Household appliance control method and device for fatigue adjustment, and household appliance

A control method and technology for home appliances, which are applied in electrical program control, general control system, program control, etc., can solve problems such as high fatigue and reduced work efficiency, and achieve the effect of reducing fatigue and improving work efficiency.

Active Publication Date: 2021-09-03
QINGDAO HAIER AIR CONDITIONER GENERAL CORP LTD +2
11 Cites 1 Cited by

AI-Extracted Technical Summary

Problems solved by technology

[0006] Embodiments of the present disclosure provide a household appliance control method, device, and household appliance for fatigue ad...
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Method used

Aromatherapy machine is by releasing the aromatherapy type and the aromatherapy concentration corresponding to the rapid adjustment intensity, the aromatherapy type fragrance stimulation corresponding to the rapid adjustment intensity, such as peppermint, lemon, eucalyptus fragrance etc., the aromatherapy concentration is set higher, can pass relatively strong The release of the smell makes the user refreshed, helps the user overcome the fatigue state, and improves the work efficiency.
[0045] Thus, using the home appliance control method for adjusting fatigue provided by the embodiments of the present disclosure, the user's fatigue is determined by obtaining the user's status information, so that when the user is fatigued, different intensity levels are executed according to the cumulative number of fatigues. The air-conditioning scheme is designed to invigorate the user's spirit and realize the adjustment of fatigue. In this way, by relying on the home scene with air-conditioning equipment, progressive intelligent adjustment is realized, which effectively reduces user fatigue and improves user work efficiency.
[0053] Here, through the low-speed operation of the fresh fan, outdoor fresh air is introduced to increase the oxygen content of the indoor air to meet the oxygen supply demand of the brain, so as to reduce the user's fatigue and improve learning efficiency. At the same time, when the fresh air fan is running at low wind speed, it has little impact...
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Abstract

The invention relates to the technical field of intelligent household appliances, and discloses a household appliance control method for fatigue adjustment. The method comprises the steps that the fatigue degree of a user is determined according to state information of the user; according to the fatigue degree, the cumulative number of times of detecting that the fatigue degree exceeds a fatigue threshold value is obtained; and according to the accumulated number of times, the air conditioning intensity of the air conditioning equipment is determined, and a corresponding air conditioning mode is executed. Progressive intelligent adjustment is realized by relying on the home scene provided with the air conditioning equipment, the fatigue of a user is effectively reduced, and the working efficiency of the user is improved. The invention further discloses a household appliance control device for fatigue adjustment and the household appliance.

Application Domain

Computer controlProgramme total factory control

Technology Topic

Industrial engineeringReliability engineering +2

Image

  • Household appliance control method and device for fatigue adjustment, and household appliance
  • Household appliance control method and device for fatigue adjustment, and household appliance
  • Household appliance control method and device for fatigue adjustment, and household appliance

Examples

  • Experimental program(1)

