CN116469236B - Multi-task cooperative processing system and method for sensor network - Google Patents

Abstract

The invention relates to the field of data transmission, in particular to a multi-task cooperative processing system and a multi-task cooperative processing method of a sensing network, wherein the system comprises a monitor, a sensor and a sensor, wherein the monitor is arranged in a room to be monitored and used for monitoring the temperature and the humidity of the room and acquiring temperature information and humidity information; the information collector is used for acquiring the service life, the number of users and the age of the users, acquiring the average age according to the number of the users and the age of the users and acquiring a dangerous value according to the service life and the environmental value; the transfer server is used for generating alarm signals according to the dangerous value and the average age, and the alarm signals comprise a first alarm signal and a second alarm signal, so that the normal work of heating facilities is ensured, and the maintenance work efficiency and the user service quality are improved.

Description

Multi-task cooperative processing system and method for sensor network

Technical Field

The invention relates to the field of data transmission, in particular to a system and a method for multitasking collaborative processing of a sensing network.

Background

When the gas heating equipment is used, a fault code with significance such as insufficient gas, accidental flameout, incapability of normal combustion and the like often appears, however, as a sensor for detecting the gas pressure is not arranged in the gas heating equipment, a user cannot find out the specific reasons of the fault, and can often directly dial a maintenance phone in a product guarantee book to report and repair. If the failure occurs due to insufficient fuel gas, after-sales resources are wasted, and the public praise of the users of the products is affected. Therefore, the intelligent repair system is indispensable to the gas heating equipment.

Patent document with publication number CN207351637U discloses a solar electric heating equipment alarm device, including first power, switch, insulation body, slide rheostat, water tank, electromagnetic relay and alarm device, insulation body locates in the water tank, insulation body with be equipped with the insulator spindle between the slide rheostat, insulation body pass through the insulator spindle with the slide rheostat links to each other, first power with slide rheostat electricity is connected, slide rheostat with electromagnetic relay electricity is connected, electromagnetic relay with alarm device links to each other, the switch is used for controlling first power, solar electric heating equipment alarm device can in time feed back the problem of leaking in the water tank, and through alarm device can remind heating equipment, make the user repairable.

However, in the prior art, the problems generated by the heating equipment cannot be timely reported and repaired, false report information is easy to generate, the maintenance efficiency is low, and the service quality of users is poor.

Disclosure of Invention

Therefore, the invention provides a multi-task cooperative processing system and a multi-task cooperative processing method for a sensing network, which can solve the problems of false alarm information generation and low maintenance efficiency.

In order to achieve the above object, an aspect of the present invention provides a multi-task cooperative processing system of a sensor network, including:

the monitor is arranged in the room to be monitored and used for monitoring the temperature and the humidity of the room to be monitored and acquiring the temperature information and the humidity information of the room to be monitored;

the information collector is connected with the monitor and used for acquiring the service life, the number of users and the age of the users and acquiring the average age according to the number of the users and the age of the users;

the warning device is connected with the monitor and used for acquiring an environment value according to the temperature information and the humidity information and acquiring a dangerous value according to multiplication of the service life Y and the environment value G;

the reactor is connected with the warning device and is used for adjusting the service life according to the dangerous value;

the safety device is connected with the reactor and is used for determining a safety coefficient according to the service life;

the transfer server is connected with the warning device and used for generating warning signals according to the average age and the danger value, and the warning signals comprise a first warning signal and a second warning signal;

the monitor is internally provided with a temperature sensing module, a humidity sensing module and a statistics module;

the temperature sensing modules are n temperature sensing units which are vertically arranged at equal intervals, and are arranged on the wall of the room to be monitored to obtain the temperature ti of heating equipment in the room to be monitored, wherein i is the number of the temperature sensing units from bottom to top, and the value is an integer less than or equal to n;

the humidity sensing module is two humidity sensing units which are respectively arranged on the ceiling and the floor of the room to be monitored and used for acquiring the humidity Wt of the ceiling and the humidity Wd of the floor;

the statistical module is connected with the temperature sensing module and the humidity sensing module, and determines the temperature information t according to the numerical value of each temperature sensing unit;

obtaining the humidity information W according to the ceiling humidity and the floor humidity;

