CN112731844A - Supervision method and system and intelligent door lock - Google Patents

Abstract

The application relates to a supervision method, a supervision system and an intelligent door lock. The method is applied to smart home and comprises the following steps: the intelligent home comprises a supervision node; acquiring a current state parameter value of a supervision node; comparing the current state parameter value of the supervisory node with a preset parameter threshold of the supervisory node; and sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node. The method and the device solve the technical problem of how to timely find the abnormality of the pets and/or the plants at home and timely feed back information to remind a user or a supervisor of taking care of the pet and/or the plants at home.

Description

Supervision method and system and intelligent door lock

Technical Field

The application relates to the technical field of intelligent home, in particular to a supervision method, a supervision system and an intelligent door lock.

Background

With the improvement of living standard of people, more and more families will cultivate animals and plants as the regulator of life.

The existing animal and plant supervision is mainly realized by sending dynamic image information of pets or plants to an owner, but the owner can only view the state of the animals and plants by automatically opening software, and cannot know the conditions of vital signs and the like of the animals and plants, and particularly when the owner leaves home for a long time, the owner is difficult to contact property in time or entrust other people to take care of the animals and plants, so that the animals and plants in the home are possibly sick and dead due to careless care.

Disclosure of Invention

The application provides a supervision method, a supervision system and an intelligent door lock, and aims to solve the technical problems of timely finding the abnormality of pets and/or plants at home, timely feeding back information and reminding a user or a supervisor of taking care of the pet and/or the plants in time.

In a first aspect, the present application provides a monitoring method, which is applied to smart homes, where the monitoring method includes:

the intelligent home comprises a supervision node;

acquiring a current state parameter value of a supervision node;

comparing the current state parameter value of the supervisory node with a preset parameter threshold of the supervisory node;

and sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node.

Optionally, before sending the supervision reminding information to the preset terminal, the method further includes:

identifying a duration of departure of the master;

comparing the duration with a preset duration threshold;

if the duration is greater than the preset duration threshold, matching a visitor supervision mode, and if the duration is less than the preset duration threshold, matching a host supervision mode;

the sending of the supervision reminding information to the preset terminal comprises:

if the matched mode is the visitor supervision mode, sending supervision information to a preset visitor terminal,

and if the matched mode is the master supervision mode, sending supervision information to a preset master end.

Optionally, the identifying the time duration for the owner to leave includes:

and acquiring the last time when the owner leaves, wherein the interval between the last time and the current time is the time length when the owner leaves.

Optionally, the supervision node comprises a pet supervision node, and the current state parameter value of the pet supervision node comprises a vital sign value corresponding to the pet category and/or a living environment value corresponding to the pet category.

Optionally, the vital sign value corresponding to the pet category includes a current body temperature value of the pet, and if the current body temperature value is not within a preset body temperature threshold range corresponding to the pet category, the vital sign value corresponding to the pet category sends out monitoring information to the preset terminal; and the living environment value corresponding to the pet category comprises a pressure value in the pet food tray, and if the pressure value is smaller than the pressure threshold value of the pet real tray corresponding to the pet category, the monitoring information is sent to the preset terminal.

Optionally, the supervision nodes comprise plant supervision nodes, and the current state parameter values of the plant supervision nodes comprise living environment values corresponding to the plant categories.

Optionally, the living environment value corresponding to the plant category includes a temperature value and a humidity value of an environment where the plant container is located, and a nutrient value of soil inside the plant container; if the temperature value and the humidity value of the environment where the plant container is located and the nutrient value of the soil inside the plant container are not within preset plant temperature range threshold, plant humidity range threshold and soil nutrient parameter range threshold, sending supervision information to the preset terminal; wherein the living environment values corresponding to the plant categories are: the survival environment value is one, two or all of the temperature value, the humidity value and the nutrient value of soil in the plant container according to different plant categories.

Optionally, the supervision nodes comprise a pet supervision node and a plant supervision node; the current state parameter value of the pet supervision node comprises a vital sign value corresponding to the pet category and/or a living environment value corresponding to the pet category; the current state parameter values of the plant supervisory nodes include a living environment value corresponding to the plant category.

