CN110069025B - Control system for analyzing ecological complex information around computer - Google Patents

Abstract

The invention discloses a control system for analyzing ecological complex information around a computer, which comprises a first information receiving unit, an information classifying unit and an information analyzing unit, wherein the first information receiving unit is used for receiving and classifying information; the first information receiving unit converts an external control action into first complex information and transmits the first complex information to the information classifying unit so that the information classifying unit obtains second complex information; when the information classification unit can not analyze the second complex information, the second complex information is transmitted to the information analysis unit; the information analysis unit converts the second complex information into third complex information and analyzes the third complex information by using rapid computing power and huge data to generate servo-end control information; the information analysis unit transmits the control information of the servo end to the information classification unit; the invention can not only execute the control information sent by the information input equipment, but also send the complex information which can not be analyzed to the servo end for analysis, thereby obtaining the correct and rapid control information of the control end and effectively reducing the construction cost of the control end computing device.

Description

Control system for analyzing ecological complex information around computer

Technical Field

The present invention relates to a control system, and more particularly, to a control system for analyzing complex information of ecology around a computer, which requires a huge database as comparison data.

Background

With the technology changing day by day, the computer operation speed is faster and faster, and more functions can be achieved by matching hardware, so that people can not leave the environment of digital information.

Referring to fig. 1, a computer control apparatus, such as a keyboard, a mouse, etc., includes a computing apparatus 11, an input device 12 and a controlled apparatus 13, where the input device 12 generates an input end analog signal 101 after receiving an external information, and the external information is a control action of a user on the input device 12 to control the controlled apparatus 13.

The early input analog signal 101 can be directly analyzed by the input device 12 into an input control signal 121, the calculating device 11 directly forms a calculating control signal 111 and transmits the calculating control signal 111 to the controlled device 13, and the input control signal 121 and the calculating control signal 111 are the same signal.

Referring to fig. 2, another computer control apparatus, such as a user-defined button, which can be disposed on a keyboard or a mouse, includes a computing apparatus 11, an input device 12 and a controlled apparatus 13, wherein the input device 12 generates an input analog signal 101 after receiving an external message, and the external message is a control action of the user on the input device 12 to control the controlled apparatus 13.

Since the input end analog signal 101 is a signal customized by a user, the input device 12 cannot analyze the input end analog signal 101, so that the input device 12 directly converts the input end analog signal 101 into an input end transmission signal 122, the computing apparatus 11 receives the input end transmission signal 122 to generate a control end analog signal 102, and the control end analog signal 102 and the input end analog signal 101 are the same signal. The computing device 11 then analyzes the control end analog signal 102 to obtain a computing end control signal 111, and transmits the computing end control signal 111 to the controlled device 13.

Big data generally refers to traditional data processing applications that are not sufficient to process, or are complex data sets. Scientists often encounter limitations and obstacles in analytical processing due to the excessively large data sets in many fields, including meteorology, genomics, neural network physics, complex physical simulations, and biological and environmental research, to further obtain more accurate operational results.

For some research and profit institutions, it is feasible to construct hardware at considerable cost and collect huge amounts of data. However, for the general users, it is not possible to obtain the big data as the content of the database, and it is more difficult to construct the computer capable of running the big data at a great cost. Moreover, the general people do not use the big data frequently.

For example, the language identification requires a large amount of data to determine the approximate meaning of the received language information, and when the data size is not large enough, the language information is easily determined incorrectly. When the instruction cycle is not fast enough, the computer results cannot be obtained in time.

Therefore, how to construct a system for determining correct results with big data at a lower cost is an urgent task for those skilled in the art.

Disclosure of Invention

The present invention provides a control system for analyzing complex information of a computer environment, which is used for analyzing an external control behavior of a user and comprises a first information receiving unit, an information classifying unit and an information analyzing unit.

The first information receiving unit comprises at least one first information input device, the first information input device receives external control behaviors of the user and generates first complex information, and the first information input device converts the first complex information into first transmission information.