the information collector is internally provided with a year module, a user information module and a calculation module;

the service life module is used for acquiring the service life Y;

the user information module is connected with the age module and used for recording the age Ox of the user, wherein x is the number of the age of the user according to the age size and takes the value of an integer smaller than the number N of the user;

the computing module is connected with the user information module and used for obtaining the average age Op according to the age of the user;

the service life module is provided with a delivery unit for determining the maximum service life Yz, a time determining unit for obtaining the continuous service life L and a resetting unit for obtaining the resetting times C when obtaining the service life Y;

and obtaining the service life Y according to the maximum service life, the continuous service time and the reset times.

Further, a preset module, a prediction module and a determination module are arranged in the alerter, wherein,

the presetting module presets an influence factor K;

the prediction module is used for obtaining a predicted environment value according to the influence factor K, the temperature information and the humidity information;

the determining module is used for determining the environment value G according to the predicted environment value.

Further, an analog unit and a test unit are arranged in the prediction module;

the simulation unit is used for obtaining an environment comprehensive value H according to the temperature information and the humidity information;

the test unit is used for predicting an environment value Hy according to the influence factor and the environment integrated value.

Further, the determining module is provided with a difference unit, a receiving unit and a determining unit;

the difference unit is internally provided with an allowable difference Hc, and an environmental difference h is obtained according to the environmental comprehensive value and the allowable difference; the adjusting unit is used for adjusting the influence factor K according to the allowable difference value Hc and the environment difference value h, and acquiring a final influence factor K' according to the influence factor, the allowable difference value and the environment difference value;

the receiving unit is used for receiving the final influence factor K';

the determining unit is configured to obtain the environmental value G according to the final influence factor and the predicted environmental value.

Further, the alerter is further provided with:

the alarm module is used for acquiring the dangerous value D according to the service life and the environment value;

and the sending module is used for sending the dangerous value D to the transfer server.

Further, the reactor is provided with:

the reaction determining module is used for determining the final service life Y1 according to the dangerous value D;

and the reaction cancellation module calculates the dangerous utilization rate P according to the final service life Y1 and the dangerous value D, and sets P=Y1/D.

Further, the safety coefficient is determined by a data acquisition module and a safety control module which are arranged in the safety device, wherein,

the data acquisition module compares the dangerous utilization rate P with a preset dangerous utilization rate P0, determines whether the dangerous utilization rate P reaches the standard according to the comparison result,

if P is less than P0, the data acquisition module judges that the dangerous utilization rate does not reach the standard;

if P is more than or equal to P0, the data acquisition module judges that the dangerous utilization rate reaches the standard;

when the data acquisition module judges that the dangerous utilization rate P does not reach the standard, the safety control module acquires the service life Y and determines whether the equipment is abnormal or not according to the comparison result of the service life Y and the final service life Y1,

if Y is less than or equal to Y1, the safety control module preliminarily judges that the equipment is normal;

if Y is more than Y1, the safety control module judges that the equipment is abnormal;

the safety control module checks whether abnormal data exist when the equipment is initially judged to be normal, calculates a utilization rate difference delta P of the dangerous utilization rate P and a preset dangerous utilization rate P0 when the abnormal data exist, selects a corresponding adjusting coefficient to adjust the transmission rate V according to a comparison result of the utilization rate difference and the preset utilization rate difference, and the access control module sets the adjusted transmission rate as V ', sets V' =V×Kvi, wherein Kvi is a safety coefficient, and 0.5 < Kvi < 1.

Further, the transfer server is provided with:

the judging service module is used for generating a judging signal according to the average age;

generating a second judgment signal when the average age meets the first judgment condition;

when the average age does not meet the first judgment condition, generating a first judgment signal;

the first judgment condition is that Op is more than or equal to 60;

the signal generation service module is used for generating an alarm signal according to the judging signal and the dangerous value;

when a first judgment signal is received, if the dangerous value meets a second judgment condition, generating the first alarm signal;

when the first judgment signal is received, if the dangerous value does not meet a second judgment condition, generating a second alarm signal;

and when the second judgment signal is received, generating the second alarm signal.

