CN103513624A - Intelligent monitoring method and system based on remote controller - Google Patents

Abstract

The invention discloses an intelligent monitoring method and system based on a remote controller. The method comprises the steps that when the remote controller detects that a user uses the remote controller, motion data of the phenomenon that the user operates the remote controller are collected through a sensor arranged on the remote controller, denoising processing is carried out on the motion data, and then the data are transmitted to intelligent equipment controlled by the remote controller; filtering and characteristic value extraction processing is carried out on the transmitted motion data by the intelligent equipment, extracted characteristic values are matched with a preset data model, and the identity of the user is recognized; whether the user is located within a monitoring range and is a monitored object or not is detected, if yes, user personal information and intelligent equipment operation information of the user are collected; the collected user personal information and the collected intelligent equipment operation information of the user are sent to a monitoring terminal. The intelligent monitoring method and system based on the remote controller are low in cost, simple in processing procedure and strong in practicability, and the intelligent monitoring system is convenient to use.

Description

A kind of intelligent control method and system based on telepilot

Technical field

The present invention relates to field of intelligent monitoring, relate in particular to a kind of intelligent control method and system based on telepilot.

Background technology

Supervisory system of the prior art is mainly to utilize the front end watch-dogs such as video camera, audiomonitor, alarm detector, The Cloud Terrace, the information such as the image of monitored object, sound are carried out to track record, then monitor by the server that signal path is transferred to rear end.But this supervisory system complex disposal process is expensive, maintenance cost is high, power consumption is large and failure rate is high.And this supervisory system needs Attended mode, if its monitoring effect of unmanned is not good, cannot obtain in real time monitor message, so supervisory system of the prior art uses also inconvenience, limited monitor's freedom.

Therefore, prior art has yet to be improved and developed.

Summary of the invention

In view of above-mentioned the deficiencies in the prior art, the object of the present invention is to provide a kind of intelligent control method and system based on telepilot, be intended to solve that existing supervisory system cost is high, complex disposal process, awkward problem.

Technical scheme of the present invention is as follows:

An intelligent control method based on telepilot, wherein, comprises step:

A, when telepilot detects user's use, by being arranged on the action data of the sensor collection user remote controller on described telepilot, and described action data is carried out after denoising, be sent to the smart machine that described telepilot is controlled;

B, smart machine carry out filtering and eigenwert extraction process to the action data sending, and the eigenwert extracting is mated with default data model, identify user's identity;

C, detect user whether within the scope of monitoring and user whether be monitored object, if described user within the scope of monitoring and while be monitored object, collection userspersonal information and the operation information of user to smart machine;

D, the userspersonal information who collects and user are sent to monitor terminal to the operation information of smart machine.

The described intelligent control method based on telepilot, wherein, the sensor in described steps A is one or more in acceleration transducer, gyroscope, geomagnetic sensor or temperature sensor.

The described intelligent control method based on telepilot, wherein, described step B specifically comprises:

B1, smart machine carry out Signal Pretreatment to the action data sending, and obtain corresponding action waveforms;

B2, according to described action waveforms, action data is carried out to Data Segmentation, the action data being partitioned into is carried out to eigenwert extraction, extract the eigenwert of the described user action feature of sign;

B3, the eigenwert extracting is mated with default data model, according to matching result, identify user's identity.

The described intelligent control method based on telepilot, wherein, described step C specifically comprises:

C1, smart machine open watcher thread, detect user and the distance of smart machine and user's identity, judge user whether within the scope of monitoring and user whether belong to the eavesdropping target in default eavesdropping target's list;

C2, when user is within the scope of monitoring and while belonging to the eavesdropping target in eavesdropping target's list, gather userspersonal information and the operation information of user to smart machine;

C3, when user is not within the scope of monitoring or while not belonging to the eavesdropping target in eavesdropping target's list, continue to open watcher thread and monitor.

The described intelligent control method based on telepilot, wherein, in described step D, is sent to monitor terminal by the userspersonal information who collects and user to the operation information of smart machine by the mode with short message, phone, email or image.

The described intelligent control method based on telepilot, wherein, in described step C, by described userspersonal information and user, to the operation information of smart machine, the data management mechanism by two-level cache manages and safeguards.

