WO2018145447A1 - Procédé et appareil de commande de fonctionnement de terminal, et terminal - Google Patents

Procédé et appareil de commande de fonctionnement de terminal, et terminal Download PDF

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Publication number
WO2018145447A1
WO2018145447A1 PCT/CN2017/099832 CN2017099832W WO2018145447A1 WO 2018145447 A1 WO2018145447 A1 WO 2018145447A1 CN 2017099832 W CN2017099832 W CN 2017099832W WO 2018145447 A1 WO2018145447 A1 WO 2018145447A1
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WIPO (PCT)
Prior art keywords
information
environment
terminal
user
aware
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PCT/CN2017/099832
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English (en)
Chinese (zh)
Inventor
沈少武
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中兴通讯股份有限公司
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Publication of WO2018145447A1 publication Critical patent/WO2018145447A1/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72448User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions
    • H04M1/72454User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions according to context-related or environment-related conditions
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F9/00Arrangements for program control, e.g. control units
    • G06F9/06Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
    • G06F9/44Arrangements for executing specific programs
    • G06F9/445Program loading or initiating
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F9/00Arrangements for program control, e.g. control units
    • G06F9/06Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
    • G06F9/44Arrangements for executing specific programs
    • G06F9/445Program loading or initiating
    • G06F9/44505Configuring for program initiating, e.g. using registry, configuration files
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72448User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions
    • H04M1/72457User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions according to geographic location
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/725Cordless telephones

Definitions

  • the present disclosure relates to the field of terminal control, and in particular, to a terminal operation control method, apparatus, and terminal.
  • the terminal control requires user settings, such as setting an alarm clock, a notepad reminder, a calendar reminder, etc.; the terminal completes the operation at a predetermined time point through a pre-arranged task, and relies on user management and setting operations.
  • the embodiments of the present disclosure provide a terminal operation control method, apparatus, and terminal, to solve the problem that the terminal control relies on user management and setting operations.
  • a terminal work control method including:
  • the terminal device to sense and adopt the environment-aware parameter of the user's surrounding environment to process the environment-aware parameter and obtain the environment-aware key information;
  • the actual parameter values of the operating parameters to be controlled are determined and executed.
  • a terminal operation control apparatus including: an acquisition module and a control module, wherein
  • the collecting module is configured to collect the living work information of the user according to the preset working parameters to be controlled, as the auxiliary information reference value, and use the terminal device to sense and adopt the environment sensing parameter of the user surrounding environment;
  • the control module is configured to process the environment-aware parameter to obtain the environment-aware key information; invoke the environment-aware library to determine the control characteristics of the current environment of the terminal according to the environment-aware key information; determine the control to be controlled according to the current environment control characteristics and the auxiliary information reference value
  • the actual parameter values of the working parameters are executed.
  • a terminal including: a sensing module, a memory, and a processor, where
  • the sensing module is configured to use the terminal device to sense and adopt environment-aware parameters of the user's surrounding environment;
  • the processor is configured to collect the living work information of the user according to the preset working parameters to be controlled, as a reference value of the auxiliary information; process the environment-aware parameter to obtain the environment-aware key information; invoke the environment-aware library, and determine the terminal according to the environment-aware key information.
  • the current environment control characteristics according to the current environment control characteristics and auxiliary information reference values, determine the actual parameter values of the operating parameters to be controlled, and execute.
  • a computer storage medium having stored therein computer executable instructions for performing the aforementioned terminal work control method.
  • the embodiment of the present disclosure provides a terminal work control method, which collects life and work information of a user.
  • the terminal device senses and adopts the environment-aware parameter of the user's surrounding environment, processes the environment-aware parameter, acquires the environment-aware key information, invokes the environment-aware library, and determines the current environment's control characteristics according to the environment-aware key information.
  • the control characteristics of the current environment and the reference value of the auxiliary information the actual parameter value of the working parameter to be controlled is determined, and the control of the terminal work is implemented, and the terminal itself runs completely without the user setting in the whole process.
  • the terminal control relies on the problem of user management and setting operations, which enhances the user experience.
  • FIG. 1 is a flowchart of a terminal operation control method according to a first embodiment of the present disclosure
  • FIG. 2 is a schematic structural diagram of a terminal operation control apparatus according to a second embodiment of the present disclosure
  • FIG. 3 is a schematic structural diagram of a terminal according to a third embodiment of the present disclosure.
  • FIG. 4 is a schematic structural diagram of a smart terminal according to a fourth embodiment of the present disclosure.
  • FIG. 5 is a schematic diagram of an environment aware library according to a fourth embodiment of the present disclosure.
  • FIG. 6 is a schematic diagram of an auxiliary acquisition module according to a fourth embodiment of the present disclosure.
  • FIG. 7 is a schematic diagram of an environment collection module according to a fourth embodiment of the present disclosure.
  • FIG. 8 is a schematic diagram of a photosensor module according to a fourth embodiment of the present disclosure.
  • FIG. 9 is a schematic diagram of cell identification according to a fourth embodiment of the present disclosure.
  • FIG. 10 is a schematic diagram of an image recognition apparatus according to a fourth embodiment of the present disclosure.
  • FIG. 11 is a flowchart of a method for working in a terminal according to a fourth embodiment of the present disclosure.
  • the terminal involved in the present disclosure includes a mobile phone, a tablet, a PAD, and the like.
  • the terminal operation control method provided in this embodiment includes:
  • S101 Collect, according to a preset working parameter to be controlled, a living work information of the user, as a reference value of the auxiliary information;
  • S102 Using the terminal device to sense and adopt the environment-aware parameter of the user's surrounding environment, processing the environment-aware parameter, and acquiring the environment-aware key information;
  • S103 Calling an environment aware library to determine a control characteristic of the current environment of the terminal according to the environment-aware key information
  • S104 Determine an actual parameter value of the to-be-controlled operating parameter according to a current environment control characteristic and an auxiliary information reference value, and execute the parameter.