In a second aspect, the present application provides a monitoring system for smart home, the monitoring system includes: the system comprises a signal acquisition module and a control module, wherein the signal acquisition module comprises a monitoring node and a detection device which is arranged corresponding to the monitoring node, and the detection device is used for monitoring the current state of the monitoring node, acquiring the current state parameter value of the monitoring node and sending the current state parameter value to the control module;

the control module receives the current state parameter value from the signal acquisition module and compares the current state parameter value of the supervision node with a preset parameter threshold value of the supervision node;

and the control module is also used for sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node.

Optionally, the supervision system further comprises:

the identification module is used for identifying the time length for the owner to leave and sending the time length to the control module;

the control module is further used for receiving the duration from the identification module and comparing the duration with a preset duration threshold;

if the duration is greater than the preset duration threshold, the control module is further used for matching a visitor supervision mode, and if the duration is less than the preset duration threshold, the control module is further used for matching a host supervision mode;

if the matched mode is a visitor supervision mode, the control module is also used for sending supervision information to a preset visitor end,

and if the matched mode is the master supervision mode, the control module is also used for sending supervision information to a preset master end.

In a third aspect, the present application provides an intelligent door lock, comprising:

the signal receiving device is used for receiving the current state parameter value of the supervision node and sending the current state parameter value to the control device;

the control device receives the current state parameter values from the signal receiving device and compares the current state parameter values of the plurality of supervision nodes with preset parameter thresholds of the supervision nodes;

and the control device is also used for sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node.

Optionally, the intelligent door lock further comprises:

the memory device is used for identifying the time length for the owner to leave and sending the time length to the control device;

the control device is also used for comparing the duration with a preset duration threshold;

if the duration is greater than the preset duration threshold, the control device is further used for matching a visitor supervision mode, and if the duration is less than the preset duration threshold, the control device is further used for matching a host supervision mode;

if the matched mode is a visitor supervision mode, the control device is also used for sending supervision information to a preset visitor end,

and if the matched mode is the master supervision mode, the control device is also used for sending supervision information to a preset master end.

Optionally, the control device is further configured to:

if the supervision node is a pet node, the control device receives a current state parameter value from the pet node, wherein the current state parameter value of the pet node comprises a vital sign value corresponding to the pet category and/or a living environment value corresponding to the pet category;

if the supervision node is a plant node, the control device receives a current state parameter value from the plant node, wherein the current state parameter value of the plant supervision node comprises a living environment value corresponding to the plant type;

and if the supervision node is a pet node and a plant node at the same time, the control device is also used for receiving the current state parameter values of the nodes which are the pet node and the plant node at the same time.

The application provides a supervision method, which is applied to an intelligent home, wherein the intelligent home comprises supervision nodes, and supervision reminding information is sent to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node by acquiring the current state parameter value of the supervision node in a home environment and comparing the current state parameter value of the supervision node with the preset parameter threshold value of the supervision node. The abnormal condition of the domestic pets and/or the plants can be found in time and the pets and/or the plants can be cared for in time, so that the probability of the pets and/or the plants suffering from diseases or dying due to careless care for the domestic pets and/or the plants is greatly reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a first flowchart of a monitoring method according to an embodiment of the present invention;

FIG. 2 is a second flow chart of the monitoring method according to the embodiment of the present invention;

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

fig. 4 is a schematic structural diagram of an intelligent door lock in the embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In an embodiment of the present application, referring to fig. 1, the monitoring method is applied to a smart home, where the smart home includes a monitoring node, and the method includes the following steps:

step 101: acquiring a current state parameter value of a supervision node;

step 102: comparing the current state parameter value of the supervision node with a preset parameter threshold value of the supervision node;

step 103: and sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node.

In the embodiment of the application, the home environment comprises the supervision node, and the supervision node can be a pet and/or a green plant which is raised by a master, and can also be a node which is related to the smart home and needs to be supervised, such as a household appliance, illumination, security protection, environment monitoring and the like. The method comprises the steps of presetting a parameter threshold value of the supervision node, comparing the obtained current state parameter value of the supervision node with a preset parameter threshold value, sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node, and timely finding abnormal conditions of the monitoring node in the home environment, particularly pets or green plants.

