CN108401064B

CN108401064B - Terminal work control method and device and terminal

Info

Publication number: CN108401064B
Application number: CN201710067961.8A
Authority: CN
Inventors: 沈少武
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2017-02-07
Filing date: 2017-02-07
Publication date: 2021-08-31
Anticipated expiration: 2037-02-07
Also published as: WO2018145447A1; CN108401064A

Abstract

The embodiment of the invention provides a terminal work control method, a device and a terminal; the method comprises the following steps: collecting life and work information of a user as an auxiliary information reference value according to preset working parameters to be controlled, sensing the environment sensing parameters by using terminal equipment and adopting the environment sensing parameters of the surrounding environment of the user, acquiring environment sensing key information, calling an environment sensing library, determining the control characteristics of the current environment of the terminal according to the environment sensing key information, determining the actual parameter values of the working parameters to be controlled according to the control characteristics of the current environment and the auxiliary information reference value, and executing. In the whole process, the terminal runs by itself completely without user setting, the problem that the existing terminal control depends on user management and setting operation is solved, and the use experience of the user is enhanced.

Description

Terminal work control method and device and terminal

Technical Field

The invention relates to the field of terminal control, in particular to a terminal work control method, a device and a terminal.

Background

In the prior art, terminal control requires user settings, such as setting an alarm clock, a notepad reminder, a calendar reminder, and the like; the terminal completes the operation at a prescribed time point through a task arranged in advance, depending on user management and setting operations.

Disclosure of Invention

The embodiment of the invention provides a terminal work control method, a device and a terminal, aiming at solving the problem that the existing terminal control depends on user management and setting operation.

In one aspect, a method for controlling terminal operation is provided, including:

collecting life and work information of a user as an auxiliary information reference value according to preset working parameters to be controlled;

sensing and adopting the environmental sensing parameters of the surrounding environment of the user by using the terminal equipment, processing the environmental sensing parameters and acquiring environmental sensing key information;

calling an environment perception library, and determining the control characteristics of the current environment of the terminal according to the environment perception key information;

and determining the actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value, and executing.

In one aspect, a terminal operation control apparatus is provided, including: an acquisition module and a control module, wherein,

the acquisition module is used for acquiring the life work information of the user according to preset working parameters to be controlled, taking the life work information as an auxiliary information reference value, and sensing and adopting the environmental sensing parameters of the surrounding environment of the user by using the terminal equipment;

the control module is used for processing the environment perception parameters and acquiring environment perception key information; calling an environment perception library, and determining the control characteristics of the current environment of the terminal according to the environment perception key information; and determining the actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value, and executing.

In one aspect, a terminal is provided, including: a sensing module, a memory, and a processor, wherein,

the sensing module is used for sensing and adopting the environmental sensing parameters of the surrounding environment of the user by using the terminal equipment;

the processor is used for collecting the life work information of the user as an auxiliary information reference value according to a preset working parameter to be controlled; processing the environment perception parameters to obtain environment perception key information; calling an environment perception library, and determining the control characteristics of the current environment of the terminal according to the environment perception key information; and determining the actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value, and executing.

In another aspect, a computer storage medium is provided, in which computer-executable instructions are stored, and the computer-executable instructions are used for executing the aforementioned terminal operation control method.

The embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a terminal work control method, which comprises the steps of collecting life work information of a user as an auxiliary information reference value, using terminal equipment to sense and adopt environment sensing parameters of the surrounding environment of the user, processing the environment sensing parameters, obtaining environment sensing key information, calling an environment sensing library, determining the control characteristic of the current environment of a terminal according to the environment sensing key information, determining the actual parameter value of the work parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value, executing and realizing the control of the work of the terminal, completely running by the terminal in the whole process, not needing the setting of the user, solving the problem that the existing terminal control depends on the management and the setting operation of the user, and enhancing the use experience of the user.

Drawings

Fig. 1 is a flowchart of a terminal operation control method according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a terminal operation control device according to a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of a terminal according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of an intelligent terminal according to a fourth embodiment of the present invention;

FIG. 5 is a diagram illustrating a context aware library according to a fourth embodiment of the present invention;

fig. 6 is a schematic diagram of an auxiliary acquisition module according to a fourth embodiment of the present invention;

FIG. 7 is a diagram of an environment acquisition module according to a fourth embodiment of the present invention;

fig. 8 is a schematic view of a light sensor module according to a fourth embodiment of the present invention;

fig. 9 is a diagram illustrating cell identification according to a fourth embodiment of the present invention;

fig. 10 is a schematic diagram of an image recognition apparatus according to a fourth embodiment of the present invention;

fig. 11 is a flowchart of a terminal operating method according to a fourth embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminal related to the invention comprises a mobile phone, a tablet, a PAD and other devices.

The invention will now be further explained by means of embodiments in conjunction with the accompanying drawings.

The first embodiment:

fig. 1 is a flowchart of a terminal operation control method according to a first embodiment of the present invention, and as can be seen from fig. 1, the terminal operation control method according to this embodiment includes:

s101: collecting life and work information of a user as an auxiliary information reference value according to preset working parameters to be controlled;

s102: sensing and adopting the environmental sensing parameters of the surrounding environment of the user by using the terminal equipment, processing the environmental sensing parameters and acquiring environmental sensing key information;

s103: calling an environment perception library, and determining the control characteristics of the current environment of the terminal according to the environment perception key information;

s104: and determining the actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value, and executing.

In some embodiments, the collecting the work and life information of the user in the above embodiments includes:

directly calling the life and work information set by the user as direct information in the auxiliary information reference value;

and analyzing daily interactive data of the user using the terminal, and indirectly acquiring the life and work information set by the user as indirect information in the auxiliary information reference value.

In some embodiments, the terminal operation control method in the above embodiments, before acquiring the life and work information of the user, further includes:

setting an environmental perception parameter to be perceived according to user operation;

and setting working parameters to be controlled according to user operation.

In some embodiments, the environment awareness library in the above embodiments includes context information of at least one life work scenario, the context information includes a control attribute for controlling the terminal to work and identification information for identifying a current context, and determining a control characteristic of a current environment of the terminal according to the environment awareness key information includes:

comparing the environment perception key information with the identification information in each scene information;

determining corresponding scene information according to the comparison result;

and calling the control attribute corresponding to the scene information as the control characteristic of the current environment.