  • the life work information of the collecting user in the above embodiment includes:
  • the analysis user uses the terminal to perform daily interaction data, and indirectly obtains the living work information set by the user as indirect information in the auxiliary information reference value.
  • the terminal work control method in the foregoing embodiment, before collecting the life work information of the user further includes:
  • the environment awareness library in the foregoing embodiment includes scenario information of at least one life work scenario, the scenario information includes control attributes for controlling operation of the terminal, and identification information for identifying the current scene, and the key is perceived according to the environment.
  • the information determines the control characteristics of the current environment of the terminal, including:
  • the control attribute corresponding to the scene information is called as the control characteristic of the current environment.
  • the terminal operation control method in the foregoing embodiment further includes: determining, when the new scene information is detected, determining a control attribute of the new scene information according to the user operation, and determining identification information of the new scene information according to the terminal sensing result; Update the new scene information to the environment aware library.
  • the using the terminal device to perceive and adopt the environment-aware parameter of the user's surrounding environment in the foregoing embodiment includes:
  • the terminal device uses the terminal device to obtain a signal strength change value, the signal strength change value including a current cellular signal strength change value and/or a wireless local area network signal strength change value.
  • the terminal work control apparatus provided in this embodiment includes: an acquisition module 21 and a control module 22, where
  • the collecting module 21 is configured to collect the living work information of the user according to the preset working parameters to be controlled, as the auxiliary information reference value, and use the terminal device to sense and adopt the environment sensing parameter of the user surrounding environment;
  • the control module 22 is configured to process the environment-aware parameter, obtain the environment-aware key information, invoke the environment-aware library, determine the control characteristics of the current environment of the terminal according to the environment-aware key information, and determine according to the current environment control characteristics and the auxiliary information reference value.
  • the actual parameter value of the operating parameter to be controlled is executed.
  • the collection module in the foregoing embodiment is configured to directly invoke the life work information set by the user as direct information in the auxiliary information reference value; analyze the user to use the terminal to perform daily interaction data, and indirectly obtain the life work set by the user. Information as indirect information in the auxiliary information reference value.
  • the terminal work control apparatus in the foregoing embodiment further includes a setting module, configured to set an environment sensing parameter to be perceived according to a user operation before collecting the life work information of the user; and set the to-be-controlled according to the user operation. Control work parameters.
  • the environment awareness library in the foregoing embodiment includes scenario information of at least one living work scenario
  • the scenario information includes control attributes for controlling operation of the terminal, and identification information for identifying the current scene
  • the control module is configured to: Comparing the environment to the key information and the identification information in each scene information; determining the corresponding scene information according to the comparison result; and calling the control attribute of the corresponding scene information as the control characteristic of the current environment.
  • control module in the foregoing embodiment is further configured to: when the new scene information is detected, determine a control attribute of the new scene information according to the user operation, determine the identification information of the new scene information according to the terminal perception result, and determine the new scene.
  • the information is updated into the context aware library.
  • the collection module in the foregoing embodiment is configured to acquire the terminal location information by using the terminal device; and/or obtain the light change value by using the terminal device; and/or obtain the picture, audio, and At least one of the motion states; and/or, using the terminal device to obtain a signal strength change value, the signal strength change value including a current cellular signal strength change value and/or a wireless local area network signal strength change value.
  • all the functional modules in the embodiment shown in FIG. 2 can be implemented by using a processor, an editing logic device, or the like.
  • the terminal provided in this embodiment includes: a sensing module 31, a memory 32, and a processor 33, where
  • the sensing module 31 is configured to use the terminal device to sense and adopt environment-aware parameters of the user's surrounding environment;
  • the processor 32 is configured to collect the living work information of the user according to the preset working parameters to be controlled, as the auxiliary information reference value; process the environment-aware parameter to obtain the environment-perceived key information; invoke the environment-aware library, and perceive the key information according to the environment. Determining the control characteristics of the current environment of the terminal; determining the actual parameter values of the operating parameters to be controlled according to the control characteristics of the current environment and the reference value of the auxiliary information, and executing.
  • the processor in the foregoing embodiment is used to directly invoke the life work information set by the user as direct information in the auxiliary information reference value; analyze the user to use the terminal to perform daily interaction data, and indirectly obtain the life work information set by the user. , as indirect information in the auxiliary information reference value.
  • the processor in the foregoing embodiment is further configured to: before collecting the life work information of the user, set the environment-aware parameter to be perceived according to the user operation; and set the to-be-controlled work parameter to be controlled according to the user operation.
  • the environment awareness library in the foregoing embodiment includes scenario information of at least one life work scenario, the scenario information includes control attributes for controlling operation of the terminal, and identification information for identifying the current scene, the processor.
  • the comparison information is used to compare the key information of the environment and the identification information in each scene information; according to the comparison result, the corresponding scene information is determined; and the control attribute corresponding to the scene information is invoked as the control characteristic of the current environment.
  • the processor in the foregoing embodiment is further configured to: when detecting new scene information, determine a control attribute of the new scene information according to a user operation, determine identification information of the new scene information according to the terminal perception result; The scene information is updated to the environment aware library.
  • the sensing module in the above embodiment is configured to acquire terminal location information using the terminal communication unit; and/or to acquire a light change value using the terminal light recognition sensor; and/or to acquire the current environment using the terminal auxiliary device. At least one of picture, audio, and motion states; and/or, using a terminal communication unit to obtain a signal strength change value, the signal strength change value including a current cellular signal strength change value and/or a wireless local area network signal strength change value.