A kind of intelligent monitor system based on telepilot, wherein, comprise the smart machine that telepilot and telepilot are controlled, described telepilot comprises that action data gathers sending module, and described smart machine comprises identification module, user profile acquisition module and user profile sending module;

Described action data gathers sending module, for when telepilot detects user's use, by being arranged on the action data of the sensor collection user remote controller on described telepilot, and described action data is carried out after denoising, be sent to the smart machine that described telepilot is controlled;

Described identification module, for the action data sending being carried out to filtering and eigenwert extraction process, mates the eigenwert extracting with default data model, identify user's identity;

Described user profile acquisition module, for detection of user whether within the scope of monitoring and user whether be monitored object, if described user, within the scope of monitoring and while being monitored object, gathers userspersonal information and the operation information of user to smart machine;

Described user profile sending module, for being sent to monitor terminal by the userspersonal information who collects and user to the operation information of smart machine.

The described intelligent monitor system based on telepilot, wherein, described identification module comprises:

Action waveforms acquiring unit, for the action data sending is carried out to Signal Pretreatment, obtains corresponding action waveforms;

Eigenwert extraction unit, for action data being carried out to Data Segmentation according to described action waveforms, carries out eigenwert extraction to the action data being partitioned into, and extracts the eigenwert of the described user action feature of sign;

Identification unit, for the eigenwert extracting is mated with default data model, identifies user's identity according to matching result.

The described intelligent monitor system based on telepilot, wherein, described user profile acquisition module comprises:

Monitor judging unit, be used for opening watcher thread, detect user and the distance of smart machine and user's identity, judge user whether within the scope of monitoring and user whether belong to the eavesdropping target in default eavesdropping target's list, when user is not within the scope of monitoring or while not belonging to the eavesdropping target in eavesdropping target's list, continue to open watcher thread and monitor judgement;

User profile collecting unit, for when user is within the scope of monitoring and while belonging to the eavesdropping target of eavesdropping target's list, gathers userspersonal information and the operation information of user to smart machine.

Beneficial effect: the present invention gathers user's action data by sensor, then action data is carried out pre-service and carries out data modeling, according to data modeling result, identify user's identity, by in monitoring scope and for the user's of monitored object personal information and the operation information of smart machine is sent to monitor terminal, make monitor can obtain in real time the monitor message of monitored object, the present invention is without increasing other costs, only need utilize common intelligent remote controller, intelligent television and mobile terminal can be realized the monitoring to monitored object, make cost of the present invention lower, even and because monitor is being away from home, also monitor message that can Real-time Obtaining monitored object, make monitor's practicality very easy to use.

Accompanying drawing explanation

Fig. 1 is the process flow diagram that the present invention is based on the intelligent control method preferred embodiment of telepilot.

Fig. 2 is the particular flow sheet of in method, action data being processed and being identified user identity shown in Fig. 1.

Fig. 3 monitors in method shown in Fig. 1 and the particular flow sheet of Information Monitoring.

Fig. 4 is the structured flowchart that the present invention is based on the intelligent monitor system preferred embodiment of telepilot.

Fig. 5 is the structured flowchart of identification module in system shown in Figure 4.

Fig. 6 is the structured flowchart of user profile acquisition module in system shown in Figure 4.

Embodiment

The invention provides a kind of intelligent control method and system based on telepilot, for making object of the present invention, technical scheme and effect clearer, clear and definite, below the present invention is described in more detail.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

Refer to Fig. 1, Fig. 1 is the process flow diagram that the present invention is based on the intelligent control method preferred embodiment of telepilot, and as shown in the figure, it comprises step:

S101, when telepilot detects user's use, by being arranged on the action data of the sensor collection user remote controller on described telepilot, and described action data is carried out after denoising, be sent to the smart machine that described telepilot is controlled;

S102, smart machine carry out filtering and eigenwert extraction process to the action data sending, and the eigenwert extracting is mated with default data model, identify user's identity;

S103, detect user whether within the scope of monitoring and user whether be monitored object, if described user within the scope of monitoring and while be monitored object, collection userspersonal information and the operation information of user to smart machine;

S104, the userspersonal information who collects and user are sent to monitor terminal to the operation information of smart machine.

In step S101, first be to detect user whether to use a teleswitch, switch or power key etc. the mode for the treatment of of for example whether supressing telepilot by detecting user detects, when user being detected and using a teleswitch, be arranged on the action data that various sensors on telepilot start to gather user's remote controller.