Referring to fig. 2, in an embodiment of the present application, before sending out the supervision reminding information to the preset terminal, the supervision method further includes:

step 1041: identifying a duration of departure of the master;

step 1042: comparing the duration with a preset duration threshold;

step 1043: and if the duration is greater than the preset duration threshold, matching the visitor supervision mode, and if the duration is less than the preset duration threshold, matching the host supervision mode.

In the embodiment of the application, the preset terminal can be a mobile phone, a computer and other terminals; the preset terminal can be set as a host terminal and a visitor terminal, the host terminal is a terminal of a home owner, and the visitor terminal can be a preset property terminal or a preset entrusted relatives and friends terminal.

In the embodiment of the present application, sending the supervision reminding information to the preset terminal includes: and if the matched mode is the visitor supervision mode, sending supervision information to a preset visitor end, and if the matched mode is the master supervision mode, sending supervision information to a preset master end.

In the embodiment of the application, the last time when the owner leaves is obtained, and the interval between the last time and the current time is the time length for obtaining the leaving time of the owner. Presetting a time length threshold according to the actual condition of the home, if the obtained time length for the home owner to leave is greater than the preset time length threshold, indicating that the home owner is not at home in the time period corresponding to the time length, and any node needing to be supervised is abnormal, sending supervision information to a preset visitor terminal for supervision reminding; if the obtained time length for the owner to leave is less than the preset time length threshold value, the owner is at home or at least not away from the owner, and at the moment, supervision information is sent to the owner end to carry out supervision reminding; under any situation, when monitoring that the supervised node is abnormal, the monitoring system can send the reminding information to the personnel capable of taking care of in time, and avoids unnecessary loss caused by careless processing of the abnormal condition.

In the embodiment of the application, if the time length for which the master leaves is identified to be equal to the preset time length threshold value, the number of abnormal supervision nodes is identified, and if the ratio of the number of the abnormal supervision nodes to the number of all nodes in the home environment exceeds the preset ratio, which indicates that the problems of the home supervision nodes are serious, the matched mode is the master supervision mode; otherwise, the matched mode is the visitor supervision mode.

In an embodiment of the application, the supervision node comprises a pet supervision node, and the current state parameter value of the pet supervision node comprises a vital sign value corresponding to a pet category and/or a living environment value corresponding to the pet category. The type of the pet may include a cat, a dog, a fish, a lizard, a pig, or the like, and the corresponding vital signs and living environments of different pets are different, for example, the living environment value of the fish is determined by the conditions of the water amount, the oxygen content, and the water temperature of the fish tank, and thus the obtained current state parameter value is different according to different types.

In the embodiment of the application, for example, the body temperature of the pet is monitored to obtain the vital sign value of the pet supervision node; the method comprises the steps that through infrared temperature measurement equipment, temperature values are collected according to a preset time period or collected in real time, a body temperature threshold range of a pet to be monitored is preset, and when the collected temperature values are not in the body temperature threshold range, the fact that the temperature values of the currently collected pet are lower than or higher than the temperature values corresponding to normal signs is indicated, and then the fact that the vital sign values of the pet are abnormal is judged.

In this application embodiment, through the pressure value of the container bottom internal surface that the monitoring pet bore food, acquire the living environment value of pet supervision node, the container that bears food is including bearing pet food and pet drinking water, sets up the pressure threshold value of above-mentioned container bottom internal surface in advance, when detecting that the pressure value of current container bottom internal surface is less than above-mentioned pressure threshold value, then indicate that food or the state that has the drinking water have the living environment value promptly and have appeared unusually, need inspect and handle.

In the embodiment of this application, the living environment value of pet supervision node can also detect through the mode of installing gas sensitive resistor additional in the low water line department of pet edible basin drinking water, and when the water content was less than gas sensitive resistor place low water line in the pet edible basin, gas sensitive resistor exposes in the air, can trigger warning signal, and when detecting this warning signal, the living environment value that can judge the pet has appeared unusually, needs in time to handle.

In the embodiment of the application, the current state parameter values of the plant supervision nodes comprise living environment values corresponding to plant categories, different plants have different requirements on living environments, for example, the plants with the preference for yin and the plants with the preference for yang have great difference on illumination, so that the obtained current state parameter values are matched with the types of the plants and then are judged by preset values, and the judgment results have higher reference values.