  • the terminal can self-perceive the change of the environment and enter the corresponding working mode, and monitor the real-time dynamic of the user at all times, respond at the necessary time, notify or remind the user of the What to do and what not to do is the origin of the idea of the present invention. For example, if the user is at home, the mobile phone can tell the mobile phone to hold the user. Is it time to cook, remind the user that they need to eat breakfast and dinner, and need to sleep at the point, is it necessary to exercise, and if the user is doing these things? The phone will not remind you.
  • the phone will remind the user to check whether the key, the wallet is brought, whether the light and other electronic devices are off, and whether the user should carry the umbrella according to the current and future weather conditions and temperature changes. Whether the user should bring a few more clothes, or need to replace the current clothes, if the user has already done so, the phone detects it, it will not notify and remind. If the user is away from the work area, the mobile phone will calculate the situation according to the current power, the travel schedule of the mobile phone user, and the distance between the user's usual charging point and the current location to remind the user whether to enter the energy-saving mode, or can still adhere to it.
  • Standby duration whether you need to locate the nearest available charging point, so that users can always master their current power status, so as not to forget the phone charging when the phone is low, can not reach the next destination.
  • the phone status will be automatically set and adjusted accordingly, and the corresponding meeting time will be made according to the currently detected scene before the meeting.
  • location reminders during the meeting or at the end of the meeting, make a new work schedule reminder.
  • the smart terminal will remind the user or passenger whether to wear a seat belt through the currently detected environmental status, whether to enter the automatic Bluetooth mode switching state, and there will be an additional speeding reminder, A red light reminder.
  • the smart phone also links to the smart wearable device, reminds the user whether to rest, or activates anti-snoring music or broadcast mode according to the current user's physiological state and the duration of the driving. If the user When you get off the bus, you will also close the doors and windows and other electronic equipment and fire-out reminders, and get off your personal belongings with reminders.
  • the purpose of this embodiment is to provide an intelligent and convenient adaptive environment sensing and control device for a mobile terminal, so as to ensure that the device can implement intelligent operation control and human according to individual user requirements in various application environments and application scenarios.
  • Machine information interaction Through the coordination function of the mobile phone's built-in functional devices, such as camera, recorder, accelerometer, gyroscope, light sensor, WIF, GPS, Bluetooth and RF transceiver chip module, real-time tracking and recording of the user's current surrounding space environment and site And in combination with the collected current state of the user or the implementation of the input information arrangement and the establishment of a good environment identification library, the current detected environment and tasks are compared, and the mobile phone prompts the user to perform corresponding instruction operations.
  • the mobile phone's built-in functional devices such as camera, recorder, accelerometer, gyroscope, light sensor, WIF, GPS, Bluetooth and RF transceiver chip module.
  • the embodiment provides an intelligent, convenient and secure mobile environment or adaptive environment awareness control device for the wearable device, so as to ensure that the device can operate adaptively in various application environments, and remind the user of problems, matters, and work life that need attention. Arrange and track and manage the common affairs of users' lives in real time.
  • the user firstly cooperates with the built-in functional devices of the mobile phone, such as improved cameras, recorders, accelerometers, gyroscopes, light sense, WIFI, GPS, Bluetooth, and RF transceiver chip modules.
  • the current surrounding space environment and site are tracked and recorded in real time, that is, the user's real-time environment awareness and learning record are performed.
  • the terminal will store a basic environment awareness library in advance, which will store common life and work scene information, such as company, home, school, cinema, hospital, shopping mall, conference room, office, canteen restaurant, sports field, fitness center, airport. , stations, subways, etc. If the terminal collects a new environment-aware library beyond the basic library, or is different from the environment features in the basic library feature, the terminal will adaptively create a new library and name it specifically.
  • a basic environment awareness library in advance, which will store common life and work scene information, such as company, home, school, cinema, hospital, shopping mall, conference room, office, canteen restaurant, sports field, fitness center, airport. , stations, subways, etc.
  • the terminal detects the current perceived environmental change in real time, compares the currently detected environmental difference with the auxiliary information reference value, and adaptively controls the corresponding instruction operation or work that the mobile phone prompts the user to perform.
  • the apparatus or terminal includes: a user setting module, an auxiliary information collecting module, a basic environment aware library building module, a new sensing library building module, an environment collecting module, an environment identifying module, an adaptive control module, and a baseband.
  • Chip module RF chip module, wireless chip module, mobile phone's own function module, mobile device FLASH module, environmental intelligent response module.
  • User setting module set to set user mobile phone adaptive environment awareness function options, which need to be opened, which needs to be closed, prompt interval, prompt content, and set user's life information, such as life work schedule, schedule, exercise schedule, trip Minutes and so on.
  • the auxiliary information collecting module is configured to collect personal information of the user, such as the current physical state information of the user, or personal configuration information set in advance, a notebook, an alarm clock, a calendar, a short message, or a time schedule in a recent telephone recording, or an acquisition.
  • the auxiliary information collection is divided into two parts: direct information and indirect information.
  • the basic environment-aware library building module is connected to the mobile device FLASH module and configured to store a basic environment-aware library model.
  • the basic environment-aware library of the terminal stores common life and work scene information, such as a company, a home, a school, a movie theater, and a hospital. , shopping malls, conference rooms, offices, cafeteria restaurants, sports fields, fitness centers, airports, stations, subways, etc. These model elements are divided into light, picture, audio, text, motion state, coordinates, latitude and longitude, hotspot distribution, base station distribution and other characteristics.
  • the new perceptual library building module is set up to build a model library other than the basic environment-aware library.