The information classification unit comprises a control end calculation device electrically connected with the first information input equipment, the control end calculation device is provided with a complex information classification module, the first information input equipment transmits the first transmission information to the control end calculation device, the complex information classification module analyzes the first transmission information to obtain second complex information, and then the second complex information is converted into control end transmission information.

The information analysis unit comprises a servo end calculation device electrically connected with the control end calculation device, the control end calculation device transmits the control end transmission information to the servo end calculation device, the servo end calculation device obtains third complex information after analyzing the control end transmission information, and then analyzes the third complex information to obtain servo end control information.

The invention also provides a method for analyzing the third complex information to obtain the servo control information.

Another technical means of the present invention is that the server-side computing device further comprises a server-side database module for providing the complex information analyzing module to analyze the third complex information.

The invention also provides a technical means that the servo-end computing device further comprises a complex information conversion module, and the complex information conversion module converts the third complex information into complex digital information so as to provide the complex information analysis module for analysis.

The present invention also provides a servo control executing module, wherein the servo control executing module is configured to transmit the servo control information to the control end computing device, and execute the servo control information and generate a control end control information.

Another technical means of the present invention is that the control system for analyzing the ecological complex information around the computer further comprises a controlled unit including a controlled device electrically connected to the control end computing device, and the control end computing device transmits the control end control information to the controlled device.

The present invention also provides a technical solution, wherein the first information input device further sends a first control message to the control end computing device, and the control end computing device further has a first control executing module, and the first control executing module executes the first control message.

The computing device at the control end further comprises a first noise elimination module, the computing device at the servo end further comprises a second noise elimination module, the first noise elimination module eliminates the noise of the first complex information to become the second complex information, and the second noise elimination module eliminates the noise of the second complex information to become the third complex information.

Another technical means of the present invention is that the control system for analyzing the ecological complex information around the computer further comprises a second information receiving unit, which includes at least one second information input device electrically connected to the control end computing device, and the second information input device outputs a second control information to the control end computing device.

The present invention also provides a control information integration module for integrating the first control information, the second control information and the servo-end control information.

The invention has the beneficial effects that the first information input equipment transmits the first transmission information to the control end counting device, the control end counting device directly restores the first complex information by the second complex information and then transmits the transmission information to the servo end computing device by the control end, the servo end computing device restores the first complex information by the third complex information and then carries out big data analysis, so that the servo end computing device obtains the servo end control information, a system can know the significance of the external control behavior of the user, the servo end computing device can provide a plurality of control end computing devices to execute big data analysis, and the hardware requirement and the instruction period of the control end computing devices can be reduced.

Drawings

FIG. 1 is a schematic diagram of an apparatus illustrating a known computer-controlled apparatus;

FIG. 2 is a schematic diagram of an apparatus illustrating another known computer-controlled apparatus;

FIG. 3 is a schematic diagram of an apparatus for analyzing the ecological complex information around a computer according to a first preferred embodiment of the present invention;

FIG. 4 is a schematic diagram of an apparatus illustrating aspects of the information transmission of the first preferred embodiment;

FIG. 5 is a device diagram illustrating a control-side computing device according to the first preferred embodiment;

FIG. 6 is a device diagram illustrating a server-side computing device according to the first preferred embodiment;

FIG. 7 is a device diagram illustrating a complex information parsing module according to the first preferred embodiment;

FIG. 8 is a schematic diagram of an apparatus for analyzing the ecological complex information around a computer according to a second preferred embodiment of the present invention;

FIG. 9 is a device diagram illustrating a console computing device according to the second preferred embodiment;

FIG. 10 is a device diagram illustrating a server-side computing device according to the second preferred embodiment;

FIG. 11 is a schematic diagram of an apparatus for analyzing the ecological complex information around a computer according to a third preferred embodiment of the present invention;

FIG. 12 is a device diagram illustrating a control-side computing device according to the third preferred embodiment;

fig. 13 is a schematic device diagram illustrating a control information integration module according to the third preferred embodiment.