On the other hand, the invention also provides a multi-task cooperative processing method of the sensing network, which comprises the following steps:

monitoring the temperature and humidity of a room to be monitored, and acquiring temperature information and humidity information of the room to be monitored;

acquiring service life, the number of users and the age of the users, and acquiring average age according to the number of the users and the age of the users;

acquiring an environment value according to the temperature information and the humidity information and acquiring a dangerous value according to multiplication of the service life and the environment value;

adjusting the service life according to the dangerous value;

determining a safety coefficient according to the service life;

generating an alarm signal according to the average age and the danger value, wherein the alarm signal comprises a first alarm signal and a second alarm signal;

when monitoring the temperature and humidity of a room to be monitored, a monitor is arranged, and a temperature sensing module, a humidity sensing module and a statistics module are arranged in the monitor;

the temperature sensing modules are n temperature sensing units which are vertically arranged at equal intervals, and are arranged on the wall of the room to be monitored to obtain the temperature ti of heating equipment in the room to be monitored, wherein i is the number of the temperature sensing units from bottom to top, and the value is an integer less than or equal to n;

the humidity sensing module is two humidity sensing units which are respectively arranged on the ceiling and the floor of the room to be monitored and used for acquiring the humidity Wt of the ceiling and the humidity Wd of the floor;

the statistical module is connected with the temperature sensing module and the humidity sensing module, and determines the temperature information t according to the numerical value of each temperature sensing unit;

obtaining the humidity information W according to the ceiling humidity and the floor humidity;

when the average age is obtained according to the number of users and the age of the users, setting a year module, a user information module and a calculation module in an information collector;

the service life module is used for acquiring the service life Y;

the user information module is connected with the age module and used for recording the age Ox of the user, wherein x is the number of the age of the user according to the age size and takes the value of an integer smaller than the number N of the user;

the computing module is connected with the user information module and used for obtaining the average age Op according to the age of the user;

the service life module is provided with a delivery unit for determining the maximum service life Yz, a time determining unit for obtaining the continuous service life L and a resetting unit for obtaining the resetting times C when obtaining the service life Y;

and obtaining the service life Y according to the maximum service life, the continuous service time and the reset times.

Further, obtaining an environmental value from the temperature information and the humidity information includes:

presetting an influence factor K;

acquiring a predicted environment value according to the influence factor K, the temperature information and the humidity information;

and determining the environment value G according to the predicted environment value.

Compared with the prior art, the multi-task cooperative processing system of the sensing network has the beneficial effects that the temperature and the humidity of a room are monitored through the monitor, the purpose of acquiring temperature information and humidity information is achieved, the service life, the number of users and the age of the users are acquired through the information collector, and the average age of the users is acquired according to the number of the users and the age of the users; the function of acquiring the environment value according to the temperature information and the humidity information is realized through the warning device; the dangerous value is obtained according to the service life and the environment value through the alarm; the alarm signal is generated by the transfer server according to the dangerous value and the average age, and comprises a first alarm signal and a second alarm signal, and the repair request is sent to the transfer server or the maintenance terminal according to the judging result, so that the emergency degree of the repair signal is judged, the repair request which is possibly misreported is extracted, and the maintenance work efficiency is improved.

In particular, by acquiring the temperature information and the humidity information, the purpose of monitoring the heating state and the use environment of the heating equipment in real time is achieved, and the safety of the heating equipment is improved.

In particular, the information of the average age of the user is acquired through the information collector, and the service direction is adjusted through the information of the age, so that the service quality of the user is improved pertinently.

In particular, by setting the maximum period, the heating equipment is ensured to be always in the safe working time, and by recording the continuous use time length and the resetting times, the time is ensured to be recorded without omission.

In particular, the environmental impact factor is adjusted by predicting the environmental value, so that the accuracy of the environmental value determination is ensured.

In particular, when the trend of reporting the repair request is displayed in the predicted environment, the reporting repair request which is possibly misreported is reconfirmed, so that the environment value is obtained, the environment value is regulated through the environment influence factor, the accuracy of the environment value is ensured, the accuracy of maintenance work is improved through a secondary confirmation mechanism, and the waste of maintenance resources is reduced.