  • the terminal collects a new environment. If the perceptual library is beyond the basic library, or is different from the environment features in the basic library features, the terminal needs to perceive and collect the new environment, and adaptively create a new library and name it specifically.
  • the environment collection module is configured to sense and collect the environment of the user, and cooperate according to various hardware circuits, function software, wireless modules and sensing modules of the mobile phone itself, such as front and rear camera, tape recorder, acceleration sensor, gyroscope, light sense, Collaborative monitoring and operation of WIFI, GPS, Bluetooth and RF transceiver chip modules, real-time tracking and recording of the user's current surrounding space environment and site, and multi-integrated active or passive interconnection monitoring, that is, other wireless devices around Access or disconnect monitoring, monitoring wireless signal strength, monitoring cell base station signals, and tracking and monitoring GPS satellite positioning signals to achieve real-time environmental awareness and learning records of the user's surrounding environment.
  • various hardware circuits such as front and rear camera, tape recorder, acceleration sensor, gyroscope, light sense, Collaborative monitoring and operation of WIFI, GPS, Bluetooth and RF transceiver chip modules, real-time tracking and recording of the user's current surrounding space environment and site, and multi-integrated active or passive interconnection monitoring, that is, other wireless
  • the environment identification module is configured to perform system statistics, calculation, analysis, and capture of key information for the collected environment-aware parameters. For example, for each environment-aware information collected by the system, the identification module grasps according to the essential attributes of different information. Different key elements are taken. If there are multiple variables at the same time, it is necessary to start balancing the confidence and threshold attributes of the current variable. Finally, the system statistics and calculation results are mainly used.
  • the adaptive control module is configured to detect the parameter change of the function modules built in the mobile phone, trigger the environment collection work, collect parameters for the environment where the current user is located, and then control the recognition module to perform scene recognition on the collected parameters, and finally combine
  • the auxiliary parameter information of the mobile phone itself triggers the corresponding instruction operation, and notifies the user of the perceived result.
  • the baseband chip module is connected with the adaptive control module and the user setting module, and is configured to receive an instruction of the user setting module, and control the mobile phone to complete the corresponding operation and other complicated parameter model calculation according to the sensing control instruction of the adaptive control module;
  • the radio frequency chip module is configured to realize the transmission and reception of cellular signals between the mobile phone and the base station in the environment acquisition module, the reception, filtering, demodulation and digitization processing of the 2G, 3G, and 4G signals, and the digital signals are passed through RSSI, RXRP, The signal-to-noise ratio and other forms are reported to the baseband chip, and then the environment identification module is used for signal attenuation and level strength calculation and analysis.
  • the wireless chip module is configured to implement transmission and reception of wireless signals between the mobile phone and other wireless devices such as WIFI, Bluetooth, RFID, etc. in the environment acquisition module, filtering, demodulating and digitizing the wireless signal, and passing the digitized signal through the RSSI
  • the strength and address information forms such as SSID are reported to the baseband chip, and then the environment identification module is used to perform signal attenuation, level strength, and address area information calculation and analysis.
  • the mobile phone's own function module mainly includes the front and rear camera, light sensing device, earpiece, recording unit, acceleration sensor unit, gyroscope unit and GPS receiving unit of the mobile phone itself.
  • the environment acquisition module coordinates by calling the above modules. Work and collect the required environmental parameters.
  • the vibration, ringing, flickering, graphic and text display, voice broadcast, etc. of the function modules of the mobile phone motor, speaker, breathing lamp, LED display, etc. the user is reminded of the current need to do things, or matters needing attention.
  • the mobile device FLASH module is connected to the basic environment aware library building module and the new sensor library building module, and is used for pre-storage of the mobile phone and storage of newly acquired environment-aware parameters and model data.
  • the environmental intelligent response module is connected to the baseband chip module and the adaptive control module, and is configured to implement an active interactive control response output of the intelligent terminal due to environmental awareness changes.
  • the baseband chip module controls the vibration, ringing, flashing, graphic and text display, voice broadcast, etc. of the motor, speaker, breathing lamp, LED display and other functional modules in the mobile phone to remind the user of the current need. Things to do, or things to be aware of.
  • FIG. 4 is a system structural diagram of an intelligent terminal according to this embodiment.
  • the smart terminal terminal includes: 41 user setting module, 42 auxiliary information collecting module, 43 basic environment aware library building module, 44 new sensing library building module, 45 environment collecting module, 46 environment identifying module, 47 from Adaptive control module, 48 baseband chip module, 49 RF chip module, 410 wireless chip module, 411 mobile phone own function module, 412 mobile device FLASH module, 413 environment intelligent response module.
  • the user setting module 41 is configured to set a user mobile phone adaptive environment sensing function option, which needs to be opened, which needs to be closed, and set the user's life information, such as life work schedule, work schedule, exercise schedule, trip minutes, and the like.
  • the auxiliary information collecting module 42 is configured to collect personal information of the user, such as current physical state information of the user, or personal configuration information set in advance, time schedule in a notebook, an alarm clock, a calendar, a short message, or a recent telephone recording, or collected.
  • personal information of the user such as current physical state information of the user, or personal configuration information set in advance, time schedule in a notebook, an alarm clock, a calendar, a short message, or a recent telephone recording, or collected.
  • User personal habit information as an auxiliary information reference value.
  • the direct information is the information set by the user in the mobile phone, such as the information in the notebook, the memo, the alarm clock, the calendar, and the mailbox, such as working hours, schedules, Meeting arrangements, reminders of important events, etc.
  • the indirect information part refers to the text messages received by mobile phone users, captured phone recordings, callback messages, instant messaging tools such as WeChat, and even missed calls.