In some embodiments, the terminal operation control method in the above embodiments further includes: when the new scene information is detected, determining the control attribute of the new scene information according to user operation, and determining the identification information of the new scene information according to a terminal sensing result; and updating the new scene information into the context awareness library.

In some embodiments, the environmental sensing parameters sensed and adopted by the terminal device in the foregoing embodiments include:

acquiring terminal position information by using terminal equipment;

and/or, acquiring a light change value by using the terminal equipment;

and/or, using the terminal equipment to obtain at least one of the picture, the audio and the motion state of the current environment;

and/or acquiring a signal strength change value by using the terminal equipment, wherein the signal strength change value comprises a current cellular signal strength change value and/or a wireless local area network signal strength change value.

Second embodiment:

fig. 2 is a schematic structural diagram of a terminal operation control device according to a second embodiment of the present invention, and as can be seen from fig. 2, the terminal operation control device according to this embodiment includes: an acquisition module 21 and a control module 22, wherein,

the acquisition module 21 is used for acquiring the living and working information of the user according to preset working parameters to be controlled, taking the living and working information as an auxiliary information reference value, and sensing and adopting the environmental sensing parameters of the surrounding environment of the user by using the terminal equipment;

the control module 22 is configured to process the environmental perception parameters to obtain environmental perception key information; calling an environment perception library, and determining the control characteristics of the current environment of the terminal according to the environment perception key information; and determining the actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value, and executing.

In some embodiments, the acquisition module in the above embodiments is configured to directly invoke the living and working information set by the user, as direct information in the auxiliary information reference value; and analyzing daily interactive data of the user using the terminal, and indirectly acquiring the life and work information set by the user as indirect information in the auxiliary information reference value.

In some embodiments, the terminal work control apparatus in the above embodiments further includes a setting module, configured to set an environmental awareness parameter to be perceived according to a user operation before collecting the life work information of the user; and setting working parameters to be controlled according to user operation.

In some embodiments, the environment sensing library in the above embodiments includes scene information of at least one living and working scene, the scene information includes a control attribute for controlling a terminal to work and identification information for identifying a current scene, and the control module is configured to compare the environment sensing key information with the identification information in each scene information; determining corresponding scene information according to the comparison result; and calling the control attribute corresponding to the scene information as the control characteristic of the current environment.

In some embodiments, the control module in the above embodiments is further configured to determine, when detecting the new scene information, a control attribute of the new scene information according to a user operation, and determine identification information of the new scene information according to a terminal sensing result; and updating the new scene information into the context awareness library.

In some embodiments, the acquisition module in the above embodiments is configured to acquire terminal location information using a terminal device; and/or, acquiring a light change value by using the terminal equipment; and/or, using the terminal equipment to obtain at least one of the picture, the audio and the motion state of the current environment; and/or acquiring a signal strength change value by using the terminal equipment, wherein the signal strength change value comprises a current cellular signal strength change value and/or a wireless local area network signal strength change value.

In practical applications, all the functional modules in the embodiment shown in fig. 2 may be implemented by using a processor, an editing logic device, or the like.

The third embodiment:

fig. 3 is a schematic structural diagram of a terminal according to a third embodiment of the present invention, and as can be seen from fig. 3, the terminal according to this embodiment includes: a sensing module 31, a memory 32, and a processor 33, wherein,

the perception module 31 is used for perceiving and adopting the environmental perception parameters of the user surrounding environment by using the terminal equipment;

the processor 32 is configured to collect the working information of the user as an auxiliary information reference value according to a preset working parameter to be controlled; processing the environment perception parameters to obtain environment perception key information; calling an environment perception library, and determining the control characteristics of the current environment of the terminal according to the environment perception key information; and determining the actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value, and executing.

In some embodiments, the processor in the above embodiments is configured to directly invoke the living work information set by the user as the direct information in the auxiliary information reference value; and analyzing daily interactive data of the user using the terminal, and indirectly acquiring the life and work information set by the user as indirect information in the auxiliary information reference value.

In some embodiments, the processor in the above embodiments is further configured to set an environmental perception parameter to be perceived according to a user operation before collecting the life work information of the user; and setting working parameters to be controlled according to user operation.

In some embodiments, the environment sensing library in the above embodiments includes scene information of at least one living and working scene, the scene information includes a control attribute for controlling a terminal to work and identification information for identifying a current scene, and the processor is configured to compare the environment sensing key information with the identification information in each scene information; determining corresponding scene information according to the comparison result; and calling the control attribute corresponding to the scene information as the control characteristic of the current environment.

In some embodiments, the processor in the above embodiments is further configured to, when new scene information is detected, determine a control attribute of the new scene information according to a user operation, and determine identification information of the new scene information according to a terminal sensing result; and updating the new scene information into the context awareness library.

In some embodiments, the sensing module in the above embodiments is configured to obtain the terminal location information using the terminal communication unit; and/or, acquiring a light change value by using a terminal light identification sensor; and/or, using the terminal auxiliary equipment to acquire at least one of the picture, the audio and the motion state of the current environment; and/or, acquiring a signal strength change value by using the terminal communication unit, wherein the signal strength change value comprises a current cellular signal strength change value and/or a wireless local area network signal strength change value.

The fourth embodiment:

the present invention will now be further explained with reference to specific application scenarios.

With the popularization of intelligent mobile terminals and intelligent wearable devices, firstly, people enter the era of intelligent mobile communication, but the intelligent control of current mobile phones still stays in people-oriented state, and in the stage of taking users as the leading part, how to learn and sense the mobile phones by themselves at the terminals and really upgrade the mobile phones into super terminals which take the terminals as the leading part or can communicate and interact with the users in real time is a new current requirement, and the satisfaction of the requirement needs to update a novel intelligent identification control method.