Symbolic illustration in the drawings:

101 input end analog signal; 102, simulating a signal at a control end; 11 a computing device; 111 calculating end control signals; 12 an input device; input end 121 is a control signal; the input end 122 transmits signals; 13 a controlled device; 3 a first information receiving unit; 301 first complexity information; 302 first transmission information; 303 first control information; 31 a first information input device; 4 a second information receiving unit; 401 second control information; 41 a second information input device; 5 an information classification unit; 501 second complex information; 502, the control end transmits information; 503 control end control information; 51 control end computing means; 511 a complex information classification module; 512 servo control execution modules; 513 a first control execution module; 514 a first noise cancellation module; 515 control information integration module; 6, an information analysis unit; 601 third complex information; 602 servo control information; 603 complex digital information; 61 a servo-end computing device; 611 complex information analysis module; 612 servo end database module; 613 a complex information conversion module; 614 second noise cancellation module; 7 a controlled unit; 71 controlled devices.

Detailed Description

The features and technical content of the related applications of the present invention will become apparent from the following detailed description of the preferred embodiments, which is to be read in connection with the accompanying drawings. Before proceeding with the detailed description, it should be noted that like components are referred to by the same reference numerals.

Referring to fig. 3, 4, 5 and 6, a first preferred embodiment of a control system for analyzing ecological complex information around a computer according to the present invention is used for analyzing an external control behavior of a user, and the first preferred embodiment includes a first information receiving unit 3, an information classifying unit 5, an information analyzing unit 6 and a controlled unit 7.

In the first preferred embodiment, the user controls the behavior language externally, and the system can analyze the meaning of the language uttered by the user and then convert the meaning into an instruction to perform the operation of the program. In practice, the external control behavior of the user may be physical action or other analysis requiring big data, but should not be limited thereto.

The first information receiving unit 3 includes at least one first information input device 31, the first information input device 31 receives the external control action of the user and generates a first complex information 301, and the first information input device 31 converts the first complex information 301 into a first transmission information 302.

The first information input device 31 is a peripheral hardware of the computer, and can receive the ecological change of the computer periphery, namely the external control behavior of the user. In the first preferred embodiment, the first information input device 31 is an acoustic wave receiving component, which can receive the acoustic wave emitted by the user and convert the acoustic wave into the first complex information 301, the first complex information 301 is an analog signal, the first information input device 31 converts the first complex information 301 into the first transmission information 302, and the first transmission information 302 is a digital signal, i.e. a Data packet (also called a packet), which is mainly used for information transmission. Since the conversion of analog information into digital information is a known technique, it is not described in detail herein.

The information classifying unit 5 includes a control-side computing device 51 electrically connected to the first information input device 31, the control-side computing device 51 has a complex information classifying module 511, the first information input device 31 transmits the first transmission information 302 to the control-side computing device 51, the complex information classifying module 511 analyzes the first transmission information 302 to obtain a second complex information 501, and then converts the second complex information 501 into a control-side transmission information 502.

In the first preferred embodiment, the control-side computing device 51 is a personal-side computing device, the control-side computing device 51 installs a driver to exchange information with peripheral hardware of the computer correctly, and installs at least one peripheral running program to apply the peripheral hardware of the computer, and the complex information classification module 511 is an application program of the first information input device 31.

Since the complex information classifying module 511 is an application program of the first information input device 31, so that the purpose of the first transmission information 302 can be clearly understood, the complex information classifying module 511 converts the first transmission information 302 into the second complex information 501, since it is a known technology that simply converts digital information into analog information, it is not described in detail herein.

In the first preferred embodiment, the first complex information 301 and the second complex information 501 have the same data, the complex information classification module 511 knows that a large number of comparison data and instruction cycles are required for analyzing the second complex information 501, the control-end computing device 51 cannot analyze the second complex information 501, the complex information classification module 511 converts the second complex information 501 into the control-end transmission information 502, and transmits the control-end transmission information 502 to the information analysis unit 6.