In particular, the maintenance work is ensured to be carried out under the condition of ensuring the user through the determination of the final service life, and the heating equipment with high dangerous value and potential safety hazard is favorably and timely treated.

In particular, the average age and the dangerous value are evaluated by setting the judging conditions, and on the basis of the larger average age, the dangerous value is not considered, the alarm signal is directly generated for maintenance, so that the user service quality of the user group with the larger average age is ensured, and the maintenance efficiency is ensured.

Drawings

Fig. 1 is a schematic structural diagram of a multi-task cooperative processing system of a sensor network according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a monitor according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an information collector according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an alerter according to an embodiment of the present invention;

fig. 5 is a flow chart of a method for multi-task cooperative processing of a sensor network according to an embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1, a multi-task cooperative processing system of a sensor network provided in an embodiment of the present invention includes:

the monitor 110 is arranged in the room to be monitored, and is used for monitoring the temperature and the humidity of the room and acquiring temperature information and humidity information;

an information collector 120 connected to the monitor 110 for obtaining the service life, the number of users and the age of the users, and obtaining the average age according to the number of users and the age of the users;

an alarm 130 connected to the monitor 110, for obtaining an environment value according to the temperature information and the humidity information and obtaining a dangerous value according to multiplication of the service life Y and the environment value G;

a reactor 140 connected to the alarm 130 for adjusting the service life according to the risk value;

a safety device 150 connected to the reactor 140 for determining a safety factor according to the service life;

the transfer server 160 is connected to the alarm 130, and is configured to generate an alarm signal according to the average age and the risk value, where the alarm signal includes a first alarm signal and a second alarm signal.

Specifically, in the embodiment of the present invention, the temperature and humidity of the room are monitored by the monitor 110, so as to achieve the purpose of acquiring temperature information and humidity information, and the service life, the number of users and the age of the users are acquired by the information collector 120, so that the average age of the users is acquired according to the number of users and the age of the users; the function of acquiring the environment value according to the temperature information and the humidity information is realized through the warning device 130, and the dangerous value is acquired according to the service life and the environment value; the transfer server 160 generates an alarm signal according to the danger value and the average age, the alarm signal comprises a first alarm signal and a second alarm signal, and sends the repair request to the transfer server 160 or the maintenance terminal according to the judging result, so that the emergency degree of the repair signal is judged, the repair request which is possibly misreported is extracted, and the efficiency of maintenance work is improved.

Referring to fig. 2, a schematic structural diagram of a monitor according to an embodiment of the present invention is shown, where:

the temperature sensing modules 210 are n temperature sensing units which are vertically arranged at equal intervals, and are installed on the wall of the room to be monitored to obtain the temperature and the temperature information ti of the heating equipment of the room to be monitored, wherein i is the number of the temperature sensing units from bottom to top, and the value is an integer smaller than n;

the humidity sensing module 220 is two humidity sensing units, and is respectively installed on the ceiling and the floor of the room to be monitored, so as to obtain the humidity Wt of the ceiling and the humidity Wd of the floor;

a statistics module 230, coupled to the temperature sensing module 210 and the humidity sensing module 220, for obtaining the temperature information t according to formula (1),

（1）；

the humidity information W is obtained according to formula (2),

（2）。

specifically, in the embodiment of the invention, the purpose of monitoring the heating state and the use environment of the heating equipment in real time is achieved by acquiring the temperature information and the humidity information, so that the safety of the heating equipment is improved.

Referring to fig. 3, a schematic structural diagram of an information collector according to an embodiment of the present invention is shown, where the information collector is provided with:

a year module 310 for obtaining a service life Y;

the user information module 320 is connected with the age module and is used for recording the age Ox of the user, wherein x is the number of the age of the user according to the age size and takes the value as an integer smaller than the number N of the user;

a calculation module 330, connected to the user information module, for obtaining the average age Op according to formula (3),

（3）。

specifically, the use limit is set to be five years to ten years or more according to the safety specifications of the heating equipment when shipped.

Specifically, in the embodiment of the invention, the information of the average age of the user is acquired through the information collector, and the service direction is adjusted through the information of the age, so that the service quality of the user is improved pertinently.