Example Embodiment

[0019] In order to more detailed understanding of the characteristics and technical content of the present disclosure, the implementation of the embodiments of the present disclosure will be described in detail below with reference to the accompanying drawings, and is not intended to limit the embodiments of the disclosure. In the following technical description, it is contemplated to provide a sufficient understanding of the disclosed embodiments by multiple details. However, one or more embodiments can still be implemented without these details. In other cases, in order to simplify the drawings, well-known structures and devices can simplify the display.
[0020] The specification and claims of the present disclosure and the claims, "first", "second", and the like in the above drawings are used to distinguish similar objects without having to describe a particular order or ahead order. It is to be understood that the data used in this disclosure can be interchanged in appropriate, so as to the embodiments of the present disclosure described herein. Moreover, the terms "including" and "have any" and any variations are intended to cover the inclusion of his inclusion.
[0021] Unless otherwise stated, the term "multiple" indicates two or more.
[0022] In the present disclosure, the character "/" means a "or" relationship of the front and rear object. For example, A / B is represented: a or B.
[0023] Term "and / or" is a relationship of describing the object, indicating that there may be three relationships. For example, a and / or b, represents: A or B, or, A and B.
[0024] figure 1 It is a home scenario for a home appliance control method for fatigue regulation by the present disclosure. Combine figure 1 As shown, the use scenario includes a user monitoring end 10 and an air conditioning device 11.
[0025] The user monitoring terminal 10 can obtain the status information of the user by an image acquisition device, a sound acquisition device, a displacement acquisition device, and the like to determine the fatigue of the user. For example, the user monitoring end is a camera that relies on a smart TV such as a user's laptop or a smart TV in a home scenario, or an independent camera monitoring device, you can access the WiFi network in home, communicating with other smart appliances. Users can also control user monitoring ends to perform status information collection tasks through smartphone applications.
[0026] Air conditioning device 11 is used to achieve adjustment operations of indoor air at home scenarios. General air conditioning equipment, such as intelligent air conditioners, smart new fans, smart windows, intelligent aromatherapy, etc., can access the WiFi network in home, communicate with the user's smartphone, or access the cloud background, receive the running command. The user can also control the air conditioning device to automatically adjust the air conditioning operation through a smartphone application application.
[0027] Alternatively, the scene also includes a terminal device 12 for communicating with the user monitoring end 10, the air conditioning device 11. Here, the terminal device refers to smart devices in smart home application scenarios, such as smartphones, wearable devices, smart mobile devices, virtual display devices, etc., or smart home appliances, such as smart refrigerators, smart TV, smart washing machines, Intelligent air conditioners, smart speakers, smart lights, and smart curtains, or any combination thereof.
[0028] Combine figure 2 As shown, the present disclosure provides a home appliance control method for fatigue adjustment, is applied to figure 1 The home scenario shows. The home appliance control method for fatigue adjustment can be performed by the terminal device, can be performed by the control terminal of the home appliance or smart home system, or by the home cloud platform, can also be performed by the smart air conditioner. This method includes:
[0029] Step S21, determine the fatigue of the user according to the status information of the user.
[0030] Here, the user's status information is used to represent a physiological state within the set time, for example, a long-situ behavior information, heart rate information, blood oxygen index information, or facial expression information. In practical applications, it is possible to obtain devices such as pressure sensors such as the chair as a smart wearable device, a camera that is used as a user-monitoring end. Here, the state information is transmitted to the terminal device after determining the status information of the user by the user monitoring end, to determine the fatigue of the user. It is also possible to determine the user's fatigue depending on the status information of the user by the intelligent terminal or home appliance or household cloud platform.
[0031] For example, by acquiring the user's sedential behavior information by setting the pressure sensor of the chair, the fatigue of the user can be determined according to the long-lasting behavior information of the user. In the case where the user's sedential behavior is greater than the preset detection duration, the longer the long-term length of the sedential behavior, the higher the fatigue of the user. Among them, the preset detection is used to indicate when the user may sit in the fatigue period.