In the embodiment of the application, the temperature, the humidity and the soil nutrients inside the container for bearing the plants are monitored to obtain the living environment value of the plant supervision node. And the survival environment value is one, two or all of a temperature value, a humidity value and a nutrient value of soil in the plant bearing container according to different plant types.

Specifically, through inserting external plant monitoring devices in the flowerpot, and through this monitoring devices of bluetooth or wireless network connection, carry out the preset according to the required temperature value of normal growth environment corresponding with this plant type, humidity value and soil nutrient parameter value, preset is set for plant temperature range threshold, plant humidity range threshold and soil nutrient parameter range threshold, foretell current temperature value, current humidity value and current soil nutrient parameter value that will detect respectively with plant temperature range threshold, plant humidity range threshold and soil nutrient parameter range threshold, if any is not in corresponding range threshold, then judge that the living environment value of plant has appeared unusually, then send the supervision and remind.

In an embodiment of the application, the supervision nodes comprise a pet supervision node and a plant supervision node; the current state parameter value of the pet supervision node comprises a vital sign value corresponding to the pet category and/or a living environment value corresponding to the pet category; the current state parameter value of the plant supervisory node comprises a living environment value corresponding to the plant category.

As shown in fig. 3, in an embodiment of the present application, a monitoring system is provided, which is applied to smart homes, and includes: the signal acquisition module 210, the signal acquisition module 210 includes a monitoring node and a detection device corresponding to the monitoring node, the detection device is configured to monitor a current state of the monitoring node, obtain a current state parameter value of the monitoring node, and send the current state parameter value to the control module 220;

the control module 220 receives the current state parameter value from the signal acquisition module 210, and compares the current state parameter value of the supervisory node with a preset parameter threshold of the supervisory node;

the control module 220 is further configured to send a supervision reminding message to the preset terminal according to a comparison result between the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node.

In the embodiment of the present application, the monitoring system collects the current status parameter values of the nodes in the home environment through the signal collection module 210, compares the current status parameter values with the preset parameter threshold values of the nodes through the control module 220, according to the comparison result between the current state parameter value of the monitoring node and the preset parameter threshold value of the monitoring node, the control module 220 sends out a monitoring reminding message to the preset terminal, so that the abnormal condition of the monitoring node in the home environment can be found in time, especially for pets and/or green plants, through the supervision method, the preset visitor end or the preset host end receives the supervision information sent by the control module 220 and reminds the preset visitor end or the preset host end to take care of the nodes which monitor abnormal conditions in time, so that the probability of illness or death of pets and/or plants due to careless care of the pets and/or plants at home is greatly reduced.

In an embodiment of the present application, the above supervision system further includes: the identification module 230 is used for identifying the time length for the owner to leave and sending the time length to the control module 220; the control module 220 receives the duration from the recognition module 230 and compares the duration with a preset duration threshold;

if the duration is greater than the preset duration threshold, the control module 220 matches the system mode as the visitor supervision mode, and if the duration is less than the preset duration threshold, the control module 220 matches the system as the master supervision mode; when the matched mode is the visitor supervision mode, the control module 220 sends supervision information to a preset visitor, and when the matched mode is the master supervision mode, the control module 220 sends supervision information to a preset master.

In the embodiment of the application, the last time when the owner leaves is obtained, and the interval between the last time and the current time is the time length when the owner leaves.

In an embodiment of the present application, the monitoring node in the system includes a pet monitoring node, and the current state parameter value of the pet monitoring node includes a vital sign value corresponding to the pet category and/or a living environment value corresponding to the pet category.

In an embodiment of the present application, the supervision nodes in the system include plant supervision nodes, and the current state parameter values of the plant supervision nodes include living environment values corresponding to plant categories.

As shown in fig. 4, in an embodiment of the present application, there is provided an intelligent door lock including: a signal receiving device 310, configured to receive a current status parameter value of the supervisory node, and send the current status parameter value to the control device 320;

the control device 320 receives the current state parameter value from the signal receiving device 310 and compares the current state parameter value of the supervision node with a preset parameter threshold value of the supervision node;

according to the comparison result between the current state parameter value of the supervisory node and the preset parameter threshold value of the supervisory node, the control device 320 sends out a supervisory prompt message to the preset terminal.

