WO2018232978A1

WO2018232978A1 - Monitored device working state determination method and convergence unit

Info

Publication number: WO2018232978A1
Application number: PCT/CN2017/098646
Authority: WO
Inventors: 杜光东
Original assignee: 深圳市盛路物联通讯技术有限公司
Priority date: 2017-06-19
Filing date: 2017-08-23
Publication date: 2018-12-27
Also published as: CN107196824A; CN107196824B

Abstract

The invention relates to a method for determining a working state of a monitored device, and a convergence unit. The method comprises the following steps: receiving, by a convergence unit, a data element reported by a forwarding node; analyzing the data element to obtain data content and device types for all monitored devices; identifying a plurality of monitored devices whose device types are target device types interested to the convergence unit from all monitored devices; identifying at least one monitored device whose corresponding data content is not within a corresponding preset data content range from the plurality of monitored devices; determining the working state of each of the at least one monitored device as an abnormal state; and issuing an indication message to a terminal device monitoring each of the at least one monitored device. By implementation the embodiment of the invention, the monitored device having abnormal working state can be determined in time, which is conducive to more accurate and dynamic management of production and life.

Description

Method and aggregation unit for determining working state of monitored device

Technical field

The present invention relates to the field of Internet of Things technologies, and in particular, to a method and a convergence unit for determining an operating state of a monitored device.

Background technique

In the IoT architecture, the terminal device needs to collect the data content of the monitored device that it monitors and report the Internet of Things data including the data content to the forwarding node, and the forwarding node encapsulates the IoT data it hears into data elements. And sent to the aggregation unit directly or through the filtering gateway, so that the aggregation unit performs analysis and decision according to the received data element. Since the aggregation unit performs analysis and decision-making based on the data content of the monitored device collected by the terminal device, in order to facilitate people to manage production and life more finely and dynamically, it is particularly important to identify the monitored device that is working abnormally in time. .

Summary of the invention

The embodiment of the invention discloses a method for determining the working state of the monitored device and a convergence unit, which can timely determine the monitored device that is working abnormally according to the Internet of Things data reported by the terminal device, and is beneficial to more fine and dynamic management of production. And life.

A first aspect of an embodiment of the present invention discloses a method for determining an operating state of a monitored device, the method comprising:

The aggregation unit receives the data element reported by the forwarding node, where the data element is encapsulated by the forwarding object to detect the massive Internet of Things data, and each of the Internet of Things data includes a terminal that reports the Internet of Things data. The device type of the monitored device monitored by the device and the data content collected by the terminal device for the monitored device;

The aggregation unit analyzes the data elements to obtain data content and device types for all of the monitored devices, and identifies device types from all of the monitored devices according to device types for all of the monitored devices. a plurality of monitored devices of a target device type of interest to the aggregation unit;

The aggregation unit identifies, from the plurality of monitored devices, that the corresponding data content is not within the range of the corresponding preset data content, according to the data content of each of the plurality of monitored devices. a monitored device, and determining an operating state of each of the at least one monitored device as an abnormal state;

The aggregation unit sends an indication message to the terminal device that monitors the at least one monitored device, where the indication message is used to indicate that the monitored device monitored by the terminal device that receives the indication message is abnormal.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, each of the Internet of Things data further includes a geographical location where the terminal device that reports the Internet of Things data is located;

After the aggregation unit determines an operation status of each of the at least one monitored device as an abnormal state, and before the aggregation unit sends an indication message to the terminal device that monitors the at least one monitored device, The method further includes:

The aggregation unit determines whether the geographic location where the terminal device of the at least one monitored device is located is the target geographic location of interest of the convergence unit, when monitoring the terminal device of the at least one monitored device When the geographic location is the target geographic location of interest of the aggregation unit, the operation of sending the indication message to the terminal device that monitors the at least one monitored device is triggered.

As an optional implementation manner, in a first aspect of the embodiments of the present invention, the aggregation unit is configured from the plurality of monitored devices according to data content for each monitored device of the plurality of monitored devices. The method further includes: before the at least one monitored device that the corresponding data content is not in the range of the corresponding preset data content, the method further includes:

Determining, by the aggregation unit, whether data types of data content of each monitored device of the plurality of monitored devices include all preset data types corresponding to the monitored device, when targeting the plurality of monitored devices When the data type of the data content of each monitored device includes all preset data types corresponding to the monitored device, triggering execution of the data content according to each monitored device for the plurality of monitored devices And identifying, from the plurality of monitored devices, an operation of the at least one monitored device that the corresponding data content is not within the range of the corresponding preset data content.