In the use of the terminal, if the control of a mobile phone user is not needed, the terminal can self-perceive the change of the environment, enter a corresponding working mode, monitor the real-time dynamic state of the user at any time, respond when necessary, inform or remind the user what should be done, and what should not be done, which is the origin of the idea of the invention. For example, at home, the mobile phone can tell the mobile phone to hold the user, whether the user should cook or not, and remind the user that the user needs to eat at morning, at night, and to sleep at that time, whether the user needs to exercise or not, and if the user is doing so, the mobile phone does not remind the user. If the user goes out, the mobile phone reminds the user whether a wallet is brought or not, whether a lamp and other electronic equipment are closed or not according to the key, whether the wallet is brought or not, and whether the user carries an umbrella or not according to the current and future weather conditions and the temperature change condition, reminds the user whether a plurality of clothes are carried or not or whether the current worn clothes need to be replaced, and if the user does so, the mobile phone does not inform and remind the user. If the user is out of the house and is far away from the working area, the mobile phone can also calculate the situation, the schedule of the mobile phone user and the distance between the nearest common charging point of the user and the current position according to the current electric quantity, remind the user whether to enter an energy-saving mode or not, or can insist on the standby time length and whether to position the nearest available charging point, so that the user can master the current power utilization state of the user at any time, and the situation that the user forgets to charge the mobile phone and cannot reach the next destination when the electric quantity of the mobile phone is insufficient is avoided. If the user is in a company, the mobile phone state can be automatically set and adjusted according to the current working scene, such as an experiment room, an office or a conference room, and meanwhile, corresponding conference time and place reminding can be carried out according to the current detected scene before a conference, and new working schedule reminding is arranged during the conference or at the end of the conference. If the user is in a car, or driving. The intelligent terminal can remind whether a user or a passenger needs to wear a safety belt or not through the current detected environment state, whether the user or the passenger needs to enter an automatic Bluetooth mode switching state or not, and meanwhile, extra overspeed reminding is provided, namely the user is reminded of running a red light. If the user gets off the bus, the system can also be used for closing doors and windows and other electronic equipment, reminding of flameout, reminding of carrying personal articles for getting off the bus, and the like.

The embodiment aims to provide an intelligent and convenient mobile terminal adaptive environment sensing and controlling device to ensure that equipment can realize intelligent operation control and man-machine information interaction according to the individual requirements of users in various application environments and application scenes. Through the coordination work of the built-in functional equipment of the mobile phone, such as a camera, a recorder, an acceleration sensor, a gyroscope, light sensation, WIFI, a GPS, Bluetooth and a radio frequency transceiver chip module, the current surrounding space environment and the field of a user are tracked and recorded in real time, the current state of the user is collected or input information arrangement is realized, and a well-established environment recognition base is combined, so that the currently detected environment and tasks are compared, and the mobile phone is adaptively controlled to prompt the user to carry out corresponding instruction operation.

The embodiment provides an intelligent, convenient and safe self-adaptive environment perception control device of a mobile terminal or wearable equipment, so that the equipment can be ensured to be operated in various application environments in a self-adaptive mode, the problems, matters and work life arrangement which need to be noticed by a user are reminded, and common life affairs of the user are tracked and managed in real time.

In concrete realization, at first, through the built-in functional equipment of cell-phone self, like the cooperative monitoring and work of the equipment of improved generation camera, recorder, acceleration sensor, gyroscope, light sense, WIFI, GPS, bluetooth and radio frequency transceiver chip module, carry out real-time tracking and record to the space environment and the place around the user is present, carry out real-time environmental perception of user and study record promptly.

Meanwhile, the collected current state information of the user, or information instruction arrangement input in advance, or the collected living habit information is used as an auxiliary information reference value.

Meanwhile, the terminal can store a basic environment perception library in advance, and common life and work scene information can be stored in the basic environment perception library, such as companies, homes, schools, cinemas, hospitals, markets, conference rooms, offices, dining halls, restaurants, sports grounds, fitness centers, airports, stations, subways and the like. If the terminal acquires that the new environment perception library exceeds the basic library or is different from the environment characteristics in the basic library characteristics, the terminal can adaptively establish a new library and is named specially.

The terminal detects the current perceived environment change in real time, compares the current detected environment difference with the auxiliary information reference value, and adaptively controls the mobile phone to prompt the user to perform corresponding instruction operation or work.

In practical application, the device or the terminal provided by the invention comprises: a user setting module, an auxiliary information acquisition module, a basic environment perception base establishing module, a new perception base establishing module, an environment acquisition module, an environment identification module, an adaptive control module, a baseband chip module, a radio frequency chip module, a wireless chip module, a mobile phone self function module, a mobile device FLASH module and an environment intelligent response module, wherein,

the user setting module is used for setting self-adaptive environment perception function options of the mobile phone of the user, which need to be opened and which need to be closed, a prompt interval and prompt contents, and setting life information of the user, such as life and work time arrangement, work and rest arrangement, exercise arrangement, journey summary and the like;

the auxiliary information acquisition module is used for acquiring personal information of a user, such as current body state information of the user, or preset personal configuration information, a note book, an alarm clock, a calendar, short messages, or time planning in recent call recording, or acquired personal living habit information of the user, and the acquired personal living habit information is used as an auxiliary information reference value and is divided into two parts, namely direct information and indirect information;

the basic environment perception library establishing module is connected with the mobile equipment FLASH module and used for storing a basic environment perception library model, and common life and work scene information can be stored in the basic environment perception library of the terminal, such as companies, homes, schools, movie theaters, hospitals, markets, conference rooms, offices, dining rooms, playgrounds, fitness centers, airports, stations, subways and the like. The model elements can be divided into characteristics such as light, pictures, audio, characters, motion states, coordinates, longitude and latitude, hotspot distribution, base station distribution and the like;

the new perception base establishing module is used for establishing a model base except the basic environment perception base, when a user arrives at a new place or place and the information of the place and the basic repository can not be matched, the terminal indicates that the terminal acquires that the new environment perception base exceeds the basic repository or is different from the environment characteristics in the characteristics of the basic repository, the terminal needs to perceive and acquire the new environment, adaptively establishes a new base and specially names the new base;