Specifically, when the service life Y is acquired, a factory unit is arranged in the service life module to determine the maximum service life Yz, a time determining unit is used for acquiring continuous service time L and a resetting unit is used for acquiring resetting times C by utilizing the life module;

obtaining the service life Y according to a formula (4);

（4）。

specifically, in the embodiment of the invention, the heating equipment is ensured to be always in the safe working time by setting the maximum age, and the time is ensured to be recorded without omission by recording the continuous use duration and the resetting times.

Referring to fig. 4, a schematic structural diagram of an alerter according to an embodiment of the present invention is provided, where:

a preset module 410, in which an influence factor K is preset;

the prediction module 420 is configured to obtain a predicted environment value according to the influence factor K, the temperature information and the humidity information;

a determining module 430 is configured to determine the environmental value G according to the predicted environmental value.

Specifically, the prediction module 420 is provided with:

the simulation unit is used for obtaining an environment comprehensive value H according to a formula (5);

the test unit is used for obtaining a predicted environment value Hy according to a formula (6);

（5）；

（6）。

specifically, in the embodiment of the invention, the prediction of the environment value is realized through the preset influence factor, so that the certainty of the acquisition of the environment value is improved.

Specifically, when the environment value is acquired, the determining module is provided with:

the difference unit is internally provided with an allowable difference Hc and obtains an environment difference h according to a formula (7);

an adjusting unit for adjusting the influence factor K according to the allowable difference Hc and the environmental difference h, obtaining a final influence factor K' according to formula (8),

a receiving unit configured to receive the final influencing factor K';

a determining unit to obtain the environmental value G according to formula (9);

（7）；

（8）；

（9）。

specifically, in the embodiment of the invention, when the trend of reporting the repair request is displayed in the predicted environment, the reporting repair request which is possibly misreported is reconfirmed, so that the environment value is obtained, the accuracy of the environment value is ensured by adjusting the environment influence factor, the accuracy of maintenance work is improved by a secondary confirmation mechanism, and the waste of maintenance resources is reduced.

Specifically, the alerter is further provided with:

the alarm module is used for acquiring the dangerous value D according to a formula (10);

the sending module is used for sending the dangerous value D to the transfer server;

（10）；

the reactor is provided with:

the reaction determining module is used for determining the final service life Y1 according to the dangerous value D;

and the reaction cancellation module calculates the dangerous utilization rate P according to the final service life Y1 and the dangerous value D, and sets P=Y1/D.

Specifically, in the embodiment of the invention, the maintenance work is ensured to be carried out under the condition of ensuring the user through the determination of the final service life, so that the heating equipment with high dangerous value and potential safety hazard can be treated in time.

Specifically, the data acquisition module and the safety control module arranged in the safety device are used for determining the safety coefficient, wherein,

the data acquisition module compares the dangerous utilization rate P with a preset dangerous utilization rate P0, determines whether the dangerous utilization rate P reaches the standard according to the comparison result,

if P is less than P0, the data acquisition module judges that the dangerous utilization rate does not reach the standard;

if P is more than or equal to P0, the data acquisition module judges that the dangerous utilization rate reaches the standard;

when the data acquisition module judges that the dangerous utilization rate P does not reach the standard, the safety control module acquires the service life Y and determines whether the equipment is abnormal or not according to the comparison result of the service life Y and the final service life Y1,

if Y is less than or equal to Y1, the safety control module preliminarily judges that the equipment is normal;

if Y is more than Y1, the safety control module judges that the equipment is abnormal;

the safety control module checks whether abnormal data exist when the equipment is initially judged to be normal, calculates a utilization rate difference delta P of the dangerous utilization rate P and a preset dangerous utilization rate P0 when the abnormal data exist, selects a corresponding adjusting coefficient to adjust the transmission rate V according to a comparison result of the utilization rate difference and the preset utilization rate difference, and the access control module sets the adjusted transmission rate as V ', sets V' =V×Kvi, wherein Kvi is a safety coefficient, and 0.5 < Kvi < 1.

