值。
  8. 根据权利要求4所述的方法,其特征在于,所述根据预设参数控制所述智能电器的工作状态,包括:
    根据预设的预设参数范围与智能电器的工作模式的对应关系,确定所述预设参数所对应的智能电器的工作模式;
    将所述智能电器的工作状态调整至所述预设参数所对应的智能电器的工作模式。
  9. 根据权利要求1所述的方法,其特征在于,所述方法还包括:
    当在预定时长内未收到所述智能穿戴设备广播的报文、或者所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备的操作失败时,将所述智能电器的工作状态调整至预定工作模式。
  10. 根据权利要求1-9中任一项所述的方法,其特征在于,当所述智能电器为智能空调时,所述方法还包括:
    获取所述报文的信号的发送方位;
    根据所述报文的信号的发送方位控制所述智能空调的摆风方向。
  11. 一种智能电器工作装置,其特征在于,包括:
    第一获取模块,用于获取智能穿戴设备广播的报文;
    判断模块,用于根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;
    第一控制模块,用于当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。
  12. 根据权利要求11所述的装置,其特征在于,所述判断模块,包括:
    获取子模块,用于从所述报文中获取所述智能穿戴设备的标识;
    判断子模块,用于判断所述标识是否为预先在用于控制所述智能电器的终端中设置的第一设备标识;或者判断所述标识是否为与所述智能电器绑定的第二设备标识;或者判断所述标识是否同时为第一设备标识和第二设备标识;
    第一确定子模块,用于如果所述判断结果为是,确定所述智能穿戴设备为预设的智能穿戴设备;
    第二确定子模块,用于如果所述判断结果为否,确定所述智能穿戴设备不是预设的智能穿戴设备。
  13. 根据权利要求12所述的装置,其特征在于,所述智能穿戴设备的标识包括所述智能穿戴设备的硬件地址或者所述智能穿戴设备的唯一名称。
  14. 根据权利要求13所述的装置,其特征在于,
    所述预设参数包括所述智能穿戴设备与智能电器之间的距离、所述报文的信号强度中的任一项或多项。
  15. 根据权利要求14所述的装置,其特征在于,所述装置还包括以下任一个或多个模块:
    第一确定模块,用于通过GPS技术获取所述智能穿戴设备的位置,根据所述智能穿戴设备的位置确定所述智能穿戴设备与所述智能电器之间的距离;
    第二确定模块,用于利用红外探测技术确定佩戴所述智能穿戴设备的用户与所述智能电器之间的距离;
    第三确定模块,用于根据所述报文确定所述报文的信号强度。
  16. 根据权利要求15所述的装置,其特征在于,当所述预设参数包括所述智能穿戴设备与智能电器之间的距离时,所述第一控制模块,包括:
    第一开启子模块,用于当所述距离在预设时间段内均小于第一阈值或者处于第一预设范围时,开启所述智能电器;和/或,
    第一关闭子模块,用于当所述距离在预设时间段内均大于第二阈值或者处于第二预设范围时,关闭所述智能电器;
    其中所述第一阈值小于或者等于所述第二阈值,所述第一预设范围的最大值小于或者等于所述第二预设范围的最小值。
  17. 根据权利要求15所述的装置,其特征在于,当所述预设参数包括所述报文的信号强度时,所述第一控制模块,包括:
    第二开启子模块,用于当所述信号强度在预设时间段内均大于第三阈值或者处于第三预 设范围时,开启所述智能电器;和/或,
    第二关闭子模块,用于当所述信号强度在预设时间段内均小于第四阈值或者处于第四预设范围时,关闭所述智能电器;
    其中所述第三阈值大于或者等于所述第四阈值,所述第三预设范围的最小值大于或者等于所述第四预设范围的最大值。
  18. 根据权利要求11所述的装置,其特征在于,所述第一控制模块,包括:
    第三确定子模块,用于根据预设的预设参数范围与智能电器的工作模式的对应关系,确定所述预设参数所对应的智能电器的工作模式;
    调整子模块,用于将所述智能电器的工作状态调整至所述预设参数所对应的智能电器的工作模式。
  19. 根据权利要求11所述的方法,其特征在于,所述装置还包括:
    调整模块,用于当在预定时长内未收到所述智能穿戴设备广播的报文、或者所述根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备的操作失败时,将所述智能电器的工作状态调整至预定工作模式。
  20. 根据权利要求11-19中任一项所述的装置,其特征在于,当所述智能电器为智能空调时,所述装置还包括:
    第二获取模块,用于获取所述报文的信号的发送方位;
    第二控制模块,用于根据所述报文的信号的发送方位控制所述智能空调的摆风方向。
  21. 一种智能电器工作装置,其特征在于,包括:
    处理器;
    用于存储处理器可执行指令的存储器;
    其中,所述处理器被配置为:
    获取智能穿戴设备广播的报文;
    根据所述报文判断所述智能穿戴设备是否为预设的智能穿戴设备;
    当判定所述智能穿戴设备为预设的智能穿戴设备时,根据预设参数控制所述智能电器的工作状态,所述预设参数包括反映所述智能穿戴设备与所述智能电器之间距离远近的参数。
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