Specifically, the sensor being arranged on described telepilot can be acceleration transducer, gyroscope, one or more of the sensor such as geomagnetic sensor or temperature sensor, described acceleration transducer can be used for obtaining the motion state data of telepilot, gyroscope can be used for obtaining direction of motion and the angular velocity data of telepilot, geomagnetic sensor can be used for obtaining the directional data of telepilot, residing environment temperature when temperature sensor can be used for obtaining user's remote controller, certainly the sensor is example, the present invention also can select the sensor that more other types are set to obtain the more action data about user's remote controller.

By various sensors, collecting after the action data of user's remote controller, need first action data to be carried out to the action that denoising removes noise, this is because the exercises data on telepilot should be in certain frequency range, and other the signal that does not meet corresponding frequencies scope belongs to noise, for example various environmental factors all likely cause noise, so the noise remove in action data need to be fallen, specifically can be by being arranged on the MCU(Micro Control Unit in telepilot, micro-control unit) will remove the action of noise.After denoising, the action data on telepilot can be sent in the smart machine that is arranged on telepilot control, carry out next step data processing.

In step S102, smart machine need to be further processed the action data sending, first, need to carry out Signal Pretreatment to action data, carrying out Data Segmentation and extracting eigenwert, finally according to eigenwert, carry out modeling processing, thus identification user's the information such as identity.

As shown in Figure 2, smart machine comprises step to the processing procedure of action data:

S201, smart machine carry out Signal Pretreatment to the action data sending, and obtain corresponding action waveforms; First the action data sending is carried out to Signal Pretreatment, it is specifically converted to data periodic action waveforms, then could carry out ensuing Data Segmentation process according to above-mentioned action waveforms.

S202, according to described action waveforms, action data is carried out to Data Segmentation, the action data being partitioned into is carried out to eigenwert extraction, extract the eigenwert of the described user action feature of sign; In the action waveforms obtaining, there is the periodic feature of some waveforms not obvious, such as excessive signal of the amplitude of shaking etc., Data Segmentation corresponding to these signals need to be fallen, thereby insignificant action data in action data is filtered out, obtain significant more representative action data.In addition, extract the eigenwert of the motion characteristic that can show user in also need to the action data from cutting apart, as the eigenwert of the described user action feature of sign, carry out the modeling of lower step and process.

S203, the eigenwert extracting is mated with default data model, and according to data modeling result, identify user's identity.This step is that the eigenwert extracting is mated with default data model, this data model can be by collecting more existing general data models, then the eigenwert extracting is matched to suitable data model, and carry out data modeling according to the eigenwert extracting, according to data modeling result, export corresponding recognition result, identify user's identity, for example identifying user is child, adult or old man etc.

Data processing in above-mentioned steps and data modeling process also can be with reference to technology more of the prior art, and concrete implementation detail does not repeat in the present invention.

After identifying user's identity, need to detect user whether within the scope of monitoring, for example whether user is within the scope of default monitoring, whether be monitored object, then according to snoop results, determine whether some personal information of user and operation information (personal information and operation information can be referred to as to monitor message) are sent on monitor's monitor terminal if needing in addition to detect user.

Specifically, as shown in Figure 3, the idiographic flow of monitoring comprises step:

S301, smart machine open watcher thread, detect user and the distance of smart machine and user's identity, judge user whether within the scope of monitoring and user whether belong to the eavesdropping target in default eavesdropping target's list; Described monitoring scope and list object all set in advance, and monitoring scope can be set according to monitoring human needs; User can arrange a plurality of eavesdropping targets in eavesdropping target's list, for example, in family, have a plurality of children, needs to arrange a plurality of eavesdropping targets, thereby makes monitor can monitor a plurality of objects simultaneously.

S302, when user is within the scope of monitoring and while belonging to the eavesdropping target in eavesdropping target's list, gather userspersonal information and the operation information of user to smart machine; Personal information wherein comprises user's the information such as identity, take intelligent television as example, operation information comprises that the TV programme that user watches, time span, the user that user watches each TV programme watch time period of each TV programme etc., then store the userspersonal information who collects and user in database into and manage the operation information of smart machine.