Specifically, the transfer server is provided with:

the judging service module is used for generating a judging signal according to the average age;

generating a second judgment signal when the average age meets the first judgment condition;

when the average age does not meet the first judgment condition, generating a first judgment signal;

the first judgment condition is that Op is more than or equal to 60;

the signal generation service module is used for generating an alarm signal according to the judging signal and the dangerous value;

when a first judgment signal is received, if the dangerous value meets a second judgment condition, generating the first alarm signal;

when the first judgment signal is received, if the dangerous value does not meet a second judgment condition, generating a second alarm signal;

and when the second judgment signal is received, generating the second alarm signal.

Specifically, in the embodiment of the invention, the average age and the risk value are evaluated by setting the judging conditions, and on the basis of larger average age, the risk value is not considered, and the alarm signal is directly generated for maintenance, so that the user service quality of a user group with larger average age is ensured, and the maintenance efficiency is ensured.

As shown in fig. 5, the method for cooperatively processing multiple tasks of a sensor network according to the embodiment of the present invention includes:

step S100: monitoring the temperature and humidity of a room to be monitored, and acquiring temperature information and humidity information of the room to be monitored;

step S200: acquiring service life, the number of users and the age of the users, and acquiring average age according to the number of the users and the age of the users;

step S300: acquiring an environment value according to the temperature information and the humidity information and acquiring a dangerous value according to the service life and the environment value;

step S400: adjusting the service life according to the dangerous value;

step S500: determining a safety coefficient according to the service life;

step S600: generating an alarm signal according to the average age and the danger value, wherein the alarm signal comprises a first alarm signal and a second alarm signal;

when monitoring the temperature and humidity of a room to be monitored, a monitor is arranged, and a temperature sensing module, a humidity sensing module and a statistics module are arranged in the monitor;

the temperature sensing modules are n temperature sensing units which are vertically arranged at equal intervals, and are arranged on the wall of the room to be monitored to obtain the temperature ti of heating equipment in the room to be monitored, wherein i is the number of the temperature sensing units from bottom to top, and the value is an integer less than or equal to n;

the humidity sensing module is two humidity sensing units which are respectively arranged on the ceiling and the floor of the room to be monitored and used for acquiring the humidity Wt of the ceiling and the humidity Wd of the floor;

the statistical module is connected with the temperature sensing module and the humidity sensing module, and determines the temperature information t according to the numerical value of each temperature sensing unit;

obtaining the humidity information W according to the ceiling humidity and the floor humidity;

when the average age is obtained according to the number of users and the age of the users, setting a year module, a user information module and a calculation module in an information collector;

the service life module is used for acquiring the service life Y;

the user information module is connected with the age module and used for recording the age Ox of the user, wherein x is the number of the age of the user according to the age size and takes the value of an integer smaller than the number N of the user;

the computing module is connected with the user information module and used for obtaining the average age Op according to the age of the user;

the service life module is provided with a delivery unit for determining the maximum service life Yz, a time determining unit for obtaining the continuous service life L and a resetting unit for obtaining the resetting times C when obtaining the service life Y;

and obtaining the service life Y according to the maximum service life, the continuous service time and the reset times.

Specifically, acquiring the environmental value from the temperature information and the humidity information includes:

presetting an influence factor K;

acquiring a predicted environment value according to the influence factor K, the temperature information and the humidity information;

and determining the environment value G according to the predicted environment value.

Specifically, the method for the multi-task cooperative processing of the sensing network provided by the embodiment of the invention is applied to the multi-task cooperative processing system of the sensing network, can achieve the same technical effects, and is not repeated here.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A multi-tasking co-processing system of a sensing network, comprising:

the monitor is arranged in the room to be monitored and used for monitoring the temperature and the humidity of the room to be monitored and acquiring the temperature information and the humidity information of the room to be monitored;

the information collector is connected with the monitor and used for acquiring the service life, the number of users and the age of the users and acquiring the average age according to the number of the users and the age of the users;

the warning device is connected with the monitor and used for acquiring an environment value according to the temperature information and the humidity information and acquiring a dangerous value according to multiplication of the service life Y and the environment value G;

the reactor is connected with the warning device and is used for adjusting the service life according to the dangerous value;

the safety device is connected with the reactor and is used for determining a safety coefficient according to the service life;

the transfer server is connected with the warning device and used for generating warning signals according to the average age and the danger value, and the warning signals comprise a first warning signal and a second warning signal;

the monitor is internally provided with a temperature sensing module, a humidity sensing module and a statistics module;