In an embodiment of the present application, the above-mentioned intelligent door lock further includes: the memory device 330 is used for identifying the time length for the owner to leave and sending the time length to the control device 320;

the control device 320 is further configured to compare the duration with a preset duration threshold;

if the duration is greater than the preset duration threshold, the control device 320 is further configured to match the visitor supervision mode, and if the duration is less than the preset duration threshold, the control device 320 is further configured to match the host supervision mode; if the matched mode is the visitor supervision mode, the control device 320 is further configured to send supervision information to a preset visitor, and if the matched mode is the master supervision mode, the control device 320 is further configured to send supervision information to a preset master.

In an embodiment of the present application, the above-mentioned intelligent door lock further includes: the memory device 330 is further used for acquiring the last time when the owner leaves, and the interval between the last time and the current time is the time length when the owner leaves; the memory device 330 can record the door opening and closing time according to the lock cylinder bouncing state of the intelligent door lock.

In an embodiment of the present application, the control device 320 of the intelligent door lock is further configured to: if the supervision node is a pet node, the control device receives a current state parameter value from the pet node, wherein the current state parameter value of the pet node comprises a vital sign value corresponding to the pet category and/or a living environment value corresponding to the pet category; the control device 320 of the intelligent door lock is further configured to receive current state parameter values of the pet node and the plant node in the home environment at the same time.

If the supervision node is a plant node, the control device receives a current state parameter value from the plant node, and the current state parameter value of the plant supervision node comprises a living environment value corresponding to the plant type.

In an embodiment of the application, if the monitoring node is a pet node and a plant node at the same time, the control device 320 of the smart door lock is further configured to receive current state parameter values of the pet node and the plant node at the same time.

In the embodiment of the present application, the memory device 330 of the smart door lock is configured to identify the leaving time of the owner, and set a time threshold value as a comparison basis according to different situations of each home, for example, a life comparison rule of the home owner, and then set the time on duty, for example, 8 hours as the time threshold value; under the condition that the monitoring node is detected to be abnormal and the time length threshold value that the time length that the owner leaves is larger than 8 hours indicates that the owner is on business or at least does not follow the daily rule, therefore, a reminder is sent to the visitor end to take care of the abnormal monitoring node, and the probability that plants and animals are sick or dead in the home environment is reduced.

In an embodiment of the present application, the above-mentioned intelligent door lock further includes: the infrared sensing device wakes up the intelligent door lock when monitoring that a living body exists in the home environment through infrared rays, and the signal receiving device 310 starts current state parameter values of a plurality of supervision nodes.

Through the application of intelligent lock in this embodiment, can carry out automatic supervision to the node that needs the supervision in the house environment, in time discover unusually to in time send abnormal state to the supervisor and supervise the processing, avoided because disconged the unnecessary loss that the supervision brought.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present invention, which enable those skilled in the art to understand or practice the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (13)

1. A monitoring method is applied to smart home and comprises the following steps:

the intelligent home comprises a supervision node;

acquiring a current state parameter value of a supervision node;

comparing the current state parameter value of the supervisory node with a preset parameter threshold of the supervisory node;

and sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node.

2. The supervision method according to claim 1, wherein before the sending out supervision reminding information to the preset terminal, the method further comprises:

identifying a duration of departure of the master;

comparing the duration with a preset duration threshold;

if the duration is greater than the preset duration threshold, matching a visitor supervision mode, and if the duration is less than the preset duration threshold, matching a host supervision mode;

the sending of the supervision reminding information to the preset terminal comprises:

if the matched mode is the visitor supervision mode, sending supervision information to a preset visitor terminal,

and if the matched mode is the master supervision mode, sending supervision information to a preset master end.

3. The method of claim 2, wherein identifying a length of time the owner left comprises:

and acquiring the last time when the owner leaves, wherein the interval between the last time and the current time is the time length when the owner leaves.

4. The supervision method according to claim 1, characterized in that the supervision node comprises a pet supervision node, the current state parameter values of which comprise vital sign values corresponding to the pet category and/or living environment values corresponding to the pet category.