  • the auxiliary information collection module also collects information such as the current physical state and body surface features of the user.
  • the basic environment aware library establishing module 43 is connected to the mobile device FLASH module and configured to store a basic environment aware library model, and the basic environment sensing library of the terminal stores common life and work scene information, such as a company, a home, a school, a movie theater, Hospitals, shopping malls, conference rooms, offices, cafeteria restaurants, sports fields, fitness centers, airports, stations, subways, etc. This information is divided into pictures, audio, and motion states.
  • each context-aware information classification different information classifications are required according to different information essential attributes.
  • the key elements to be captured and crawled will be different.
  • the image recognition, the iconic pattern recognition, the keyword, the phrase, the phrase, and the slogan recognition are mainly used.
  • audio recognition, time, place, person as the main keywords, or characteristic keywords in different environments, such as canteens, gyms, homes, offices, outdoor, hospitals, schools, airports, etc., will have Corresponding feature keywords.
  • the new aware library building module 44 is configured to establish a model library other than the basic environment aware library.
  • the terminal collects a new one. If the environment-aware library is beyond the basic library, or is different from the environment features in the basic library feature, the terminal needs to sense and collect the new environment, and adaptively create a new library and name it specifically.
  • the new library model will continue to be enriched and the priority lookup level will be increased based on how often users arrive here. For example, users recently like to go to English training classes. Previously, English training classes were not part of the basic environment library.
  • the environment collection module would call each collection sub-module to collect pictures in the current environment.
  • the mobile phone performs adaptive search through the Internet engine and matches and then customizes the naming and saving. It can also be created and saved by prompting the user to encounter a new sensing environment and creating and confirming.
  • the new perceptual library building module will also select and distinguish based on the basic environment sensing library.
  • the model of the feature is used as the final recognition model and identified.
  • the environment collection module 45 is configured to sense and collect the environment of the user, and cooperate according to various hardware circuits, function software, wireless modules, and sensing modules of the mobile phone itself, such as a front and rear camera, a tape recorder, an acceleration sensor, a gyroscope, and a light sense.
  • the device accesses or disconnects the monitoring, monitors the wireless signal strength, monitors the signal of the cell base station, and monitors and monitors the GPS satellite positioning signal to realize the real-time environment perception and learning record of the user's surrounding environment.
  • the exemplary working process is that when the user arrives at a new location, the environment acquisition module first opens the wireless signal identification sub-module, tracks and recognizes the current GPS latitude and longitude changes, and locates the preliminary location information. If the GPS signal is not received, the nearest cell base station signal near the mobile phone is called to perform preliminary cell positioning. If there is a fixed AP and Bluetooth device information found in the current location, location addressing is performed.
  • the front and rear camera A and B modules of the mobile phone When the user holds the mobile phone to reach a new environment or place, the front and rear camera A and B modules of the mobile phone will be launched in the background to capture the characteristic buildings or decorative scene pictures in the current space, such as lamps, ceilings, wall top pictures, etc.
  • the user surrounds the mobile phone and can further collect the surrounding arrangement.
  • the design can also realize the shooting, collecting and scanning of the objects and decorations around the mobile phone by means of the lateral shooting method, as shown in FIG.
  • the lens of the main camera is finally collected into the image processing chip, and the captured image is processed, spliced or formed into a three-dimensional rendering, and the image with representative features, such as keywords, can also be captured.
  • Banners, furnishings, Facility, articles, etc. send the above information to the environment identification module, and compare and identify with the basic environment perception library to locate the current environment, location and location.
  • the built-in light recognition sub-module of the mobile phone When the user walks from one place to another, the built-in light recognition sub-module of the mobile phone will start to detect the current light type, the light intensity and the change of the luminous flux, and also detect other light parameters such as illuminance and brightness, for example, indoors.
  • the light intensity is the A threshold interval
  • the outdoor light perception is the B threshold interval.
  • the number of light sources in different places is also certain, therefore, the light quantity and environment at multiple points collected When the data in the perceptual library matches, it can be determined that the user has reached an environmental location.
  • the light sensor module you can distinguish the type of light collected, such as sunlight, moonlight, incandescent, fluorescent, LED, light sensor is composed of two components, the light projector and the light receiver, use The light projector focuses the light by the lens, transmits it to the lens of the light receiver, and then to the receiving sensor, and the receiving sensor converts the received light signal into an electrical signal, and the electrical signal can further be used for various switches. And the control action, the basic principle is to use the signal obtained by shielding the light between the light receivers to complete various automatic control.
  • the visible range and color of different light sources are also different, such as white, yellow, purple, and red. Yellow green and so on.
  • the composition of different light sources is not the same, such as the ultraviolet light in the sun.
  • the other parameters such as the attribute and intensity of the light in the current environment are tested, and then the threshold values of the optical parameters in the environment recognition module and the pre-stored environment aware library are compared, Identify changes in optical parameters in the current environment and make further judgments on the environment in which the user is located.
  • the signal strength range reaching a certain area is relatively fixed, for example, in the full-empty zone, the signal strength is -55DB.
  • the signal strength In the semi-entry state, the signal strength is -65DB, and in the full-entry state, the signal strength is -75.
  • the user in the office area has a signal strength value of -63DB and the conference room signal strength value is -73DB.
  • the terminal system collects the average value of the mobile phone in a period of time in real time, and records the curve value of the user reaching the area in a period, and finally calculates the mean value as the last reference value.
  • the mobile phone simultaneously acquires signals of a plurality of cell base stations in the vicinity, and then uses the average value of the change of the strength of the multiple cells as the environment switching variable.