As an optional implementation manner, in the first aspect of the embodiments of the present invention, the method further includes include:

The convening unit, according to the pre-stated number of times that the working state of each monitored device of the at least one monitored device is the abnormal state, the working state of the at least one monitored device is the abnormal state The monitored device whose number reaches the preset number of thresholds sends a work pause command.

As an optional implementation manner, in the first aspect of the embodiments of the present invention, the method further includes:

Determining, by the aggregation unit, that the monitored device in the at least one monitored device has the working state as the abnormal state reaches the preset number of times threshold, whether the standby monitored device exists, and when the at least one monitored device is determined When the monitored device whose working state is that the number of abnormal states reaches the preset number of times reaches the standby monitored device, the working start command is sent to the terminal device that monitors the standby monitored device.

The second aspect of the embodiment of the present invention discloses a convergence unit, where the aggregation unit includes a receiving unit, an analyzing unit, an identifying unit, a determining unit, and a sending unit, where:

The receiving unit is configured to receive a data element reported by the forwarding node, where the data element is encapsulated by the forwarding object to detect the massive Internet of Things data, and each of the Internet of Things data includes reporting the The device type of the monitored device monitored by the terminal device of the Internet of Things data and the data content collected by the terminal device for the monitored device;

The analyzing unit is configured to analyze the data element to obtain data content and device type for all the monitored devices;

The identifying unit is configured to identify, from all the monitored devices, a plurality of monitored devices whose device type is a target device type that is interested in the aggregation unit, according to a device type for all the monitored devices, and Identifying, from the plurality of monitored devices, at least one monitored device whose corresponding data content is not within a corresponding preset data content range according to data content for each monitored device of the plurality of monitored devices ;

The determining unit is configured to determine an operating state of each monitored device in the at least one monitored device as an abnormal state;

The sending unit is configured to send an indication message to the terminal device that monitors the at least one monitored device, where the indication message is used to indicate that the terminal device that receives the indication message is monitored by the terminal device The test equipment is working abnormally.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, each of the Internet of Things data further includes a geographical location where the terminal device that reports the Internet of Things data is located;

The aggregation unit further includes a first determining unit, wherein:

The first determining unit is configured to: after the determining unit determines an operating state of each monitored device in the at least one monitored device as an abnormal state, and the sending unit monitors the at least one monitored Before the terminal device of the device sends the indication message, it is determined whether the geographic location where the terminal device of the at least one monitored device is located is the target geographic location of interest of the convergence unit, and when the at least one monitored device is monitored When the geographical location of the terminal device is the target geographic location of the aggregation unit, the sending unit is triggered to perform the operation of sending the indication message to the terminal device that monitors the at least one monitored device.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the convergence unit further includes a second determining unit, where:

The second determining unit is configured to: identify, by the identifying unit, that the corresponding data content is not in the plurality of monitored devices according to data content for each monitored device of the plurality of monitored devices Determining, before the at least one monitored device within the corresponding preset data content range, whether the data type of the data content for each of the plurality of monitored devices includes all presets corresponding to the monitored device a data type, when the data type of the data content of each of the plurality of monitored devices includes all preset data types corresponding to the monitored device, triggering the identifying unit to perform the The data content of each of the plurality of monitored devices, the operation of identifying at least one monitored device that the corresponding data content is not within the corresponding preset data content from the plurality of monitored devices .

As an optional implementation manner, in a second aspect of the embodiments of the present invention, the sending unit is further configured to: according to the pre-stated, the working status of each monitored device in the at least one monitored device is The number of the abnormal states is sent to the monitored device in the at least one monitored device that the working state is the abnormal state reaches the preset number of times threshold.