the temperature sensing modules are n temperature sensing units which are vertically arranged at equal intervals, and are arranged on the wall of the room to be monitored to obtain the temperature ti of heating equipment in the room to be monitored, wherein i is the number of the temperature sensing units from bottom to top, and the value is an integer less than or equal to n;

the humidity sensing module is two humidity sensing units which are respectively arranged on the ceiling and the floor of the room to be monitored and used for acquiring the humidity Wt of the ceiling and the humidity Wd of the floor;

the statistical module is connected with the temperature sensing module and the humidity sensing module, and determines the temperature information t according to the numerical value of each temperature sensing unit;

the temperature information t is obtained according to formula (1),

（1）；

obtaining the humidity information W according to the ceiling humidity and the floor humidity;

the humidity information W is obtained according to formula (2),

（2）；

the information collector is internally provided with a year module, a user information module and a calculation module;

the service life module is used for acquiring the service life Y;

the user information module is connected with the age module and used for recording the age Ox of the user, wherein x is the number of the age of the user according to the age size and takes the value of an integer smaller than the number N of the user;

the computing module is connected with the user information module and used for obtaining the average age Op according to the age of the user;

the average age Op is obtained according to formula (3),

（3）；

the service life module is provided with a delivery unit for determining the maximum service life Yz, a time determining unit for obtaining the continuous service life L and a resetting unit for obtaining the resetting times C when obtaining the service life Y;

obtaining the service life Y according to the maximum service life, the continuous service time and the reset times;

obtaining the service life Y according to a formula (4);

（4）；

the alerter is provided with a preset module, a prediction module and a determination module, wherein,

the presetting module presets an influence factor K;

the prediction module is used for obtaining a predicted environment value according to the influence factor K, the temperature information and the humidity information;

the determining module is used for determining the environment value G according to the predicted environment value;

the prediction module is provided with an analog unit and a test unit;

the simulation unit is used for obtaining an environment comprehensive value H according to the temperature information and the humidity information;

the test unit is used for predicting an environment value Hy according to the influence factor and the environment comprehensive value;

the simulation unit is used for obtaining an environment comprehensive value H according to a formula (5);

the test unit is used for obtaining a predicted environment value Hy according to a formula (6);

（5）；

（6）；

the determining module is provided with a difference unit, a receiving unit and a determining unit;

the difference unit is internally provided with an allowable difference Hc, and an environmental difference h is obtained according to the environmental comprehensive value and the allowable difference;

the adjusting unit is used for adjusting the influence factor K according to the allowable difference value Hc and the environment difference value h, and acquiring a final influence factor K' according to the influence factor, the allowable difference value and the environment difference value;

the receiving unit is used for receiving the final influence factor K';

the determining unit is used for obtaining the environment value G according to the final influence factor and the predicted environment value;

when the environment value is obtained, the determining module is provided with:

the difference unit is internally provided with an allowable difference Hc and obtains an environment difference h according to a formula (7);

an adjusting unit for adjusting the influence factor K according to the allowable difference Hc and the environmental difference h, obtaining a final influence factor K' according to formula (8),

a receiving unit configured to receive the final influencing factor K';

a determining unit to obtain the environmental value G according to formula (9);

（7）；

（8）；

（9）；

the transfer server is provided with:

the judging service module is used for generating a judging signal according to the average age;

generating a second judgment signal when the average age meets the first judgment condition;

when the average age does not meet the first judgment condition, generating a first judgment signal;

the first judgment condition is that the average age Op is more than or equal to 60;

the signal generation service module is used for generating an alarm signal according to the judging signal and the dangerous value;

when a first judgment signal is received, if the dangerous value meets a second judgment condition, generating the first alarm signal;

when the first judgment signal is received, if the dangerous value does not meet a second judgment condition, generating a second alarm signal;

and when the second judgment signal is received, generating the second alarm signal.

2. The system for multitasking co-processing of a sensor network of claim 1, wherein said alerter is further provided with:

the alarm module is used for acquiring the dangerous value D according to the service life and the environment value;

and the sending module is used for sending the dangerous value D to the transfer server.