the system comprises an environment acquisition module, a wireless module and a sensing module, wherein the environment acquisition module is used for sensing and acquiring the environment where a user is located, and based on the cooperative monitoring and working of each hardware circuit, functional software, the wireless module and the sensing module of the mobile phone, such as front and back cameras of the mobile phone, a recorder, an acceleration sensor, a gyroscope, light sensation, WIFI, GPS, Bluetooth and a radio frequency transceiver chip module, the current surrounding space environment and field of the user are tracked and recorded in real time;

the environment recognition module is used for carrying out systematic statistics, calculation, analysis and capturing of key information on the collected environment perception parameters, specifically, for each environment perception information collected by the system, the recognition module captures different key elements according to different information essential attributes, if a plurality of variables exist at the same time, the confidence coefficient and the threshold attribute of the current variable need to be started to be balanced, and finally, the system statistics and the calculation result are taken as the main;

the mobile phone triggers environment acquisition work by detecting parameter changes of all built-in functional modules of the mobile phone, acquires parameters of the environment where the current user is located, controls the identification module to identify scenes of the acquired parameters, and triggers corresponding instruction operation by combining auxiliary parameter information of the mobile phone to inform the user of a sensing result;

the baseband chip module is connected with the adaptive control module and the user setting module and used for receiving the instruction of the user setting module, controlling the mobile phone to complete corresponding operation according to the perception control instruction of the adaptive control module and calculating other complex parameter models;

the radio frequency chip module is used for transmitting and receiving cellular signals between a mobile phone and a base station, receiving 2G, 3G and 4G signals, filtering, demodulating and digitizing the cellular signals in the environment acquisition module, reporting the digitized signals to the baseband chip in the forms of RSSI, RXRP, signal-to-noise ratio and the like, and further providing the digitized signals to the environment identification module for calculating and analyzing signal attenuation and level intensity;

the wireless chip module is used for transmitting and receiving wireless signals between a mobile phone and other wireless equipment such as WIFI, Bluetooth and RFID in the environment acquisition module, filtering, demodulating and digitizing the wireless signals, reporting the digitized signals to the baseband chip in the form of strength and address information such as RSSI, SSID and the like, and further providing the digitized signals to the environment identification module for signal attenuation, level strength and address area information calculation and analysis;

the mobile phone self function module mainly comprises a front camera and a rear camera of the mobile phone self, a light sensing device, a receiver, a recording unit, an acceleration sensor unit, a gyroscope unit, a GPS receiving unit and the like. The environment acquisition module acquires the required environment parameters by calling the modules to coordinate work. And meanwhile, the functions of the mobile phone and APP information modules, such as short messages, mails, WeChat, notebooks, memorandum, alarm clocks, calendars and the like, are acquired. Then, reminding the user of the current required things or the matters needing attention by the vibration, the ring tone, the flicker, the graphic and character display, the voice broadcast and other modes of the functional modules such as the mobile phone motor, the loudspeaker, the breathing lamp, the LED display and the like;

the mobile equipment FLASH module is connected with the basic environment perception base establishing module and the new perception base establishing module and is used for storing environment perception parameters and model data which are prestored and newly collected by the mobile phone;

and the environment intelligent response module is connected with the baseband chip module and the self-adaptive control module and is used for realizing the active interactive control response output of the intelligent terminal due to the change of environment perception. By receiving a control instruction of the self-adaptive control module and controlling the modes of vibration, ring tone, flicker, graphic and text display, voice broadcast and the like of functional modules such as a motor, a loudspeaker, a breathing lamp, an LED display and the like in the mobile phone through the baseband chip module, a user is reminded of what needs to be done currently or what needs to be noticed;

the technical solutions of the embodiments of the present invention will now be described in further detail through the accompanying drawings and embodiments.

Fig. 4 is a system configuration diagram of the intelligent terminal provided in this embodiment. As shown in fig. 4, the intelligent terminal includes: the system comprises a 41 user setting module, a 42 auxiliary information acquisition module, a 43 basic environment perception base establishing module, a 44 new perception base establishing module, a 45 environment acquisition module, a 46 environment identification module, a 47 self-adaptive control module, a 48 baseband chip module, a 49 radio frequency chip module, a 410 wireless chip module, a 411 mobile phone self-function module, a 412 mobile device FLASH module and a 413 environment intelligent response module.

The circuit and process of the environment sensing identification control terminal of the above device will be described in detail with reference to fig. 4 and 5.

The user setting module 41 is used for setting the adaptive environment perception function options of the mobile phone of the user, which need to be turned on and which need to be turned off, and setting life information of the user, such as life and work time arrangement, work and rest arrangement, exercise arrangement, journey summary and the like.

And the auxiliary information acquisition module 42 is used for acquiring personal information of the user, such as current body state information of the user, or preset personal configuration information, a note book, an alarm clock, a calendar, a short message, or time schedule in recent call recording, or acquired personal living habit information of the user, which is used as an auxiliary information reference value.

In the specific implementation, the system is divided into two parts, namely direct information and indirect information, wherein the direct information is information set in a mobile phone by a user, such as a note book, a memo, an alarm clock, a calendar, information in a mailbox, such as working time, schedule, meeting schedule, important event reminding and the like. The indirect information part refers to short messages received by a mobile phone user, captured telephone records, and call-back messages, even if a communication tool is slightly trusted or even missed calls. Meanwhile, if the user has intelligent wearable equipment, the auxiliary information acquisition module also comprises the acquisition of the current body state, body surface characteristics and other information of the user.

The basic environment sensing library establishing module 43 is connected with the mobile device FLASH module and used for storing a basic environment sensing library model, and common life and work scene information can be stored in the basic environment sensing library of the terminal, such as companies, homes, schools, cinemas, hospitals, markets, conference rooms, offices, dining rooms, playgrounds, fitness centers, airports, stations, subways and the like. These information may be classified into features such as pictures, audio, motion states, etc.

Specifically, in each environment perception information classification, key elements required to be acquired and captured by different information classifications are different according to different information essential attributes. For example, in the environmental scene recognition in the picture information, picture recognition, landmark pattern recognition, keyword recognition, phrase recognition, and slogan recognition are mainly used. In the audio recognition, time, place and people are used as main keywords, or feature keywords in different environments are used as marks, and the corresponding feature keywords are found in canteens, gymnasiums, homes, offices, outdoors, hospitals, schools, airports and the like.