As an optional implementation manner, in the second aspect of the embodiment of the present invention, the convergence unit further includes a third determining unit, where:

The third determining unit is configured to determine that the working state of the at least one monitored device is Whether the number of abnormal states reaches the preset number of times of the monitored device, whether there is a standby monitored device;

The sending unit is further configured to: when the third determining unit determines that the working state in the at least one monitored device is the abnormal state, the monitored device has the preset number of thresholds, and the standby device has the standby device When the device is monitored, a work start command is sent to the terminal device that monitors the standby monitored device.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

In the embodiment of the present invention, the aggregation unit receives the data element reported by the forwarding node, and the data element is encapsulated by the forwarding node to detect the massive Internet of Things data, and each Internet of Things data includes reporting the Internet of Things data. The device type of the monitored device monitored by the terminal device and the data content collected by the terminal device for the monitored device, the aggregation unit analyzes the data element, obtains data content and device type for all monitored devices, and according to The device type of all monitored devices, from among all monitored devices, the plurality of monitored devices whose device type is the target device type of interest to the aggregation unit, and according to the data for each monitored device of the plurality of monitored devices And identifying, from the plurality of monitored devices, the at least one monitored device whose corresponding data content is not within the corresponding preset data content, and determining the working status of each monitored device in the at least one monitored device as Abnormal state, and to the terminal device that monitors at least one monitored device Indication message, for indicating that the indication message to the receiving terminal device indication message to be monitored abnormality monitoring device works. The embodiment of the present invention can be determined by the monitored device corresponding to the Internet of Things data in which the data content included in the Internet of Things data collected by the monitored device that is interested in the aggregation unit is not within the corresponding preset data content range. The device is sent to the monitored device that is abnormal in operation and sends an indication message to the terminal device of the monitored device that is abnormal in monitoring work, so that the monitored device that works abnormally can be determined in time, which is advantageous for more precise and dynamic management of production and life.

DRAWINGS

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings to be used in the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention. One of ordinary skill in the art, without premise of creative labor Further drawings can also be obtained from these figures.

1 is a schematic diagram of an Internet of Things architecture disclosed in an embodiment of the present invention;

2 is a schematic flow chart of a method for determining an operating state of a monitored device according to an embodiment of the present invention;

3 is a schematic flow chart of another method for determining an operating state of a monitored device according to an embodiment of the present invention;

4 is a schematic structural diagram of a convergence unit according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of another convergence unit according to an embodiment of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

The embodiment of the invention discloses a method for determining the working state of the monitored device and a convergence unit, which can not include the data content included in the Internet of Things data collected by the monitored device that is interested in the aggregation unit. The monitored device corresponding to the Internet of Things data in the data content range is determined as the monitored device that is working abnormally and sends an indication message to the terminal device of the monitored device that monitors the abnormal operation, so that the monitored abnormality can be determined in time. Equipment is conducive to more precise and dynamic management of production and life. The details are described below separately.

In order to better understand the embodiments of the present invention, an Internet of Things architecture disclosed in the embodiments of the present invention is first introduced. Please refer to FIG. 1. FIG. 1 is a schematic diagram of an Internet of Things architecture disclosed in an embodiment of the present invention. As shown in FIG. 1 , the IoT architecture may include three layers: a terminal device layer, a forwarding node layer, and an aggregation layer according to functions. The terminal device layer may include a mass-scale terminal device, such as a thermometer, a hygrometer, a smoke sensor, a ventilation device, a rain sensor, an irrigation valve, etc., and the terminal device at the terminal device layer can directly collect the Internet of Things data of the natural world. For example, the temperature of the real-time temperature of the current weather is collected by the thermometer, and the IoT data of the monitored device monitored by the terminal device may be directly collected, such as the real-time temperature of the engine for collecting the thermometer, etc., which is not limited in the embodiment of the present invention; the forwarding node layer may include a network. a large number of forwarding nodes connected, the forwarding node may include a router, The device in the embodiment of the present invention is not limited; the forwarding node can use any standard networking protocol, and the forwarding node can implement data resolution between different network standards; the aggregation layer can include a filtering gateway and The aggregation unit, wherein the filtering gateway can directly or indirectly communicate with each forwarding node of the forwarding node layer through the Internet; the aggregation unit can perform high-level management on each forwarding node of the forwarding node layer through the filtering gateway, thereby implementing data transmission frequency and network topology. And the control of other networking functions; the aggregation unit can not only analyze and make decisions about the Internet of Things data generated by the mass terminal equipment, but also obtain information by configuring commands or configure terminal device parameters (at this time, the data transmission is directed to the terminal device); The aggregation unit can also introduce a variety of services, from big data to social networks, and even from social tools "likes" to weather sharing. In the Internet of Things architecture shown in FIG. 1, each forwarding node can provide IoT data receiving and receiving services for a mass of terminal devices within its own wireless coverage, wherein each forwarding node has its own wireless coverage within each terminal device. A wireless communication module can be built in, which enables each forwarding node to communicate wirelessly with each terminal device within its own wireless coverage by wireless network communication. In the Internet of Things architecture shown in Figure 1, the wireless communication module built into the terminal device can input the upper frequency point 470MHz and the lower frequency point 510MHz during production, so that the wireless communication module can automatically define the communication frequency band as 470MHz ~ 510MHz, It complies with the provisions of China's SRRC standard; alternatively, it can input the upper frequency point of 868MHz and the lower frequency point of 908MHz, so that the wireless communication module can automatically define the communication frequency band as 868MHz to 908MHz to comply with the European ETSI standard; or, you can enter The frequency is 918MHz and the lower frequency is 928MHz, so the wireless communication module can automatically define the communication frequency band as 918MHz~928MHz to meet the requirements of the US FCC standard. Alternatively, the communication frequency band of the wireless communication module can also be defined as conforming to the Japanese ARIB standard or Canada. The specification of the IC standard is not limited in the embodiment of the present invention. In the Internet of Things architecture shown in FIG. 1, the terminal device can use Frequency Division Multiple Access (FDMA), Frequency-Hopping Spread Spectrum (FHSS), and Dynamic Time Division Multiple Access (Dynamic Time Division Multiple Access). , DTDMA), and backtracking multiplexing (CSMA) are combined to solve the interference problem.