The information analysis unit 6 includes a server computing device 61 electrically connected to the control computing device 51, and the server computing device 61 has a complex information analysis module 611, a server database module 612, and a complex information conversion module 613.

In the first preferred embodiment, the server computing device 61 is a device with powerful computing capability, and can provide network service. The complex information analysis module 611 is an application program of the server computing device 61, and is used for computing the computer peripheral ecology received by the first information input device 31. The server database module 612 is a powerful database and can store large data.

The control-side computing device 51 transmits the control-side transmission information 502 to the servo-side computing device 61, and the servo-side computing device 61 analyzes the control-side transmission information 502 to obtain third complex information 601, and then analyzes the third complex information 601 to obtain servo-side control information 602.

In the first preferred embodiment, the third complex information 601 is identical to the first complex information 301 and the second complex information 501. The complexity information parsing module 611 is configured to analyze the third complexity information 601 to obtain the servo-end control information 602. The server database module 612 is used for providing the complex information parsing module 611 to analyze the third complex information 601.

Referring to fig. 7, the complex information conversion module 613 converts the third complex information 601 into a complex digital information 603 for analysis by the complex information parsing module 611. Preferably, the complex information parsing module 611 is selected from operation processes such as Neural Net (Neural Net), Bayesian Logic (Bayesian Logic), Kalman filter (Kalman filter), Genetic algorithm (Genetic algorithm), etc., and in practice, the information processing method of the complex information conversion module 613 may use other theoretical calculation or theoretic calculation, which should not be limited thereto.

The complex information analyzing module 611 analyzes the complex digital information 603 and then compares the complex digital information with the big data in the server database module 612 to obtain the correct server control information 602, and in actual implementation, the complex information analyzing module 611 may use the analyzed information as the server control information 602, which should not be limited thereto.

In the first preferred embodiment, the control-side computing device 51 further has a servo control execution module 512, the servo-side computing device 61 transmits the servo-side control information 602 to the control-side computing device 51, and the servo control execution module 512 executes the servo-side control information 602 and generates a control-side control information 503.

The controlled unit 7 includes a controlled device 71 electrically connected to the control-side computing device 51, and the control-side computing device 51 transmits the control-side control information 503 to the controlled device 71. Preferably, the controlled device 71 is a peripheral hardware of a computer electrically connected to the control-side computing device 51, and is controlled by the control-side control information 503, and in practical implementation, the controlled device 71 may also be another application program of the control-side computing device 51, which should not be limited thereto.

It should be noted that when the complex information analyzing module 611 generates the servo-end control information 602, it can also work in the servo-end computing device 61, or connect to other servers to analyze with other data, and then transmit the analysis result to the control-end computing device 51, so as to reduce the work of the control-end computing device 51.

In addition to the first preferred embodiment, the first information input device 31 can also be an image capturing device for capturing the gesture of the user, the first information input device 31 converts the image of the gesture into the first complex information 301 and transmits the first transmission information 302 to the control end computing device 51, the control end computing device 51 receives the first transmission information 302 to generate the second complex information 501, since the gesture changes are complex and the general computer cannot analyze correctly, the control end computing device 51 transmits the control end transmission information 502 to the servo end computing device 61, and the servo end computing device 61 generates the third complex information 601.

The server-side computing device 61 not only has powerful computing functions, but also has a server-side database module 612 capable of storing large data, and can provide a plurality of server services for the controller-side computing device 51, so as to correctly analyze the third complex information 601, i.e. correctly determine the gesture of the user, and then generate the server-side control information 602, and preferably, the server-side computing device 61 transmits the server-side control information 602 to the controller-side computing device 51, so that the controller-side computing device 51 can execute a specific application program. For example, the console side computing device 51 may control the volume of speakers, the movement of a mouse, the control of games, the operation of a cooling system, and the like.

Referring to fig. 8, 9 and 10, a second preferred embodiment of a control system for analyzing ecological complex information around a computer according to the present invention is substantially the same as the first preferred embodiment, and the same points are not described in detail herein, except that the first information input device 31 further sends a first control message 303 to the control-side computing device 51, the control-side computing device 51 further has a first control executing module 513, and the first control executing module 513 executes the first control message 303.