And the new perception base establishing module 44 is used for establishing a model base other than the basic environment perception base, and when the user arrives at a new place or place and the information of the place and the basic repository cannot be matched, the terminal indicates that the terminal acquires the new environment perception base exceeding the basic repository or the environment characteristics different from those in the basic repository, and the terminal needs to perceive and acquire the new environment and adaptively establish a new base and specially name the new base. New library models will be enriched and the priority lookup level will be raised according to the frequency with which users arrive there. For example, the user likes to go to an english training class recently, and the previous english training class does not belong to the basic environment library, so when the user goes to the place for the first time, the environment acquisition module calls each acquisition submodule to acquire information such as pictures, slogans and feature objects in the current environment, or acquires and records high-frequency words, or information such as wireless WIFI and geographic positions of the current position. Finally, the information is collected into a key information registration form, the mobile phone carries out self-adaptive search through an internet engine and matches the information, then carries out self-defined naming storage, and can also be established and stored in a mode of prompting a user to meet a new sensing environment and needing to be established and confirmed.

If the mobile phone meets the same type of environment in the basic environment perception library, such as two different houses, two different hospitals, airports and the like, the new perception library establishing module also selects a model with distinguishing and identifying characteristics as a final identification model and identifies the model on the basis of the basic environment perception library.

Environment acquisition module 45, a perception and the collection for user's place environment, each hardware circuit based on cell-phone itself, functional software, wireless module, sensing module's collaborative work, camera around like the cell-phone, the recorder, acceleration sensor, the gyroscope, the light sense, WIFI, GPS, bluetooth and the collaborative monitoring and the work of the equipment of radio frequency transceiver chip module, carry out real-time tracking and record to the space environment and place around the user is present, simultaneously many integrative initiative or passive interconnection monitoring, insert or break off monitoring to other peripheral wireless devices promptly, monitor wireless signal intensity, monitor cell base station signal, carry out tracking monitoring to GPS satellite positioning signal, realize the real-time environmental perception and the study record of user's all ring edge borders.

The specific working process is that when a user reaches a new position, the environment acquisition module firstly opens the wireless signal identification submodule to track and identify the change of the longitude and latitude of the current GPS, and positions the preliminary position information, if the GPS signal can not be received, the nearest cell base station signal near the mobile phone can be called to perform preliminary cell positioning, and if the current position is searched, the information of the AP and the Bluetooth equipment is fixed, and the position addressing is performed.

When a user holds a mobile phone to reach a new environment or place, front and back camera A and B modules of the mobile phone are started at the background to capture characteristic building or decorative scene pictures in the current space, such as lamps, ceilings, wall top pictures and the like, if the user surrounds the mobile phone, the surrounding arrangement can be further collected, meanwhile, the design can also realize the shooting, collection and scanning of objects and decorations around the mobile phone and pictures by a side shooting method, as shown in figure 10, shooting holes are additionally arranged at the top, two sides CD and the bottom E of the mobile phone, or a micro reflecting prism is arranged in a gap between an inner shell and an outer shell of the mobile phone by utilizing an earphone, an MIC and a pinhole on the existing mobile phone structure, images at the left side, the right side and the bottom of the mobile phone are transmitted to the vicinity of a lens of a main camera behind the mobile phone by reflection, and are finally collected into an image processing chip to process the captured images, and splicing or forming a three-dimensional effect picture, simultaneously capturing pictures, keywords, banners, furnishings, facilities, articles and the like with representative characteristics, sending the information to an environment identification module, and positioning the current environment, place and position through comparison and identification processing with a basic environment perception library.

When a user walks from one place to another place, the built-in light ray identification submodule of the mobile phone is started to detect the type and the light intensity of current light rays and the change of luminous flux, and can also detect other light parameters such as illumination, brightness and the like, for example, the indoor light sensation intensity is an A threshold value interval, the outdoor light sensation is a B threshold value interval, and when the time of the user passes through the two positions, the light sensing module detects the change between the two positions, and then the corresponding environment acquisition response is activated and called.

Meanwhile, when the user is indoors, because the light brightness of different places is relatively fixed in the same time period range, and the number of the light sources in different places is also certain, when the collected light sensitivity quantity of a plurality of points is matched with the data in the environment sensing library, the user can be judged to reach a certain environment place.

The light sensor module is used to distinguish the collected light types, such as sunlight, moonlight, incandescent lamp, fluorescent lamp, LED lamp, and the light sensor is composed of two components, i.e. light projector and light receiver, the light projector focuses the light from the lens, and transmits the light to the lens of the light receiver, and then to the receiving sensor, and the receiving sensor converts the received light signal into electric signal. Because the spectrum of different types of light sources has different wavelengths, such as incandescent lamp wavelength ranges from about 400nm to 780 nm; the wavelength range of sunlight is about 20nm-2500nm, and the light colors are different in the visible range of different light sources, such as white, yellow, purple, red, yellow and green, and the like. Meanwhile, the components of different light sources are not necessarily the same, such as the sunlight containing ultraviolet components. Other parameters such as the attribute, the intensity and the like of light in the current environment are tested through the built-in light acquisition module of the enhanced mobile phone and the processing module at the rear end, and then the change of the light parameters in the current environment can be identified through comparing the threshold values of the light parameters in the environment recognition module and the prestored environment perception library, so that the environment where the user is located is further judged.

Meanwhile, after locking the signal of the same base station cell, when the depths of the rooms into which the users enter are different, due to channel fading of cellular signals, the signal strength range reaching a certain area is relatively fixed, for example, in a fully open area, the signal strength is-55 DB, in a half-entry state, the signal strength is-65 DB, and in a fully-entry state, the signal strength is-75, in an office area, for example, the user has a signal strength value of-63 DB, and in a conference room, the signal strength value is-73 DB, although the above measured values have a certain variation, when the variation threshold is relatively limited. In the design, the terminal system can acquire the average value of the mobile phone within a period of time in real time, record the curve value of the user reaching the area within a period of time, and finally perform the average value calculation to serve as the final reference value. In an actual test, for accuracy of site switching, a mobile phone may simultaneously acquire signals of a plurality of nearby cell base stations, and then use a variation mean of intensities of a plurality of cells as an environment switching variable.