Embodiment 1

Please refer to FIG. 2. FIG. 2 is a schematic flowchart diagram of a method for determining an operating state of a monitored device according to an embodiment of the present invention. As shown in FIG. 2, the method for determining the working state of the monitored device may include the following operations:

201. The aggregation unit receives the data element reported by the forwarding node, where the data element is encapsulated by the forwarding node to detect the massive Internet of Things data, and each IoT data includes the terminal device that reports the IoT data. The device type of the monitored device and the data content collected by the terminal device for the monitored device.

In the embodiment of the present invention, the data content collected by the terminal device may be the data content of the natural world directly collected by the terminal device, such as temperature, soil moisture, etc., or may be the data content of the monitored device that is directly collected by the monitored device, such as The temperature of the device to be monitored and the like are not limited in the embodiment of the present invention. Each of the Internet of Things data includes, in addition to the data content collected or monitored by the monitored device that is monitored by the terminal device that reports the Internet of Things data, and the monitored by the terminal device that reports the Internet of Things data. The device type of the device, wherein the data content that the terminal device monitors or collects for the monitored device to be monitored is specifically the working parameter of the monitored device, such as the current power consumption, the current power, and the current temperature, etc., in the embodiment of the present invention. Not limited.

202. The aggregation unit analyzes the foregoing data element to obtain data content and device type for all monitored devices.

In the embodiment of the present invention, the data element may further include the node identifier of the forwarding node, and the aggregation unit analyzes the data element, and the data content and the device type for all the monitored devices may include:

The aggregation unit determines, according to the node identifier of the forwarding node included in the data element, whether the forwarding node is a forwarding node that is interested in the aggregation unit, and when the forwarding node is a forwarding node that is interested in the aggregation unit, analyzing the data element to obtain The data content of the device being monitored and the type of device. In this way, only the processing of the data elements reported by the forwarding node of interest can be reduced to reduce the workload of the aggregation unit.

203. The aggregation unit identifies, from all monitored devices, a plurality of monitored devices whose device type is a target device type of interest to the aggregation unit according to the device type for all monitored devices.

Among them, the workload of the aggregation unit can be reduced by setting the target device type that the aggregation unit is interested in.

204. The aggregation unit identifies, according to the data content of each of the plurality of monitored devices, the at least one of the plurality of monitored devices that the corresponding data content is not within the corresponding preset data content. Monitoring equipment.

205. The aggregation unit determines an operation status of each of the at least one monitored device as an abnormal state, and sends an indication message to the terminal device that monitors the at least one monitored device, where the indication message is used to indicate that the The monitored device monitored by the terminal device indicating the message works abnormally.

The indication message may include a device identifier of each monitored device of the at least one monitored device and a device identifier of the terminal device for monitoring the monitored device.