In the second preferred embodiment, the first information input device 31 is a keyboard device with a sound receiving component, the first information input device 31 can send the first transmission device (sound wave) converted by the first complex device to the control-end computing device 51, and can further send the first control information 303 (keyboard) to the control-end computing device 51, and in practical implementation, the first information input device 31 can be other compound information input devices, which should not be limited thereto.

The first control executing module 513 of the control-side computing device 51 can directly execute the first control information 303, and the complex information classifying module 511 of the control-side computing device 51 transmits the information that cannot be analyzed to the servo-side computing device 61.

The control-side computing device 51 further has a first noise-removing module 514, the servo-side computing device 61 further has a second noise-removing module 614, the first noise-removing module 514 removes the noise of the first complex information 301 to become the second complex information 501, and the second noise-removing module 614 removes the noise of the second complex information 501 to become the third complex information 601.

In the second preferred embodiment, the second complex information 501 with noise removed and the first complex information 301 with noise removed are different, the third complex information 601 with noise removed and the second complex information 501 are different, so that the third complex information 601 analyzed by the servo-side computing device 61 can be simpler, and the noise removal information is a known simple technique, the first noise removal module 514 and the second noise removal module 614 do not increase the working pressure of the control-side computing device 51 and the servo-side computing device 61, and the data analyzed by the servo-side computing device 61 can be simpler.

It is noted that the first noise elimination module 514 can partially parse the first complex information 301, extract information that can be parsed, and pass information that cannot be parsed to the complex information classification module 511 to generate the second complex information 501. The second noise elimination module 614 can partially analyze the second complex information 501, extract information that can be analyzed, and send information that cannot be analyzed to the complex information analysis module 611 for analysis.

Referring to fig. 11, 12 and 13, a third preferred embodiment of a control system for analyzing ecological complex information around a computer according to the present invention is shown, and the third preferred embodiment is substantially the same as the second preferred embodiment, and the same points are not described in detail herein, except that the third preferred embodiment further includes a second information receiving unit 4.

The second information receiving unit 4 includes at least one second information input device 41 electrically connected to the control-side computing device 51, and the second information input device 41 outputs a second control information 401 of the control-side computing device 51 to the control-side computing device 51.

The second information input device 41 is selected from a keyboard, a mouse, a touch pad, an earphone, a sound box, a water cooling system, a cooling fan, a power driver, a memory chip, and other components capable of directly outputting the second control information 401, and the control end computing device 51 can directly execute the second control information 401 without analyzing the second control information 401.

The server-side computing device 61 further has a control information integration module 515 for integrating the first control information 303, the second control information 401, and the server-side control information 602.

It should be noted that the control information integration module 515 may also integrate the plurality of first control information 303, the plurality of second control information 401, and the plurality of servo control information 602, respectively, for example, an instruction may be issued to the computer by an early stage of a keyboard button cooperating with a mouse button.

In the present invention, when the first information input device 31 is an image capturing device and a sound capturing device, the complex information classifying module 511 converts the first complex information 301 of the two first information input devices 31 into the second complex information 501, the servo control device 61 forms two third complex information 601, the complex information analyzing module 611 analyzes the two third complex information 601 to obtain two servo control information 602, and after the control computing device 51 obtains the two servo control information 602, the control information integrating module 515 integrates to form a control information 503.

The first information input device 31 may also be an electronic gyroscope sensing component disposed in a mouse, and is used for detecting an inclination angle of the mouse and sending the control information 503 to a game program operated in the control end computing device.

In addition, the control-side computing device 51 can also send the control-side control information 503 to the second control information 401, for example, when the computer is fully loaded for a long time, the working temperature will gradually increase, and the user can directly control the operation of the cooling system through gestures or reduce the workload of the computer until the working temperature returns to normal.