Taking fig. 9 as an example, when the user moves in an environment with bad GPS signals indoors, such as current location a, the signal strength of the bottom cellular signal obtained by the handset through the rf transceiver chip to the nearby cell ID numbers 2, 3, 5 is-55, -75, -70, respectively; when the user moves to the position B, the mobile phone detects that the ID number of the current cell is-80, -75, -20, the current position B can be identified, and when the user moves to the position B, the adaptive control program is started, and the mobile phone enters a related working mode or a user reminding mode.

Similarly, when a user carries a mobile phone to a position with an AP network, the terminal can identify the current position and mark the current position according to the SSID of the AP router currently connected with WIFI, if only one WIFI fixed point is indoors, the environmental state change of the current user can be identified according to the automatic connection or disconnection of the terminal and the AP, and meanwhile, the design can realize the sensing and identification of different environments through the difference of WIFI signal intensity in different rooms.

If the user gets on the vehicle, gets off the vehicle or drives the vehicle, the intelligent terminal can monitor the submodule through the built-in motion state of the system, if the built-in acceleration sensor and gyroscope of the mobile phone detect the jump of the current acceleration or angular velocity of the mobile phone, the motion state of the user can be known, the intelligent terminal still prepares to stop the vehicle and get off the vehicle in the driving process, and then the corresponding environment perception acquisition module can be started, and according to the tested vehicle type and the moving state of the user, the traffic state, the user state and the like, corresponding guidance and prompt operation can be spontaneously carried out on the user at a certain moment.

Such as the user being in a car or driving. The intelligent terminal can detect the current environment state through the acceleration sensor, acquire vehicle-mounted voice prompt signals, or access vehicle-mounted safety background signals through Bluetooth, or directly acquire user driving pictures through photographing, and perform background processing of the system to judge whether a user wears a safety belt or not, close the vehicle-mounted reminding system or not, and send out corresponding prompt signals to remind the user to wear the safety belt.

Meanwhile, when a user places the mobile phone at a proper position, for example, when the mobile phone is used in vehicle navigation, an acceleration sensor inside the mobile phone and a rear camera cooperate to test the current acceleration condition of the automobile, and if the automobile is overspeed or the fact that the automobile is going to run a red light is observed and calculated, a corresponding module of the mobile phone is started to remind the user of paying attention.

If the user has the wearable device, the smart phone can be further connected with the intelligent wearable device, and according to the physiological state of the user tested by the wearable device and the duration of continuous driving, the smart phone reminds the user whether the user should have a rest, or starts an anti-dozing music playing mode or an FM (frequency modulation) broadcasting mode, or automatically enters a vibration mode to remind the user to stop at the side, or automatically searches a nearby server to remind the user to enter a nearest server to have a rest.

If a user gets off the vehicle, the mobile phone detects a getting-off mark signal through the cooperative work of the acceleration sensor, the gyroscope, the audio acquisition module and the light sensing acquisition module, such as the change of the speed and the acceleration of the vehicle is detected through the acceleration sensor, the vibration coefficient of the vehicle is detected through the gyroscope, the braking sound, the pulling sound of a hand brake, the working noise of an engine in the vehicle, the closing sound of other electronic equipment and the like when the vehicle stops are acquired through the audio acquisition module, meanwhile, the light sensing detection module detects the light threshold change of the mobile phone from the inside to the outside of the vehicle, under the cooperative detection and work of the modules, the environment sensing acquisition modules transmit the acquired instantaneous change of the environment to the environment identification module, and the environment identification module actively links to the related modules at random after identifying the current accurate state of the user, prompts the user to close doors and windows and other electronic equipment and extinguish the vehicle, and also can prompt people to take personal articles when getting off the car.

The environment recognition module 46 performs systematic statistics, calculation, analysis and capturing of key information on the collected environment perception parameters, specifically, for each environment perception information collected by the system, the recognition 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 coefficient and threshold attribute of the current variable, and finally, the system statistics and calculation results are taken as the main. For example, in the environmental scene recognition in the picture information, picture recognition, landmark pattern recognition, keyword recognition, phrase recognition, and slogan recognition are mainly used. In the audio recognition, time, place and people are used as main keywords, or feature keywords in different environments are used as marks, and the corresponding feature keywords are found in canteens, gymnasiums, homes, offices, outdoors, hospitals, schools, airports and the like. In a motion scene, the motion parameters of the object, such as speed, acceleration, angular velocity, direction, and the like, collected by an acceleration sensor, a gyroscope, a compass, a magnetometer, and the like, are used as key parameters. In a wireless signal environment, the current environment change can be identified by comparing with an electromagnetic signal attenuation parameter model through the cell signal strength, the cell unit position, the WIFI signal RSSI value, the hotspot position information, the GPS signal carrier-to-noise ratio signal, the geomagnetic field signal and the like detected by a radio frequency transceiver chip module, a WIFI module and a Bluetooth module in the mobile phone, and a GPS receiving module or a geomagnetic detection module.

The mobile phone triggers environment acquisition work by detecting parameter changes of all built-in functional modules of the mobile phone, acquires parameters of the environment where the current user is located, controls the identification module to identify scenes of the acquired parameters, and finally triggers corresponding instruction operation by combining auxiliary parameter information of the mobile phone to inform the user of a sensing result.

And the baseband chip module 48 is connected with the adaptive control module and the user setting module, and is used for receiving the instruction of the user setting module, controlling the mobile phone to complete corresponding operation according to the sensing control instruction of the adaptive control module, and calculating other complex parameter models.

And the radio frequency chip module 49 is used for transmitting and receiving cellular signals between the mobile phone and the base station, receiving 2G, 3G and 4G signals, filtering, demodulating and digitizing the cellular signals in the environment acquisition module, reporting the digitized signals to the baseband chip in the forms of RSSI, RXRP, signal-to-noise ratio and the like, and further providing the environment identification module for calculating and analyzing signal attenuation and level intensity.