  • FIG. 9 when the user moves in an environment where the indoor GPS signal is not good, such as at the current location A, the underlying cellular signal acquired by the mobile phone through the radio transceiver chip, the signal strength to the nearby cell ID numbers 2, 3, and 5. They are -55, -75, -70 respectively.
  • the mobile phone detects that the current cell ID number is -80, -75, -20, then the current location B can be identified, and the B position is reached.
  • the adaptive control program is started, and the mobile phone enters the relevant working mode or the user reminding mode.
  • the terminal when the user carries the mobile phone to the location with the AP network, the terminal also identifies the current location and marks according to the SS router of the AP router currently connected to the WIFI. If there is only one WIFI fixed point in the room, it can also be based on the terminal. And the automatic access or disconnection of the AP, identify the current user's environmental state changes, the same as above, the design can also achieve the perception and recognition of different environments through the difference of WIFI signal strength in different rooms.
  • the smart terminal can know the user through the built-in motion monitoring sub-module, such as the built-in accelerometer and gyroscope of the mobile phone, detecting the current mobile phone acceleration or angular velocity jump.
  • the state of motion is whether it is ready to stop and get off during driving, and then the corresponding environment-aware collection module can be activated, and spontaneously in a certain mode according to the currently modeled vehicle and the moving state, traffic state, user state, etc.
  • the user is given corresponding guidance and prompting operations.
  • the intelligent terminal will detect the current environmental status through the acceleration sensor, collect the car voice prompt signal, or access the car safety background signal through Bluetooth, or directly collect the user driving picture through the camera to perform background processing of the system. In order to determine whether the user is wearing a seat belt, whether the vehicle reminder system is turned off, and a corresponding prompt signal is issued to remind the user to attach the seat belt.
  • the internal acceleration sensor and the rear camera cooperate to test the acceleration of the current car. If the car is overspeeding, or observe the calculation to be red, the mobile phone The corresponding module is activated to remind the user to pay attention.
  • the smart phone also links to the smart wearable device, reminds the user whether to rest, or activates anti-snoring music playback or FM broadcast according to the physiological state of the user tested by the wearable device and the duration of the driving.
  • Mode or automatically enter the vibration mode, remind the user to stop by, or automatically search for nearby service areas to remind users to enter the nearest service area to rest.
  • the mobile phone detects the getting off sign signal through the cooperative work of the acceleration sensor, the gyroscope, the audio collecting module, and the light sensing collecting module.
  • the acceleration sensor detects the change of the speed and acceleration of the car, and the vehicle is detected by the gyroscope.
  • Vibration coefficient through the audio collection module to collect the brake sound when the car is parked, the hand brake pulls up the sound, the engine noise of the car and other electronic equipment off sound, etc., while detecting the light from the inside of the car to the outside of the car through the light detection module Threshold change, under the collaborative detection and operation of each module, each environment-aware collection module sends the collected instantaneous change of the environment to the environment recognition module, and the environment recognition module actively connects to the relevant module by identifying the current state of the user. It prompts the user to close the doors and windows and other electronic devices or turn off the fire, and also prompts to carry personal belongings when getting off the bus.
  • the environment identification module 46 performs systematic statistics, calculation, analysis, and capture of key information on the collected environment-aware parameters. Exemplarily, for each environment-aware information collected by the system, the identification module captures different key elements according to different information essential attributes. If there are multiple variables at the same time, it is necessary to start balancing the confidence and threshold attributes of the current variable. Finally, the system statistics and calculation results are the main ones. For example, in the environmental scene recognition of picture information, image recognition, iconic graphic recognition, keywords, phrases, phrases, and slogans are mainly recognized. In audio recognition, time, place, person as the main keywords, or characteristic keywords in different environments, such as canteens, gyms, homes, offices, outdoor, hospitals, schools, airports, etc., will have Corresponding feature keywords.
  • the motion parameters such as velocity, acceleration, angular velocity, and direction acquired by the acceleration sensor, gyroscope, compass, magnetometer, etc. are key parameters.
  • the radio frequency transceiver chip module, WIFI and The cell signal strength, cell unit position, WIFI signal RSSI value, hot spot position information, GPS signal carrier-to-noise ratio signal, geomagnetic field signal, etc. detected by the Bluetooth module, the GPS receiving module or the geomagnetic detection module are compared with the electromagnetic signal attenuation parameter model. , identify current environmental changes.
  • the adaptive response control module 47 detects the parameter change of each function module built in the mobile phone, triggers the environment collection work, collects the parameters of the current user environment, and then controls the identification module to perform scene recognition on the collected parameters, and finally Combined with the auxiliary parameter information of the mobile phone itself, the corresponding instruction operation is triggered, and the sensing result is notified to the user.
  • the baseband chip module 48 is connected to the adaptive control module and the user setting module, and is configured to receive an instruction of the user setting module, and control the mobile phone to complete the corresponding operation and other complicated parameter model calculation according to the sensing control instruction of the adaptive control module.
  • the radio frequency chip module 49 is used in the environment acquisition module, the transmission and reception of cellular signals between the mobile phone and the base station, the reception, filtering, demodulation and digitization processing of 2G, 3G, 4G signals, and the digital signals are passed through RSSI, RXRP, The signal-to-noise ratio and other forms are reported to the baseband chip, and then the environment identification module is used for signal attenuation and level strength calculation and analysis.
  • the wireless chip module 410 is used for transmitting and receiving wireless signals between the mobile phone and other wireless devices such as WIFI, Bluetooth, RFID, etc., filtering, demodulating and digitizing the wireless signals, and passing the digitized signals through the RSSI.
  • the strength and address information forms such as SSID are reported to the baseband chip, and then the environment identification module is used to perform signal attenuation and level strength, and calculation and analysis of address area information.