3. The multi-task co-processing system of a sensor network according to claim 2, wherein the reactor is provided with:

the reaction determining module is used for determining the final service life Y1 according to the dangerous value D;

and the reaction cancellation module calculates the dangerous utilization rate P according to the final service life Y1 and the dangerous value D, and sets P=Y1/D.

4. The system for multitasking co-processing of a sensor network of claim 3 wherein said security factor is determined by a data acquisition module and a security management module built into said security device wherein,

the data acquisition module compares the dangerous utilization rate P with a preset dangerous utilization rate P0, determines whether the dangerous utilization rate P reaches the standard according to the comparison result,

if P is less than P0, the data acquisition module judges that the dangerous utilization rate does not reach the standard;

if P is more than or equal to P0, the data acquisition module judges that the dangerous utilization rate reaches the standard;

when the data acquisition module judges that the dangerous utilization rate P does not reach the standard, the safety control module acquires the service life Y and determines whether the equipment is abnormal or not according to the comparison result of the service life Y and the final service life Y1,

if Y is less than or equal to Y1, the safety control module preliminarily judges that the equipment is normal;

if Y is more than Y1, the safety control module judges that the equipment is abnormal;

the safety control module checks whether abnormal data exist when the equipment is initially judged to be normal, calculates a utilization rate difference delta P of the dangerous utilization rate P and a preset dangerous utilization rate P0 when the abnormal data exist, selects a corresponding adjusting coefficient to adjust the transmission rate V according to a comparison result of the utilization rate difference and the preset utilization rate difference, and the access control module sets the adjusted transmission rate as V ', sets V' =V×Kvi, wherein Kvi is a safety coefficient, and 0.5 < Kvi < 1.

5. A method for cooperatively processing multiple tasks in a sensor network, wherein the system for cooperatively processing multiple tasks in a sensor network according to any one of claims 1 to 4 comprises:

monitoring the temperature and humidity of a room to be monitored, and acquiring temperature information and humidity information of the room to be monitored;

acquiring service life, the number of users and the age of the users, and acquiring average age according to the number of the users and the age of the users;

acquiring an environment value according to the temperature information and the humidity information and acquiring a dangerous value according to multiplication of the service life Y and the environment value G;

adjusting the service life according to the dangerous value;

determining a safety coefficient according to the service life;

generating an alarm signal according to the average age and the danger value, wherein the alarm signal comprises a first alarm signal and a second alarm signal;

when monitoring the temperature and humidity of a room to be monitored, a monitor is arranged, and a temperature sensing module, a humidity sensing module and a statistics module are arranged in the monitor;

the temperature sensing modules are n temperature sensing units which are vertically arranged at equal intervals, and are arranged on the wall of the room to be monitored to obtain the temperature ti of heating equipment in the room to be monitored, wherein i is the number of the temperature sensing units from bottom to top, and the value is an integer less than or equal to n;

the humidity sensing module is two humidity sensing units which are respectively arranged on the ceiling and the floor of the room to be monitored and used for acquiring the humidity Wt of the ceiling and the humidity Wd of the floor;

the statistical module is connected with the temperature sensing module and the humidity sensing module, and determines the temperature information t according to the numerical value of each temperature sensing unit;

obtaining the humidity information W according to the ceiling humidity and the floor humidity;

when the average age is obtained according to the number of users and the age of the users, setting a year module, a user information module and a calculation module in an information collector;

the service life module is used for acquiring the service life Y;

the user information module is connected with the age module and used for recording the age Ox of the user, wherein x is the number of the age of the user according to the age size and takes the value of an integer smaller than the number N of the user;

the computing module is connected with the user information module and used for obtaining the average age Op according to the age of the user;

the service life module is provided with a delivery unit for determining the maximum service life Yz, a time determining unit for obtaining the continuous service life L and a resetting unit for obtaining the resetting times C when obtaining the service life Y;

and obtaining the service life Y according to the maximum service life, the continuous service time and the reset times.

6. The method for multitasking cooperation processing of a sensor network of claim 5, wherein obtaining an environmental value from said temperature information and said humidity information comprises:

presetting an influence factor K;

acquiring a predicted environment value according to the influence factor K, the temperature information and the humidity information;

and determining the environment value G according to the predicted environment value.