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 and RFID in the environment acquisition module, filtering, demodulating and digitizing the wireless signals, reporting the digitized signals to the baseband chip in the form of strength and address information such as RSSI, SSID and the like, and further providing the environment identification module for signal attenuation, level strength and address area information calculation and analysis.

The mobile phone functional module 411 mainly includes front and rear cameras of the mobile phone, a light sensing device, a receiver, a recording unit, an acceleration sensor unit, a gyroscope unit, a GPS receiving unit, and the like. The environment acquisition module acquires the required environment parameters by calling the modules to coordinate work. And meanwhile, the functions of the mobile phone and APP information modules, such as short messages, mails, WeChat, notebooks, memorandum, alarm clocks, calendars and the like, are acquired. And then the user is reminded of the current things needed to be done or the matters needed to be noticed through the vibration, the ring tone, the flicker, the graphic and character display, the voice broadcast and other modes of the functional modules such as the mobile phone motor, the loudspeaker, the breathing lamp, the LED display and the like.

And the mobile device FLASH module 412 is connected with the basic environment sensing library establishing module and the new sensing library establishing module, and is used for storing environment sensing parameters and model data which are prestored and newly acquired by the mobile phone.

And the environment intelligent response module 413 is connected with the baseband chip module and the self-adaptive control module and is used for realizing the active interactive control response output of the intelligent terminal due to the change of environment perception. By receiving the control instruction of the self-adaptive control module, the baseband chip module controls the vibration, the ring tone, the flicker, the graphic and character display, the voice broadcast and other modes of the functional modules such as the motor, the loudspeaker, the breathing lamp, the LED display and the like in the mobile phone, and reminds the user of the current required work or the matters required to be noticed.

Fig. 11 is a flowchart of the operation of the intelligent terminal provided in this embodiment, and as shown in fig. 11, the operation method of the mobile terminal provided in this embodiment includes the following steps:

step S1101: the method comprises the steps that a user starts an intelligent environment sensing mode and function options of a terminal, sets corresponding user interaction options and parameter input, and sets life and work information extraction options of the user;

step S1102: the auxiliary information acquisition module acquires personal information of a user, such as current body state information of the user, personal configuration information, terminal acquisition unit information and personal living habit information of the user, and the personal information is used as an auxiliary information reference value;

step S1103: the basic environment perception base establishing module downloads a basic environment perception base model and updates the common life and working scene information of the user in real time according to the requirement;

step S1104: when a user arrives at a new place or place and the information of the place and the basic repository can not be matched, or the environment characteristics are different from those of the basic repository characteristics, the terminal needs to sense and acquire a new environment, adaptively establishes a new repository and specially names the new repository;

step S1105: the environment acquisition module is used for sensing and acquiring the surrounding environment of the user in real time based on the cooperative work of each hardware circuit, functional software, a wireless module and a sensing module of the mobile phone;

step S1106: the environment recognition module carries out systematic statistics, calculation, analysis and capturing of key information on the acquired environment perception parameters, and the key information is compared with the parameters of the basic environment library module and the newly-built library environment module to realize the recognition of the environment characteristics;

step S1107: the environment intelligent response module is connected with the baseband chip module and the self-adaptive control module and is used for realizing the active interactive control response output of the intelligent terminal due to the environment perception change;

step S1108: if the terminal interaction prompt is finished, the user receives the signal and finishes corresponding operation or response, and the self-adaptive control module enters a sleep mode to wait for the next awakening of environment perception;

step S1109: if the terminal interaction prompt is finished, the user does not finish corresponding operation or response, and the self-adaptive control module reminds the user to carry out corresponding operation again after a certain time interval until the interaction control is finished.

A specific application scenario is now described as an example.

The application scene one:

if the user is in a company, the current working scene is a laboratory, the user needs to go to a conference room A to start a meeting at about 2 pm, the mobile phone acquires the information of the meeting time and place of the notebook, the mobile phone starts the camera, and captures the information of the surrounding environment at the current moment, such as a ceiling, surrounding instruments, or the light characteristics of the laboratory, or the signal intensity parameters of a cell base station, the current position is judged to be the laboratory, and the user stays in the laboratory 10 minutes before the meeting starts, and then the user is prompted to go to the conference room A to start the meeting through alarm clock, information display, vibration, voice and other prompting modes, the starting time of the related meeting is realized.

When a user arrives at a meeting room, the mobile phone environment acquisition module detects the change of each environment parameter, acquires the arrangement condition of the current meeting room, acquires conversation keywords and the light condition, judges that the current environment is the meeting room, automatically enters a mute mode and a vibration mode, simultaneously records the meeting duration, and also has information prompt if a new working schedule is arranged at a specific time in the meeting process.

Application scenario two:

if the user goes out, the mobile phone can randomly disconnect the existing family WIFI router according to the current mobile phone, or the indoor and outdoor light intensity changes to remind the user of a key, whether a wallet is carried or not, whether a lamp and other electronic equipment are turned off or not, whether future weather conditions and temperature change conditions are detected according to current built-in weather software of the mobile phone, meanwhile, a camera unit is started to collect the wearing conditions of the user, whether the user is to carry the umbrella or not is prompted, whether the user is to carry several pieces of clothes or not is reminded, or the clothes worn at present needs to be replaced, if the user does so, the mobile phone does not inform and remind the user.

Application scenario three:

if the user is out of the house and is far away from the working area, the mobile phone can also calculate the situation, the schedule of the mobile phone user and the distance between the nearest common charging point of the user and the current position according to the current electric quantity, remind the user whether to enter an energy-saving mode or not, or can insist on the standby time length and whether to position the nearest available charging point, so that the user can master the current power utilization state of the user at any time, and the situation that the user forgets to charge the mobile phone and cannot reach the next destination when the electric quantity of the mobile phone is insufficient is avoided.