In the embodiment of the present invention, for example, when the data content of the monitored device included in the Internet of Things data is the current power consumption of the monitored device, if the current power consumption is not in the preset normal corresponding to the monitored device, When the power consumption range is within, the convergence unit determines that the monitored device is working abnormally.

It can be seen that the method for determining the working state of the monitored device described in FIG. 2 can be that the data content included in the Internet of Things data collected by the monitored device interested in the convergence unit is not within the corresponding preset data content. The monitored device corresponding to the Internet of Things data is determined to be a monitored device that is abnormal in operation and sends an indication message to the terminal device of the monitored device that is abnormal in monitoring work, so that the monitored device that is abnormal in operation can be determined in time, which is beneficial to the device. Fine, dynamic management of production and life.

Embodiment 2

Please refer to FIG. 3. FIG. 3 is a schematic flowchart diagram of another method for determining an operating state of a monitored device according to an embodiment of the present invention. As shown in FIG. 3, the method for determining the working state of the monitored device may include the following operations:

301. The aggregation unit receives the data element reported by the forwarding node, where the data element is encapsulated by the forwarding object to detect massive amount of Internet of Things data.

In the embodiment of the present invention, each of the Internet of Things data includes a device type of the monitored device monitored by the terminal device that reports the Internet of Things data, data content collected by the terminal device for the monitored device, and where the terminal device is located. Geographic location.

302. The aggregation unit analyzes the foregoing data element to obtain data content and device type for all monitored devices.

303. The aggregation unit identifies, from all monitored devices, a plurality of monitored devices whose device type is a target device type of interest to the aggregation unit according to the device type for all monitored devices.

304. The aggregation unit is configured according to data for each monitored device of the plurality of monitored devices. And identifying, by the plurality of monitored devices, the at least one monitored device that the corresponding data content is not within the range of the corresponding preset data content.

305. The convergence unit determines an operating state of each monitored device in the at least one monitored device as an abnormal state.

306. The aggregation unit determines whether the geographic location where the terminal device of the at least one monitored device is located is the target geographic location of interest of the convergence unit. When the determination result of step 306 is YES, step 307 is triggered, when step 306 is performed. If the result of the determination is no, the step 308 is triggered.

307. The aggregation unit sends an indication message to the terminal device that monitors the at least one monitored device.

308. The aggregation unit sends an indication message to the terminal device that is used to monitor the geographical location of all the terminal devices of the at least one monitored device to be the target geographic location that is interested in the aggregation unit.

The indication message is used to indicate that one of the at least one monitored device monitored by the terminal device that receives the indication message is abnormal in operation.

In an optional embodiment, after performing step 303 and before performing step 304, the method for determining the working state of the monitored device may further include the following operations:

The aggregation unit determines whether the data type of the data content for each of the plurality of monitored devices includes all preset data types corresponding to the monitored device, when each of the plurality of monitored devices is When the data types of the data content of the monitoring device include all the preset data types corresponding to the monitored device, triggering execution of the data content according to each monitored device for the plurality of monitored devices, from the plurality of Identifying, by the monitoring device, operation of the at least one monitored device that the corresponding data content is not within the range of the corresponding preset data content;

When it is determined that the data type unevenness of the data content of each of the plurality of monitored devices includes the preset data types corresponding to the monitored device, the corresponding identifiers are identified from the plurality of monitored devices The data type of the data content includes at least one monitored device of all corresponding preset data types, and steps 304-308 are triggered.

The optional embodiment can determine whether the working state of the monitored device corresponding to the data content of the data type that is relatively complete is abnormal, so that the accuracy of the determined working state can be improved and the workload of the aggregation unit can be reduced.

In another optional embodiment, the method for determining the working state of the monitored device further includes the following operations:

The aggregation unit, according to the pre-stated number of times that the working state of each of the monitored devices in the at least one monitored device is an abnormal state, reaches a preset number of times in the working state that the working state is abnormal in the at least one monitored device The monitoring device sends a work suspension command.

In the further optional embodiment, the method for determining the working state of the monitored device may further include the following operations:

The aggregation unit determines whether the monitored device of the at least one monitored device whose working state is the abnormal state reaches the preset number of times has a standby monitored device, and determines the number of times the working state of the at least one monitored device is abnormal. When the monitored device that reaches the preset number threshold has the standby monitored device, the working start command is sent to the terminal device that monitors the standby monitored device.