5. The supervision method according to claim 4, wherein the vital sign value corresponding to the pet category comprises a current body temperature value of the pet, and if the current body temperature value is not within a preset body temperature threshold range corresponding to the pet category, the supervision information is sent to the preset terminal; and the living environment value corresponding to the pet category comprises a pressure value in the pet food tray, and if the pressure value is smaller than the pressure threshold value of the pet real tray corresponding to the pet category, the monitoring information is sent to the preset terminal.

6. The supervisory method of claim 1, wherein the supervisory nodes include plant supervisory nodes, the current state parameter values of the plant supervisory nodes including a living environment value corresponding to the plant category.

7. The method of claim 6, wherein the environment-to-live values corresponding to the plant categories include temperature values, humidity values, and nutrient values for soil inside the plant container;

if the temperature value and the humidity value of the environment where the plant container is located and the nutrient value of the soil inside the plant container are not within preset plant temperature range threshold, plant humidity range threshold and soil nutrient parameter range threshold, sending supervision information to the preset terminal;

wherein the living environment values corresponding to the plant categories are: the survival environment value is one, two or all of the temperature value, the humidity value and the nutrient value of soil in the plant container according to different plant categories.

8. The method of claim 1, wherein the supervisory nodes comprise pet supervisory nodes and plant supervisory nodes; the current state parameter value of the pet supervision node comprises a vital sign value corresponding to the pet category and/or a living environment value corresponding to the pet category; the current state parameter values of the plant supervisory nodes include a living environment value corresponding to the plant category.

9. The utility model provides a supervisory systems, is applied to intelligent house, supervisory systems includes:

the system comprises a signal acquisition module and a control module, wherein the signal acquisition module comprises a monitoring node and a detection device which is arranged corresponding to the monitoring node, and the detection device is used for monitoring the current state of the monitoring node, acquiring the current state parameter value of the monitoring node and sending the current state parameter value to the control module;

the control module receives the current state parameter value from the signal acquisition module and compares the current state parameter value of the supervision node with a preset parameter threshold value of the supervision node;

and the control module is also used for sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node.

10. The surveillance system as claimed in claim 9, further comprising:

the identification module is used for identifying the time length for the owner to leave and sending the time length to the control module;

the control module is further used for receiving the duration from the identification module and comparing the duration with a preset duration threshold;

if the duration is greater than the preset duration threshold, the control module is further used for matching a visitor supervision mode, and if the duration is less than the preset duration threshold, the control module is further used for matching a host supervision mode;

if the matched mode is a visitor supervision mode, the control module is also used for sending supervision information to a preset visitor end,

and if the matched mode is the master supervision mode, the control module is also used for sending supervision information to a preset master end.

11. An intelligent door lock, characterized in that, intelligent door lock includes:

the signal receiving device is used for receiving the current state parameter value of the supervision node and sending the current state parameter value to the control device;

the control device receives the current state parameter value from the signal receiving device and compares the current state parameter value of the pipe node with a preset parameter threshold value of the supervision node;

and the control device is also used for sending supervision reminding information to a preset terminal according to the comparison result of the current state parameter value of the supervision node and the preset parameter threshold value of the supervision node.

12. The intelligent door lock of claim 11, further comprising:

the memory device is used for identifying the time length for the owner to leave and sending the time length to the control device;

the control device is also used for comparing the duration with a preset duration threshold;

if the duration is greater than the preset duration threshold, the control device is further used for matching a visitor supervision mode, and if the duration is less than the preset duration threshold, the control device is further used for matching a host supervision mode;

if the matched mode is a visitor supervision mode, the control device is also used for sending supervision information to a preset visitor end,

and if the matched mode is the master supervision mode, the control device is also used for sending supervision information to a preset master end.

13. The intelligent door lock of claim 11, wherein the control device is further configured to:

if the supervision node is a pet node, the control device receives a current state parameter value from the pet node, wherein the current state parameter value of the pet node comprises a vital sign value corresponding to the pet category and/or a living environment value corresponding to the pet category;

if the supervision node is a plant node, the control device receives a current state parameter value from the plant node, wherein the current state parameter value of the plant supervision node comprises a living environment value corresponding to the plant type;

and if the supervision node is a pet node and a plant node at the same time, the control device is also used for receiving the current state parameter values of the nodes which are the pet node and the plant node at the same time.

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