S303, when user is not within the scope of monitoring or while not belonging to the eavesdropping target in eavesdropping target's list, continue to open watcher thread and monitor.If user, not within the scope of monitoring, without gathering personal information and operation information, but keeps the opening of watcher thread, continue to monitor.

In above-mentioned steps S302, when user is within the scope of monitoring, and when the user who identifies is monitored object, will collect user's personal information and the operation information of user to smart machine, and be stored in database, and in database, be provided with a data management module, be used for the personal information of collecting and operation information to carry out unified data management, to guarantee reliability and the consistance of data.It is specifically managed the personal information of collecting and user and safeguard to the operation information of smart machine by the data management mechanism of two-level cache, what level cache was stored is the current personal information of user and the operation information of user to smart machine, what L2 cache was stored is user's history information, and history information comprises personal information and the operation information before this user.

Collect userspersonal information and user to the operation information of smart machine after, the information that these need be collected is sent to monitor terminal, make monitor can know in real time monitored people's information, and the mode that information sends has multiple, such as information being sent to monitor terminal in modes such as short message, phone, email or images, monitor terminal can be monitor's mobile phone, individual PC, panel computer etc. portable terminal device.

Based on said method, the present invention also provides a kind of intelligent monitor system based on telepilot, wherein, as shown in Figure 4, comprise the smart machine 200 that telepilot 100 and telepilot 100 are controlled, described telepilot 100 comprises that action data gathers sending module 110, and described smart machine 200 comprises identification module 210, user profile acquisition module 220 and user profile sending module 230;

Described action data gathers sending module 110, for when telepilot detects user's use, by being arranged on the action data of the sensor collection user remote controller on described telepilot, and described action data is carried out after denoising, be sent to the smart machine that described telepilot is controlled;

Described identification module 210, for the action data sending being carried out to filtering and eigenwert extraction process, mates the eigenwert extracting with default data model, identify user's identity;

Described user profile acquisition module 220, for detection of user whether within the scope of monitoring and user whether be monitored object, if described user, within the scope of monitoring and while being monitored object, gathers userspersonal information and the operation information of user to smart machine;

Described user profile sending module 230, for being sent to monitor terminal by the userspersonal information who collects and user to the operation information of smart machine.

Further, as shown in Figure 5, described identification module 210 comprises:

Action waveforms acquiring unit 211, for the action data sending is carried out to Signal Pretreatment, obtains corresponding action waveforms;

Eigenwert extraction unit 212, for action data being carried out to Data Segmentation according to described action waveforms, carries out eigenwert extraction to the action data being partitioned into, and extracts the eigenwert of the described user action feature of sign;

Identification unit 213, for the eigenwert extracting is mated with default data model, identifies user's identity according to matching result.

Further, as shown in Figure 6, described user profile acquisition module 220 comprises:

Monitor judging unit 221, be used for opening watcher thread, detect user and the distance of smart machine and user's identity, judge user whether within the scope of monitoring and user whether belong to the eavesdropping target in default eavesdropping target's list, when user is not within the scope of monitoring or while not belonging to the eavesdropping target in eavesdropping target's list, continue to open watcher thread and monitor judgement;

User profile collecting unit 222, for when user is within the scope of monitoring and while belonging to the eavesdropping target of eavesdropping target's list, gathers userspersonal information and the operation information of user to smart machine.Concrete ins and outs about said system can, with reference to the detailed description in method above, repeat no more.

In sum, the present invention gathers user's action data by sensor, then action data is carried out pre-service and carries out data modeling, according to data modeling result, identify user's identity, by in monitoring scope and for the user's of monitored object personal information and the operation information of smart machine is sent to monitor terminal, make monitor can obtain in real time the monitor message of monitored object, the present invention is without increasing other costs, only need utilize common intelligent remote controller, intelligent television and mobile terminal can be realized the monitoring to monitored object, make cost of the present invention lower, even and because monitor is being away from home, also monitor message that can Real-time Obtaining monitored object, make monitor's practicality very easy to use.

Should be understood that, application of the present invention is not limited to above-mentioned giving an example, and for those of ordinary skills, can be improved according to the above description or convert, and all these improvement and conversion all should belong to the protection domain of claims of the present invention.