From the above description, the control system for analyzing the ecological complex information around the computer of the present invention has the following effects:

firstly, the construction cost of the personal side is low:

the control end computing device 51 is a personal computer, and data operation and comparison of big data are not required in the present invention, so that it is not necessary to consume a large amount of cost to construct a high-efficiency computer device, and it is not necessary to store big data in a large-capacity storage device, and the construction cost of the control end computing device 51 is low.

Secondly, obtaining correct and quick results:

the server-side computing device 61 is a high-efficiency server device and has a server-side database module 612 capable of storing large data, and based on the current fast network information transmission speed, the server-side computing device 61 can obtain fast and correct server-side control information 602 and transmit the same to the control-side computing device 51.

Thirdly, analyzing the surrounding ecology of the computer:

the first information input device 31 can convert the ecology around the computer, such as the change of sound, the change of image, the change of air flow, the change of sunshine, the change of temperature, the change of vibration, etc., into the first complex information 301, and the servo-end computing device 61 can analyze the data to obtain the correct response and result.

In summary, the control-end computing device 51 of the present invention not only can directly execute the first control information 303 and the second control information 401 sent by the first information input device 31 and the second information input device 41, but also can send the first complex information 301 that cannot be analyzed to the servo-end computing device 61 for analysis, so as to obtain the correct and fast control-end control information 503, thereby effectively reducing the construction cost of the control-end computing device 51, enabling the user to have the ability to purchase the control-end computing device 51 capable of analyzing the environmental changes of the computer, and thus the objective of the present invention can be achieved.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention should not be limited thereby, and all the simple equivalent changes and modifications made in the claims and the description of the present invention are within the scope of the present invention.

Claims (8)

1. A control system for analyzing ecological complex information around a computer, for analyzing an external control action of a user, comprising:

a first information receiving unit, including at least one first information input device, the first information input device receiving the external control action of the user and generating a first complex information, the first information input device converting the first complex information into a first transmission information;

the information classification unit comprises a control end calculation device electrically connected with the first information input equipment, the control end calculation device is provided with a complex information classification module, the first information input equipment transmits the first transmission information to the control end calculation device, the complex information classification module analyzes the first transmission information to obtain second complex information, then the second complex information is converted into control end transmission information, and the first information input equipment also sends out first control information to the control end calculation device;

the second information receiving unit comprises at least one second information input device electrically connected with the control end computing device, and the second information input device outputs second control information to the control end computing device; and

an information analysis unit, including a servo end computing device electrically connected with the control end computing device, the control end computing device transmitting the control end transmission information to the servo end computing device, the servo end computing device analyzing the control end transmission information to obtain a third complex information, and analyzing the third complex information to obtain a servo end control information, the servo end computing device also having a control information integration module for integrating the first control information, the second control information and the servo end control information.

2. The system of claim 1, wherein the server-side computing device comprises a complex information analysis module for analyzing the third complex information to obtain the server-side control information.

3. The control system for analyzing ecological complex information around computers as claimed in claim 2, wherein the server-side computing device further has a server-side database module for providing the complex information analyzing module to analyze the third complex information.

4. The system of claim 3, wherein the server-side computing device further comprises a complex information transformation module, the complex information transformation module transforms the third complex information into a complex digital information for analysis by the complex information analysis module.

5. The system of claim 4, wherein the control-end computing device further comprises a servo-control execution module, the servo-end computing device transmits the servo-end control information to the control-end computing device, and the servo-control execution module executes the servo-end control information and generates a control-end control information.

6. The control system for analyzing ecological complex information around computers as claimed in claim 5, further comprising a controlled unit including a controlled device electrically connected to the control end computing device, the control end computing device transmitting the control end control information to the controlled device.

7. The system of claim 6, wherein the control-end computing device further comprises a first control execution module, and the first control execution module executes the first control information.

8. The system of claim 7, wherein the control-side computing device further comprises a first noise-removing module, the servo-side computing device further comprises a second noise-removing module, the first noise-removing module removes noise from the first complex information to obtain the second complex information, and the second noise-removing module removes noise from the second complex information to obtain the third complex information.

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