[0032] Alternatively, for example, the user's blood oxygen index information and / or heart rate information is obtained by intelligent wearable devices to determine the fatigue of the user. In the case where the user's heart rate is increased and / or the blood oxygen index is lowered, it is determined that the user's fatigue is high. In the fatigue state, the heartbeat is fast, the amount of suction of oxygen is reduced, and the oxygen content in the blood is reduced. Therefore, the fatigue of the user can be determined by the blood oxygen index and / or heart rate.
[0033] In the present embodiment, the determination of the user's fatigue is, including: obtaining the facial expression information of the user; determines the user's fatigue depending on the user's facial expression information.
[0034] Here, the facial expression information of the user can be acquired by the camera, according to the user's facial expression information, facing facial emotion identification is determined according to the face emotion identification result, and determines the fatigue of the user according to the facial emotion recognition.
[0035] The facial expression information may include the user's blinking frequency, yawning frequency, noddle frequency, closed eye frequency, and the like, in the present embodiment, according to the user's closed eye behavior information, the user's fatigue is determined. Specifically, the determination of the fatigue of the user includes: obtaining the closed eye behavior information in the user's facial expression information; determines the fatigue of the user according to the continuous time of the user's closed eye behavior.
[0036] Here, closed eye behavior means that the user's eyes are closed after the eye opens. It should be noted that the end of the closed eye behavior is different, and the closed eye behavior referred to in this embodiment refers to the behavior of the eye closure exceeds the setting of the set time. When the closed eye behavior of the user in the normal state is less than the closed eye of the fatigue state, it is applied to determine the fatigue of the user to determine the fatigue of the user. The longer the end of the closed eye behavior, the higher the user's fatigue.
[0037] The user monitoring end prefers the corresponding relationship between the user's closed eye behavior, and after obtaining the user's closed eye behavior information, the correspondence is adjusted, and the corresponding fatigue is obtained to adjust the degree of fatigue. Further, the correspondence can be stored in the user monitoring end in the form of a corresponding information table.
[0038]Further, in the case where the continuous duration of the user's closed eye is a first time long, the user's fatigue is the first fatigue; when the long-term length of the user's closed eye is a second time-long section, the user's fatigue The degree is the second fatigue; wherein the upper limit value of the first time long is smaller than the lower limit value of the second time-long interval; the fatigue state corresponding to the first fatigue is light in the fatigue state corresponding to the second fatigue.
[0039] Step S22, according to fatigue, acquisition of the number of times the fatigue is exceeding the fatigue threshold.
[0040] Here, the fatigue threshold is used to represent the state of being fatigued, learning, and the work efficiency begins to fall. Implementing multiple, grades, and progressive adjustments by obtaining the number of times the user's fatigue is exceeding the fatigue threshold. It can be directly detected by the user's fatigue by the smart terminal or the home appliance or household cloud platform, and acquires the number of times the fatigue is exceeding the fatigue threshold.
[0041] Alternatively, the determination of the fatigue threshold includes obtaining the user's identity information and the current time information, determines the corresponding fatigue threshold based on the user's identity information and the current time information.
[0042] Here, the current time information is a time when the fatigue is exceeded by the fatigue threshold, and the terminal device is used to acquire from the cloud by connecting the indoor WiFi device, and can be obtained by communication with the user's mobile phone. The current time information includes at least the date when the fatigue is exceeding the fatigue threshold.
[0043] Step S23, according to the number of integrated times, determine the air conditioning intensity of the air conditioning device, and perform the corresponding air conditioning mode.
[0044] The air conditioning strength of the air conditioning device can be determined by the integrated number of integrated times by intelligent terminal or home appliance or household cloud platform; or by smart air conditioning according to the number of times according to the number of times, the air conditioning intensity is determined, and the corresponding air conditioning mode can be performed.
[0045] As such, the home appliance control method for adjusting the fatigue of the fatigue is employed by the present disclosure, by obtaining the status information of the user, determining the fatigue of the user, thereby performing different intensity air regulation according to the fatigue accumulated number when determining the user fatigue Program, in the spirit of inspiring the user, achieving fatigue adjustment. In this way, by relying on the home scene of the air conditioning device, the progressive intelligent adjustment is realized, effectively reduces the user's fatigue, and improves the user's work efficiency.