Claims (9)

1. the intelligent control method based on telepilot, is characterized in that, comprises step:

A, when telepilot detects user's use, by being arranged on the action data of the sensor collection user remote controller on described telepilot, and described action data is carried out after denoising, be sent to the smart machine that described telepilot is controlled;

B, smart machine carry out filtering and eigenwert extraction process to the action data sending, and the eigenwert extracting is mated with default data model, identify user's identity;

C, detect user whether within the scope of monitoring and user whether be monitored object, if described user within the scope of monitoring and while be monitored object, collection userspersonal information and the operation information of user to smart machine;

D, the userspersonal information who collects and user are sent to monitor terminal to the operation information of smart machine.

2. the intelligent control method based on telepilot according to claim 1, is characterized in that, the sensor in described steps A is one or more in acceleration transducer, gyroscope, geomagnetic sensor or temperature sensor.

3. the intelligent control method based on telepilot according to claim 1, is characterized in that, described step B specifically comprises:

B1, smart machine carry out Signal Pretreatment to the action data sending, and obtain corresponding action waveforms;

B2, according to described action waveforms, action data is carried out to Data Segmentation, the action data being partitioned into is carried out to eigenwert extraction, extract the eigenwert of the described user action feature of sign;

B3, the eigenwert extracting is mated with default data model, according to matching result, identify user's identity.

4. the intelligent control method based on telepilot according to claim 1, is characterized in that, described step C specifically comprises:

C1, smart machine open watcher thread, detect user and the distance of smart machine and user's identity, judge user whether within the scope of monitoring and user whether belong to the eavesdropping target in default eavesdropping target's list;

C2, when user is within the scope of monitoring and while belonging to the eavesdropping target in eavesdropping target's list, gather userspersonal information and the operation information of user to smart machine;

C3, when user is not within the scope of monitoring or while not belonging to the eavesdropping target in eavesdropping target's list, continue to open watcher thread and monitor.

5. the intelligent control method based on telepilot according to claim 1, it is characterized in that, in described step D, by the mode with short message, phone, email or image, the userspersonal information who collects and user are sent to monitor terminal to the operation information of smart machine.

6. the intelligent control method based on telepilot according to claim 1, is characterized in that, in described step C, by described userspersonal information and user, to the operation information of smart machine, the data management mechanism by two-level cache manages and safeguards.

7. the intelligent monitor system based on telepilot, it is characterized in that, comprise the smart machine that telepilot and telepilot are controlled, described telepilot comprises that action data gathers sending module, and described smart machine comprises identification module, user profile acquisition module and user profile sending module;

Described action data gathers sending module, for when telepilot detects user's use, by being arranged on the action data of the sensor collection user remote controller on described telepilot, and described action data is carried out after denoising, be sent to the smart machine that described telepilot is controlled;

Described identification module, for the action data sending being carried out to filtering and eigenwert extraction process, mates the eigenwert extracting with default data model, identify user's identity;

Described user profile acquisition module, for detection of user whether within the scope of monitoring and user whether be monitored object, if described user, within the scope of monitoring and while being monitored object, gathers userspersonal information and the operation information of user to smart machine;

Described user profile sending module, for being sent to monitor terminal by the userspersonal information who collects and user to the operation information of smart machine.

8. the intelligent monitor system based on telepilot according to claim 7, is characterized in that, described identification module comprises:

Action waveforms acquiring unit, for the action data sending is carried out to Signal Pretreatment, obtains corresponding action waveforms;

Eigenwert extraction unit, for action data being carried out to Data Segmentation according to described action waveforms, carries out eigenwert extraction to the action data being partitioned into, and extracts the eigenwert of the described user action feature of sign;

Identification unit, for the eigenwert extracting is mated with default data model, identifies user's identity according to matching result.

9. the intelligent monitor system based on telepilot according to claim 7, is characterized in that, described user profile acquisition module comprises:

Monitor judging unit, be used for opening watcher thread, detect user and the distance of smart machine and user's identity, judge user whether within the scope of monitoring and user whether belong to the eavesdropping target in default eavesdropping target's list, when user is not within the scope of monitoring or while not belonging to the eavesdropping target in eavesdropping target's list, continue to open watcher thread and monitor judgement;

User profile collecting unit, for when user is within the scope of monitoring and while belonging to the eavesdropping target of eavesdropping target's list, gathers userspersonal information and the operation information of user to smart machine.

Images