The other optional embodiment can control the suspension of the work when the abnormal operation of the monitored device is abnormal, and further activate the standby monitored device, thereby further improving the reliability of the Internet of Things.

It can be seen that the method for determining the working state of the monitored device described in FIG. 3 can be that the data content included in the Internet of Things data collected by the monitored device interested in the convergence unit is not within the corresponding preset data content. The monitored device corresponding to the Internet of Things data is determined to be a monitored device that is abnormal in operation and sends an indication message to the terminal device of the monitored device that is abnormal in monitoring operation, so that the monitored device that is abnormal in operation can be determined in time, which is beneficial to Manage production and life more carefully and dynamically.

Embodiment 3

Please refer to FIG. 4. FIG. 4 is a schematic structural diagram of a convergence unit according to an embodiment of the present invention. As shown in FIG. 4, the aggregation unit 400 can include a receiving unit 401, an analyzing unit 402, an identifying unit 403, a determining unit 404, and a sending unit 405, where:

The receiving unit 401 receives the data element reported by the forwarding node, and the data element is encapsulated by the forwarding node to detect the massive Internet of Things data, and each Internet of Things data may be monitored by the terminal device that reports the Internet of Things data. The device type of the monitored device and the data content collected by the terminal device for the monitored device.

The analyzing unit 402 is configured to analyze the data elements received by the receiving unit 401 to obtain data content and device types for all monitored devices.

The identifying unit 403 is configured to identify, from all monitored devices, a plurality of monitored devices whose device types are target device types of interest to the aggregation unit according to device types for all monitored devices, and according to the plurality of monitored devices The data content of each monitored device identifies at least one monitored device whose corresponding data content is not within the corresponding preset data content from the plurality of monitored devices.

The determining unit 404 is configured to determine an operating state of each monitored device of the at least one monitored device identified by the identifying unit 403 as an abnormal state.

The sending unit 405 is configured to send an indication message to the terminal device that monitors the at least one monitored device, where the indication message is used to indicate that the monitored device monitored by the terminal device that receives the indication message is abnormal.

It can be seen that the aggregation unit 400 described in the implementation of FIG. 4 can correspond to the Internet of Things data in which the data content included in the Internet of Things data collected by the monitored device that is interested in the aggregation unit is not within the corresponding preset data content range. The monitored device is determined to be a monitored device that is abnormal in operation and sends an indication message to the terminal device of the monitored device that is abnormal in monitoring work, so that the monitored device with abnormal operation can be determined in time, which is beneficial to more fine and dynamic management of production. And life.

In an optional embodiment, each of the Internet of Things data may further include a geographic location where the terminal device reporting the Internet of Things data is located, and the aggregation unit 400 may further include a determining unit 406, where:

The determining unit 406 is configured to determine, after the determining unit 404 determines the working state of each of the at least one monitored device as an abnormal state, and before the sending unit 405 sends the indication message to the terminal device that monitors the at least one monitored device. Determining whether the geographic location where the terminal device of the at least one monitored device is located is the target geographic location of interest of the aggregation unit 400, and the geographic location where the terminal device of the at least one monitored device is located is the aggregation unit When the target geographic location of interest is 400, the triggering delivery unit 405 performs the above operation of transmitting the indication message to the terminal device that monitors the at least one monitored device.

The sending unit 405 is further configured to: when the determining unit 406 determines that the geographic location where the terminal device that monitors the at least one monitored device is not the target geographic location that is interested in the convergence unit 400 At the time of setting, an indication message is sent to the terminal device used to monitor the geographical location of all the terminal devices of the at least one monitored device for the target geographic location of interest to the convergence unit.

Optionally, the determining unit 406 is further configured to: in the identifying unit 403, identify, according to the data content of each monitored device of the plurality of monitored devices, that the corresponding data content is not in the corresponding pre- Before determining at least one monitored device in the data content range, determining whether the data type of the data content for each monitored device of the plurality of monitored devices includes all preset data types corresponding to the monitored device, when When the data type of the data content of each of the plurality of monitored devices includes all the preset data types corresponding to the monitored device, the trigger recognition unit 403 performs the above-described according to each of the plurality of monitored devices. The data content of the monitoring device is used to identify, from the plurality of monitored devices, the operation of the at least one monitored device whose corresponding data content is not within the range of the corresponding preset data content.