[0046] Generally, the higher the number of cumulative times, the higher the air conditioning strength of the air conditioning device. Depending on the amount of fatigue thread value, the hierarchical process can be performed.
[0047] Optionally, according to the number of integrated times, the air conditioning intensity of the air conditioning apparatus is determined, including: If the cumulative number of times satisfies the air conditioning condition, when the total number of times is less than or equal to the soil adjustment threshold, determine the adjustment strength of the air conditioning device is soothing. Adjusting; in the case where the cumulative number is greater than the soothing adjustment threshold, determine the adjustment strength of the air conditioning apparatus is a rush adjustment; where the adjustment intensity of the soothing adjustment is lower than the adjustment intensity of the emergency adjustment.
[0048] Air conditioning conditions are used to indicate that the user's fatigue can be adjusted by controlling the air conditioning device by controlling the air conditioning device. When the cumulative number is less than or equal to the soothing adjustment threshold, it means that the user's fatigue is less than the frequency of the fatigue threshold, and can improve the user's focus, reduce its fatigue; when the total number of times is greater than the soothing adjustment threshold, Indicates that the user's fatigue is higher than the frequency of fatigue thresholds, which requires a more intense, urgent adjustment method, and instructs the user's spirit, and reduces its fatigue.
[0049] Further, if the air conditioning strength is soothing, the performance of the air conditioner mode, including:
[0050] Control the low wind speed of the new fan in the air conditioning device; and / or,
[0051] Control the aromatherapy machine release and soothing adjustment intensity in the air conditioning equipment; and / or
[0052] According to the current cumulative number of times and the first adjustment value, the initial setting temperature of the air conditioner in the air conditioning apparatus is lowered.
[0053] Here, through the low wind speed of the new fan, the outdoor new wind is introduced, and the indoor air oxygen content is introduced to meet the oxygen supply needs of the brain to reduce the user's fatigue and improve learning efficiency. At the same time, when the low wind speed of the new fan is running, the indoor air flow rate is small, and the user feels low.
[0054] The aromatherapy machine is relatively flat and soothing, such as wood aroma, aromatherapy concentration, soothing, aromatherapy concentration, soothing, fragrance, aromatherapy concentration, soothing, can soothe the user's mental stress Reduce fatigue, appealing, irritability, and improve working efficiency.
[0055] Air conditioning can cause human blood circulation to focus on major organs, such as blood supply, oxygen supply, oxygen supply, and reduce fatigue.
[0056] Specifically, in the air conditioning of the air conditioner, the air conditioner is controlled by the air conditioner, including:
[0057] Determine the first adjustment value, and the current accumulated number; according to the product of the current cumulative number and the first adjustment value, reduce the initial setting temperature of the air conditioner, and control the air conditioner according to the set temperature.
[0058] The first adjustment value refers to a smaller cooling amplitude of the air conditioner at the air conditioning in the air conditioning in the soothing adjustment. In the present embodiment, the value of the first adjustment value is 1 ° C. That is, when the air conditioning intensity of soothing adjustment is performed, the initial set temperature of the air conditioner is reduced by 1 ° C for each fatigue threshold of the air conditioner.
[0059] Alternatively, the determination of the first adjustment value can be related to the user's identity information, such as the air conditioner cooling amplitude value corresponding to the user's age. In general, when the user age is a student or an old man, the value of the first adjustment value is relatively small, such as 0.5 ° C; when the user's age is adult, the value of the first adjustment value is relatively large. Further, when the user is adult, the value of the first adjustment value is also related to the user's gender identity, the value of the first adjustment value corresponding to the female adult is lower than the value of the first adjustment value corresponding to the male adult, such as female adults. The first adjusted value is 0.75 ° C, and the first adjusted value corresponding to the male adult is 1 ° C.
[0060] Alternatively, if the air conditioner is urgent, the execution of the air conditioner mode, including:
[0061] Control the high wind speed of the new fan in the air conditioning device; and / or,
[0062] Control the aromatherapy machine release with the aromatherapy machine and the aromatherapy concentration corresponding to the impact adjustment intensity; and / or