  • the mobile phone's own function module 411 mainly includes a front and rear camera, a light sensing device, an earpiece, a recording unit, an acceleration sensor unit, a gyroscope unit, and a GPS receiving unit of the mobile phone itself.
  • the environment acquisition module coordinates the work by calling the above modules to collect the required environmental parameters.
  • the vibration, ringing, flickering, graphic and text display, voice broadcast, etc. of the function modules of the mobile phone motor, speaker, breathing lamp, LED display, etc. the user is reminded of the current need to do things, or matters needing attention.
  • the mobile device FLASH module 412 is connected to the basic environment aware library establishing module and the new sensing library building module, and is used for storing the newly acquired environment sensing parameters and model data of the mobile phone.
  • the environment intelligent response module 413 is connected to the baseband chip module and the adaptive control module, and is configured to implement an active interactive control response output of the intelligent terminal due to environmental awareness changes.
  • the baseband chip module controls the vibration, ringing, flashing, graphic and text display, voice broadcast, etc. of the motor, speaker, breathing lamp, LED display and other functional modules in the mobile phone to remind the user of the current need. Things to do, or things to be aware of.
  • FIG. 11 is a flowchart of the working process of the smart terminal according to the embodiment. As shown in FIG. 11, the working method of the mobile terminal provided in this embodiment includes the following steps:
  • Step S1101 The user turns on the terminal intelligent environment sensing mode and function options, sets corresponding user interaction options and parameter input, and sets the user's life work information extraction option.
  • Step S1102 The auxiliary information collecting module collects personal information of the user, such as current physical state information of the user.
  • the person configuration information, the terminal acquisition unit information, and the user's personal living habit information are used as auxiliary information reference values.
  • Step S1103 The basic environment aware library building module downloads the basic environment sensing library model, and updates the common life and working scene information of the user in real time as needed;
  • Step S1104 When the user arrives at a new place or place where the basic repository information cannot match, or is different from the environment feature in the basic library feature, the terminal needs to perceive and collect the new environment, and Adaptive build a new library and name it specifically.
  • Step S1105 The environment collection module performs real-time environment sensing and collection on the surrounding environment of the user based on the cooperation of various hardware circuits, function software, wireless modules, and sensing modules of the mobile phone itself.
  • Step S1106 The environment identification module performs system statistics, calculation, analysis, and grasping key information on the collected environment-aware parameters, and compares the parameters of the basic environment library module and the new library environment module to realize the identification of the environment characteristics.
  • Step S1107 The environmental intelligent response module is connected to the baseband chip module and the adaptive control module, and is configured to implement an active interactive control response output of the intelligent terminal due to environmental awareness changes.
  • Step S1108 If the terminal interaction prompt is completed, the user receives the signal and completes the corresponding operation or response, and the adaptive control module enters a sleep mode and waits for the next environment-aware wake-up.
  • Step S1109 If the terminal interaction prompt is completed, the user does not complete the corresponding operation or response, and the adaptive control module reminds the user to perform the corresponding operation again after a certain time interval until the interaction control is completed.
  • An exemplary application scenario is taken as an example for description.
  • the current working scene is the lab.
  • the mobile phone obtains the meeting time and location information in the notebook, opens the camera, and captures the surrounding environment information at the current moment. For example, the lighting characteristics of the ceiling, surrounding instruments or laboratories, or the signal strength parameters of the base station of a certain cell, the current location is the laboratory, and the user stays in the laboratory 10 minutes before the start of the meeting, and the alarm clock, information display,
  • the prompt mode such as vibration and voice prompts the user to go to the conference room A for a meeting, and the start time and location of the relevant conference will be displayed.
  • the mobile phone environment collection module detects changes in various environmental parameters, collects the layout of the current conference room, and collects the conversation keywords and lighting conditions, determines that the current environment is a conference room, and the mobile phone automatically enters the silent mode and the vibration mode. At the same time, the mobile phone will record the duration of the meeting. During the meeting, if there is a new work schedule at a certain time, there will be a message prompt.
  • the mobile phone will disconnect the existing home WIFI router according to the current mobile phone, or change the intensity of indoor and outdoor light, remind the user whether the key or wallet is taken, whether the light and other electronic devices are off, or according to
  • the current mobile phone built-in weather software detects future weather conditions and temperature changes.
  • the camera unit is started to collect the user's dressing situation, prompting the user whether to carry the umbrella, reminding the user whether to bring a few more clothes, or to replace the current If you have already done this, if the user has already done so, the phone will detect it and will not notify you. wake.
  • the mobile phone will also remind the user whether to enter the energy-saving mode or the standby mode according to the current power calculation, the mobile phone user's schedule, and the distance between the user's usual charging point and the current location. Duration, whether you need to locate the nearest available charging point, so that users can always master their current power status, so as not to lose the power when the phone is low, because you forget to charge the phone and can not reach the next destination.
  • the smart terminal can know the user through the built-in motion monitoring sub-module, such as the built-in accelerometer and gyroscope of the mobile phone, detecting the current mobile phone acceleration or angular velocity jump.
  • the state of motion is whether it is ready to stop and get off during driving, and then the corresponding environment-aware collection module can be activated, and spontaneously in a certain mode according to the currently modeled vehicle and the moving state, traffic state, user state, etc. Always give users the appropriate guidance and tips.
  • the intelligent terminal will detect the current environmental status through the acceleration sensor, collect the car voice prompt signal, or access the car safety background signal through Bluetooth, or directly collect the user driving picture through the camera, and perform system background processing. In order to determine whether the user is wearing a seat belt, whether the vehicle reminder system is turned off, and a corresponding prompt signal is issued to remind the user to attach the seat belt.