And an application scene four:

The embodiment provides a novel intelligent, convenient and safe self-adaptive environment perception control device of a mobile terminal or wearable equipment, so that the equipment can be ensured to be operated in various application environments in a self-adaptive mode, the problems, matters and work life arrangement which need to be noticed by a user are reminded, and real-time tracking and management are carried out on common life affairs of the user. The device can collect, record and track the current surrounding space environment and field of the user in real time, arrange all collected auxiliary information in the terminal by combining the collected current state of the user or the information input by the user, and establish an environment recognition library, compare the current detected environment, the current state of the user and the next work, task, arrangement and plan required by the user, and adaptively control the mobile phone to prompt the user to perform corresponding instruction operation. The device can enable the intelligent terminal of a user to learn and sense by self, and really upgrade to a super terminal taking the terminal as a leading part, so that the terminal and the user can intercommunicate and interact in real time. The terminal can become a housekeeper and a walkabout secretary of our life.

In summary, the implementation of the embodiment of the present invention has at least the following advantages:

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present invention 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, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above embodiments are only examples of the present invention, and are not intended to limit the present invention in any way, and any simple modification, equivalent change, combination or modification made by the technical essence of the present invention to the above embodiments still fall within the protection scope of the technical solution of the present invention.

Claims

1. A terminal work control method comprises the following steps:

sensing and adopting environmental sensing parameters of the surrounding environment of the user by using terminal equipment, processing the environmental sensing parameters and acquiring environmental sensing key information;

determining and executing an actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value;

the environment perception library comprises scene information of at least one life and work scene, the scene information comprises a control attribute for controlling the work of the terminal and identification information for identifying the current scene, and the determining of the control characteristic of the current environment of the terminal according to the environment perception key information comprises the following steps:

determining corresponding scene information according to the comparison result;

2. The terminal work control method according to claim 1, wherein the collecting the life work information of the user comprises:

directly calling the life and work information set by the user as the direct information in the auxiliary information reference value;

3. The terminal work control method according to claim 1, further comprising, before collecting the life work information of the user:

and setting working parameters to be controlled according to user operation.

4. The terminal operation control method according to claim 1, further comprising: when detecting new scene information, determining the control attribute of the new scene information according to user operation, and determining the identification information of the new scene information according to a terminal sensing result; and updating the new scene information into the environment perception library.

5. The terminal operation control method according to any one of claims 1 to 4, wherein the sensing and adopting the environment sensing parameter of the user's surrounding environment using the terminal device comprises:

acquiring terminal position information by using terminal equipment;

and/or, acquiring a light change value by using the terminal equipment;

6. A terminal operation control device comprising: an acquisition module and a control module, wherein,

the acquisition module is used for acquiring the life work information of the user according to preset working parameters to be controlled, taking the life work information as an auxiliary information reference value, and sensing and adopting the environment sensing parameters of the surrounding environment of the user by using the terminal equipment;

the control module is used for processing the environment perception parameters and acquiring environment perception key information; calling an environment perception library, and determining the control characteristics of the current environment of the terminal according to the environment perception key information; determining and executing an actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value; the environment perception library comprises scene information of at least one life working scene, the scene information comprises a control attribute for controlling the work of a terminal and identification information for identifying a current scene, and the control module is used for comparing the environment perception key information with the identification information in each scene information; determining corresponding scene information according to the comparison result; and calling the control attribute corresponding to the scene information as the control characteristic of the current environment.

7. The terminal work control device according to claim 6, wherein the collection module is configured to directly call the work-of-life information set by the user as direct information in the auxiliary information reference value; and analyzing daily interactive data of the user using the terminal, and indirectly acquiring the life and work information set by the user as indirect information in the auxiliary information reference value.

8. The terminal work control device according to claim 6, further comprising a setting module for setting an environmental perception parameter to be perceived according to a user operation before collecting the life work information of the user; and setting working parameters to be controlled according to user operation.

9. The terminal operation control device according to claim 6, wherein the control module is further configured to determine, when new scene information is detected, a control attribute of the new scene information according to a user operation, and determine identification information of the new scene information according to a terminal sensing result; and updating the new scene information into the environment perception library.

10. The terminal operation control device according to any one of claims 6 to 9, wherein the acquisition module is configured to acquire terminal position information using a terminal device; and/or, acquiring a light change value by using the terminal equipment; and/or, using the terminal equipment to obtain at least one of the picture, the audio and the motion state of the current environment; and/or acquiring a signal strength change value by using the terminal equipment, wherein the signal strength change value comprises a current cellular signal strength change value and/or a wireless local area network signal strength change value.

11. A terminal, comprising: a sensing module, a memory, and a processor, wherein,

the processor is used for collecting life work information of a user according to preset working parameters to be controlled and taking the life work information as an auxiliary information reference value; processing the environment perception parameters to obtain environment perception key information; calling an environment perception library, and determining the control characteristics of the current environment of the terminal according to the environment perception key information; determining and executing an actual parameter value of the working parameter to be controlled according to the control characteristic of the current environment and the auxiliary information reference value; the environment perception library comprises scene information of at least one life working scene, the scene information comprises a control attribute for controlling the work of a terminal and identification information for identifying a current scene, and the processor is used for comparing the environment perception key information with the identification information in each scene information; determining corresponding scene information according to the comparison result; and calling the control attribute corresponding to the scene information as the control characteristic of the current environment.

12. The terminal of claim 11, wherein the processor is configured to directly call the user-set work-living information as direct information in the auxiliary information reference value; and analyzing daily interactive data of the user using the terminal, and indirectly acquiring the life and work information set by the user as indirect information in the auxiliary information reference value.

13. The terminal of claim 11, wherein the processor is further configured to set an environmental awareness parameter to be perceived according to a user operation before collecting the life work information of the user; and setting working parameters to be controlled according to user operation.

14. The terminal of claim 11, wherein the processor is further configured to, when new scene information is detected, determine a control attribute of the new scene information according to a user operation, and determine identification information of the new scene information according to a terminal sensing result; and updating the new scene information into the environment perception library.

15. The terminal according to any of claims 11 to 14, wherein the sensing module is configured to obtain terminal location information using a terminal communication unit; and/or, acquiring a light change value by using a terminal light identification sensor; and/or, using the terminal auxiliary equipment to acquire at least one of the picture, the audio and the motion state of the current environment; and/or, using the terminal communication unit to obtain a signal strength change value, wherein the signal strength change value comprises a current cellular signal strength change value and/or a wireless local area network signal strength change value.