[0063] Depending on the current cumulative number and the second adjustment value, the set temperature of the air conditioner in the air conditioning apparatus is lowered.
[0064] Here, through the high wind speed of the new fan, the rapid introduction of a large number of outdoor new winds, accelerate the increase speed of indoor air oxygen content to reduce the user's fatigue and improve learning efficiency. At the same time, when the high wind speed of the new fan, the indoor air flow is faster, and the user can feel the style of gas flow, which helps further reduce fatigue.
[0065] The aromatherapy machine is stimulated by the aromatherapy type and aromatherapy concentration corresponding to the urgent adjustment intensity, and the aromatherapy shape, such as mint, lemon, eucalyptus, etc., the aromatherapy concentration is high, and can be released through a strong smell. Make the users to see the brain, help users overcome fatigue states and improve work efficiency.
[0066] Control of air conditioning operating air conditioning modes in air conditioning at the air conditioning, including:
[0067] Determine the second adjustment value, and the current cumulative number; according to the product of the current cumulative number and the second adjustment value, reduce the initial set temperature of the air conditioner, and control the air conditioner according to the set temperature.
[0068] The second adjustment value refers to a large temperature reduction amplitude of the air conditioner at the air conditioner in the air conditioning in the emergency adjustment. In the present embodiment, the value of the second adjustment value is 1.5 ° C. That is, at the air conditioning intensity of the urgency adjustment, the initial set temperature of the air conditioner is reduced by 1.5 ° C by 1.5 ° C per detection of the air conditioner.
[0069] A home appliance control method for adjusting the fatigue degree provided by the present disclosure is employed, by obtaining the status information of the user, determines the fatigue of the user, thereby performing different strength air regulation schemes according to the fatigue cumulative number, according to the fatigue. In the spirit of inspiring the user's spirit, the adjustment of fatigue is achieved. In this way, by relying on the home scene of the air conditioning device, the progressive intelligent adjustment is realized, effectively reduces the user's fatigue, and improves the user's work efficiency.
[0070] like image 3 As shown, the present disclosure also discloses a home appliance control method for regulating fatigue. figure 1 The scene shown. This method includes:
[0071] Step S31, determine the fatigue of the user according to the user's status information.
[0072] Step S32, obtaining the number of times the fatigue degree exceeding the fatigue threshold is obtained according to fatigue.
[0073] Step S33, according to the number of times, determine the air conditioning intensity of the air conditioning device and perform the corresponding air conditioning mode.
[0074] Step S34, detect the fatigue of the user, when the fatigue of the user is measured during the monitoring, the air conditioning device stops performing the air conditioning mode.
[0075] Here, the callback condition is used to indicate that the air conditioning device performs an air conditioning mode for a period of time, the user's fatigue continues to be less than the fatigue threshold, and the fatigue is relieved.
[0076] As such, when detecting that the user's spirit is good, the fatigue is reduced, the operation of the air conditioning mode is stopped, avoiding excessive adjustment, affecting the person's mental state or physiological status.
[0077] Further, after the air conditioning device stops performing the air conditioning mode, it also includes: adjusting the setting temperature of the air conditioner to return to the initial set temperature. By callbacking the set temperature of the air conditioner to a decrease, avoiding the low-time setting temperature of the air conditioner for a long time affects the health of the user's health when the air conditioning mode is executed when the air conditioning mode is executed.
[0078] A home appliance control method for adjusting the fatigue degree provided by the present disclosure is employed, by obtaining the status information of the user, determines the fatigue of the user, thereby performing different strength air regulation schemes according to the fatigue cumulative number, according to the fatigue. In the spirit of inspiring the user's spirit, the adjustment of fatigue is achieved. At the same time, when detecting the fatigue of the user satisfies the callback condition, the air conditioning mode is stopped to avoid excessive health of the impact of users.
[0079] like Figure 4 As shown, the present disclosure also discloses a home appliance control method for regulating fatigue. figure 1 The scene shown, wherein the user monitoring is a camera, the air conditioning device is a smart air conditioner, and the terminal device is a smartphone. This method includes:
[0080] Step S41, determine the fatigue of the user according to the user's status information.
[0081] In step S42, obtain the number of times the fatigue degree beyond the fatigue threshold is obtained according to the fatigue of the user.