  • the internal acceleration sensor and the rear camera cooperate to test the current acceleration of the car. If the car is overspeeding, or the observation is calculated to be red, the mobile phone The corresponding module will start to alert the user.
  • the smart phone also links to the smart wearable device, reminds the user whether to rest, or activates anti-snoring music playback or FM broadcast according to the physiological state of the user tested by the wearable device and the duration of the driving.
  • Mode or automatically enter the vibration mode, remind the user to stop by, or automatically search for nearby service areas to remind users to enter the nearest service area to rest.
  • the mobile phone detects the getting off sign signal through the cooperative work of the acceleration sensor, the gyroscope, the audio collecting module, and the light sensing collecting module.
  • the acceleration sensor detects the change of the speed and acceleration of the car, and the vehicle is detected by the gyroscope.
  • Vibration coefficient through the audio acquisition module to collect the brake sound when the car is parked, the hand brake pulls up the sound, the engine noise of the car or other electronic equipment off sound, etc., while detecting the light from the inside of the car to the outside of the car through the light detection module Threshold change, under the collaborative detection and operation of each module, each environment-aware collection module sends the collected instantaneous change of the environment to the environment recognition module, and the environment recognition module actively links to the relevant module by identifying the current accurate state of the user, prompting The user closes the doors and windows and other electronic devices or turns off the fire, and also prompts to carry personal belongings when getting off the vehicle.
  • the embodiment provides a novel intelligent, convenient and secure mobile environment or adaptive environment sensing control device for the wearable device, so as to ensure that the device can operate adaptively in various application environments, and remind the user of problems, issues and items that need attention.
  • the device can collect, record and track the space environment and the site around the user in real time, and combine the current state or implementation of the collected user.
  • the input information arranges the collected auxiliary information inside the terminal and the established environment identification library, and compares the current detected environment, the current state of the user, the next work, tasks, arrangements and plans that the user needs to perform, Adapt to control the mobile phone prompts the user to perform the corresponding instruction operation.
  • the device allows the user's intelligent terminal to self-learn and self-perceive, and is truly upgraded to a hyper-terminal that is terminal-oriented and enables the terminal and the user to interact and interact in real time.
  • the mobile phone does not completely depend on the user's autonomous control, and the terminal can self-perceive the change of the environment and enter the corresponding work mode, monitor the real-time dynamic of the user at all times, and respond, notify or remind the user at the necessary time. What to do and what not to do. Let the terminal become our life little housekeeper and portable secretary.
  • An embodiment of the present disclosure provides a terminal operation control method, which collects a user's living work information as an auxiliary information reference value, and uses the terminal device to sense and adopt an environment-aware parameter of the user's surrounding environment to process the environment-aware parameter and obtain The environment perceives key information, invokes the environment-aware library, determines the control characteristics of the current environment of the terminal according to the environment-aware key information, determines the actual parameter value of the work parameter to be controlled according to the current environment control characteristics and the auxiliary information reference value, and executes the implementation of the terminal Control of work. In the whole process, it is completely run by the terminal itself, and does not require user setting, which solves the problem that the terminal control relies on user management and setting operation, and enhances the user experience.
  • embodiments of the present disclosure can be provided as a method, system, or computer program product. Accordingly, the present disclosure may take the form of a hardware embodiment, a software embodiment or a combination of software and hardware aspects. Moreover, the present disclosure may take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage and optical storage, etc.) including computer usable program code.
  • the computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device.
  • the apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.
  • These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device.
  • the instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.
  • the terminal operation control method provided by the embodiment of the present disclosure implements the control of the terminal work by using the terminal device to sense and adopt the environment-aware parameter of the user's surrounding environment, and according to the environment-aware parameter and other control characteristics of the environment, and solves the terminal control-dependent user. Manage and set up operational issues to improve the user experience.

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Abstract

Des modes de réalisation de la présente invention concernent un procédé et un appareil de commande de fonctionnement de terminal, et un terminal. Le procédé consiste à : recueillir, selon un paramètre de fonctionnement prédéfini à commander, des informations de vie et de travail d'un utilisateur en tant que valeur de référence d'informations auxiliaires ; utiliser un dispositif terminal pour percevoir et adopter un paramètre de perception environnementale autour de l'utilisateur, et traiter le paramètre de perception environnementale pour obtenir des informations clés de perception environnementale ; appeler une bibliothèque de perception environnementale, et déterminer des caractéristiques de commande de l'environnement actuel du terminal en fonction des informations clés de perception environnementale ; et déterminer une valeur de paramètre réelle du paramètre de fonctionnement à commander en fonction des caractéristiques de commande de l'environnement actuel et de la valeur de référence d'informations auxiliaires, et exécuter celle-ci. Dans l'ensemble du procédé, la présente invention fait fonctionner le terminal par lui-même et ne nécessite pas de réglage d'utilisateur, et donc le problème selon lequel une commande de terminal repose sur une gestion d'utilisateur et une opération de réglage est résolu, et l'expérience de l'utilisateur est améliorée.
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CN116359642A (zh) * 2023-03-10 2023-06-30 湖南金烽信息科技有限公司 一种变压器运行状态5g智能监测系统与方法
CN116359642B (zh) * 2023-03-10 2024-01-23 湖南金烽信息科技有限公司 一种变压器运行状态5g智能监测系统与方法
CN117112240A (zh) * 2023-10-24 2023-11-24 北京木牛一心机器人科技有限公司 环境感知方法、装置、计算机设备和存储介质
CN117112240B (zh) * 2023-10-24 2024-01-19 北京木牛一心机器人科技有限公司 环境感知方法、装置、计算机设备和存储介质

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