[0082] Step S43, according to the number of times, determine the adjustment value for reducing the initial setting temperature of the air conditioner, and performs the corresponding air conditioning mode.
[0083] Step S44, when the number of cumulative number exceeds the prompt threshold, prompting the user to take a rest; or when the air conditioning mode is executed, the user is detected when the indoor ambient temperature is lower than the set threshold, prompting the user to take a rest.
[0084] Here, the prompt threshold is used to indicate that the number of times the user's fatigue is too frequent, and in the air conditioning mode, the user's fatigue does not have a mitigation. In this case, the user continues to fatigue in a short time, determining that the user has deep fatigue, should not make learning, work activities, prompting users to take timely rest.
[0085] When the indoor ambient temperature is below the set threshold, the air conditioning mode has a maximum adjustment value for the temperature, and the continuation adjustment will cause the indoor temperature to be too low. In the user's fatigue, the indoor temperature will cause the user's health. Impact, therefore prompts the user to take a while.
[0086] As such, the home appliance control method for adjusting the fatigue of the fatigue is employed by the present disclosure, by obtaining the status information of the user, determining the fatigue of the user, thereby performing different intensity air regulation according to the fatigue accumulated number when determining the user fatigue Program, in the spirit of inspiring the user, achieving fatigue adjustment. At the same time, in the case where the user's depth fatigue or low temperature is too low, it is prompted to take a while to avoid affecting the health of the user.
[0087] Combine Figure 5 As shown, the present disclosure provides a home appliance control device for adjusting the fatigue degree, including a processor 50 and a memory 51. Alternatively, the apparatus may further include a communication interface 52 and a bus 53. Wherein, the processor 50, the communication interface 52, and the memory 51 can accomplish communication between each other through bus 53. Communication interface 52 can be used for information transmission. The processor 50 can invoke logic instructions in the memory 51 to perform a home appliance control method for adjusting fatigue degrees.
[0088] Further, the logic instructions in the memory 51 can be implemented in the form of a software functional unit and as a stand-alone product sales or in use, can be stored in a computer readable storage medium.
[0089] The memory 51 can be used as a computer readable storage medium, which can be used to store software programs, computer executables, as program instructions / modules corresponding to methods in the present disclosure embodiments. The processor 50 performs functional application and data processing by running the program command / module stored in the memory 51, i.e., a home appliance control method for adjusting fatigue degrees in the above embodiment.
[0090] The memory 51 can include a storage program area and a storage data area, wherein the storage program area can store the operating system, the application required for at least one function; the storage data area can store data created according to the use of the terminal device, and the like. Further, the memory 51 can include a high speed random access memory, and may further include a non-volatile memory.
[0091] Embodiments of the present disclosure provide a home appliance, including the above-described home appliance control device for regulating fatigue.
[0092] The present disclosure provides a computer readable storage medium, stores a computer executable instruction, the computer executable instructions to perform the above-described home appliance control method for adjusting fatigue.
[0093] The present disclosure provides a computer program product, the computer program product comprising a computer program stored on a computer readable storage medium, the computer program comprising a program instruction, when the program instruction is executed by a computer, The computer performs the above-described home appliance control method for adjusting fatigue.
[0094] The above computer readable storage medium may be a transient computer readable storage medium or a non-transitory computer readable storage medium.
[0095] The technical solution of the present disclosure may be embodied in the form of a software product, which is stored in a storage medium, including one or more instructions for making a computer device (can be a personal computer, server, or network) Equipment, etc.) Execute all or some steps of the method described in the present disclosure. The aforementioned storage medium can be a non-transient storage medium, including: U disk, mobile hard disk, read-only memory (ROM, RAD-ONLY MEMORY), random access memory (RAM, RANDOM Access Memory), disk or optical discs, etc. The media that can store the program code can also be a transient storage medium.
[0096] The above description and the drawings fully illustrate the embodiments of the disclosure to enable those skilled in the art to practice them. Other embodiments may include structural, logical, electrical, process, and other changes. Embodiments only represent possible changes. Unless clear requirements, separate components and functions are optional, and the order of operation can vary. Some embodiments and features can be included or replaced with partial and characteristics of other embodiments. Moreover, the use of the use in this application is only used to describe the embodiments and is not intended to limit the claims. As used in the description of the embodiments and the claims unless the context clearly indicates that the "one" (a), "one" (AN) and "" "" (the "(THE) are intended to include the plural form. . Similarly, the terms "and / or" as used in this application refers to any of one or more associated, and all possible combinations. In addition, when used in this application, the term "comprised) and its variations" COMPRISES and / or "comprises" and / or include features, integral, steps, operations, elements, and / or The existence of components, but does not exclude one or more other features, overall, steps, operations, elements, components, and / or these packets presence or addition. In the case where there is no more restriction, the element "includes a ..." is defined by the statement, and there is no other same element in the process, method, or device including the element. In this discipline, each of the embodiments may be different from the different embodiments, and the same similar part of each embodiment can be seen each other. For the method, product, etc. of the examples, the product, etc., if it corresponds to the method portion disclosed in the examples, then the description of the method portion can be referred to.
[0097] Those skilled in the art will appreciate that the unit and algorithm steps described herein will be described in the combination of electronic hardware, or computer software and electronic hardware described in connection with the embodiments described herein. These functions are executed in hardware or software, depending on the specific application and design constraints of the technical solution. The skilled person can use different methods to implement the described functions to each particular application, but this implementation should not be considered exceeding the scope of the present disclosure. The skilled person can clearly understand that the specific operation of the described system, the apparatus, and unit of the described above, and the specific operation of the system, the apparatus, and the unit described above can be referred to in the foregoing method embodiment, and details are not described herein again.
[0098] In the embodiments disclosed herein, the present invention, including but not limited to, devices, equipment, etc.), can be implemented in other ways. For example, the embodiment described above is merely schematic, for example, the division of the unit, can be used only one logical function division, and there may be additional division mode, such as a plurality of units or components, can be combined. Or can be integrated into another, or some features can be ignored, or not executed. Additionally, the coupling or direct coupling or communication connection between the displayed or discussed may be an electrical, mechanical or other form in an indirect coupling or communication connection of the interface, device, or unit. The unit as the separation member may be or may not be physically separated, and the components displayed as the unit may be or may not be a physical unit, i.e., in one place, or can be distributed to a plurality of network elements. This embodiment can be implemented in accordance with the actual needs to select some or all units therein. Further, each functional unit in the present disclosure may be integrated into one processing unit, or may be generated separately in each unit, or two or more units can be integrated into one unit.
[0099] The flowcharts and block diagrams in the drawings are shown in the system, methods, and possible architectural architecture, functions, and operations of systems, methods, and computer program products in accordance with embodiments of the present disclosure. In this regard, each of the flowcharts or block diagrams can represent a portion of a module, block, or code, and a portion of the module, block or code contains one or more of the blocks for implementing a predetermined logic function. Executive instructions. In some implementations, the functions labeled in the box can occur in order different from those labeled in the drawings. For example, two consecutive blocks can actually be performed substantially in parallel, and they can sometimes be performed in the reverse order, which can be determined depending on the functions involved. In the description of the flowcharts and block diagrams in the drawings, the operation or steps corresponding to different boxes may occur in the order disclosed in the description, sometimes different operations or steps there is no specific order. For example, two consecutive operations or steps can actually be performed in parallel, and they can sometimes be performed in the reverse order, which can be determined according to the features involved. Box diagram and / or each block in the flowchart, and a combination of boxes in block diagrams and / or flowcharts, you can implement a dedicated hardware-based system that performs predetermined functions or action, or can be used Implemented with a combination of computer instructions.

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