The identifying unit 403 is further configured to: when the determining unit 406 determines that the data type unevenness of the data content of each of the plurality of monitored devices includes all preset data types corresponding to the monitored device, The data type of the plurality of monitored devices that identify the corresponding data content includes at least one monitored device of all the preset data types, and the trigger determining unit 404 performs the at least one monitored device identified by the identifying unit 403. The operation state of each monitored device is determined to be an abnormal state operation.

It can be seen that the aggregation unit 400 described in FIG. 5 can determine whether the working state of the monitored device corresponding to the data content of the data type that is relatively complete is abnormal, so that the accuracy of the determined working state can be improved and the aggregation can be reduced. The workload of unit 400.

Still further, the sending unit 405 is further configured to: according to the pre-stated number of times that the working state of each monitored device in the at least one monitored device is an abnormal state, the working state to the at least one monitored device is The monitored device that sends the abnormal number of times to the preset number of thresholds sends a work pause command.

Still further, the determining unit 406 is further configured to determine whether the monitored device that has the working state of the at least one monitored device in the abnormal state reaches the preset number of times has a standby monitored device.

The sending unit 405 may further determine, when the determining unit 406 determines that the working state of the at least one monitored device is an abnormal state reaches the preset number of times, the monitored device has the standby monitored device. At the time, a work start command is sent to the terminal device that monitors the standby monitored device.

It can be seen that the aggregation unit 400 described in FIG. 5 can also control the suspension of the abnormal operation of the monitored device when the operation is abnormal, and can further activate the standby monitored device, thereby further improving the reliability of the Internet of Things. .

One of ordinary skill in the art can understand that all or part of the various methods of the above embodiments can be completed by a program to instruct related hardware, the program can be stored in a computer readable storage medium, and the storage medium includes read only Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read Only Memory (Erasable Programmable Read Only Memory) EPROM), One-Time Programmable Read-Only Memory (OTPROM), Electronically-Erasable Programmable Read-Only Memory (EEPROM), Read-Only Disc (Compact Disc) Read-Only Memory (CD-ROM) or other optical disc storage, disk storage, magnetic tape storage, or any other medium readable by a computer that can be used to carry or store data.

The method and the aggregation unit for determining the working state of the monitored device disclosed in the embodiment of the present invention are described in detail. The principles and embodiments of the present invention are described in the following. The description of the above embodiment is only The method for understanding the present invention and its core idea; at the same time, for those of ordinary skill in the art, according to the idea of the present invention, there will be changes in specific embodiments and application scopes. The description should not be construed as limiting the invention.

Claims

A method for determining an operating state of a monitored device, the method comprising:

The aggregation unit receives the data element reported by the forwarding node, where the data element is encapsulated by the forwarding object to detect the massive Internet of Things data, and each of the Internet of Things data includes a terminal that reports the Internet of Things data. The device type of the monitored device monitored by the device and the data content collected by the terminal device for the monitored device;

The aggregation unit analyzes the data elements to obtain data content and device types for all of the monitored devices, and identifies device types from all of the monitored devices according to device types for all of the monitored devices. a plurality of monitored devices of a target device type of interest to the aggregation unit;

The aggregation unit identifies, from the plurality of monitored devices, that the corresponding data content is not within the range of the corresponding preset data content, according to the data content of each of the plurality of monitored devices. a monitored device, and determining an operating state of each of the at least one monitored device as an abnormal state;

The aggregation unit sends an indication message to the terminal device that monitors the at least one monitored device, where the indication message is used to indicate that the monitored device monitored by the terminal device that receives the indication message is abnormal.
The method for determining the working state of a device to be monitored according to claim 1, wherein each of the Internet of Things data further comprises a geographical location where the terminal device reporting the Internet of Things data is located;

After the aggregation unit determines an operation status of each of the at least one monitored device as an abnormal state, and before the aggregation unit sends an indication message to the terminal device that monitors the at least one monitored device, The method further includes:

The aggregation unit determines whether the geographic location where the terminal device of the at least one monitored device is located is the target geographic location of interest of the convergence unit, when monitoring the terminal device of the at least one monitored device When the geographic location is the target geographic location of interest of the aggregation unit, the operation of sending the indication message to the terminal device that monitors the at least one monitored device is triggered.
The method for determining an operating state of a monitored device according to claim 1 or 2, wherein the aggregation unit is based on the number of monitored devices for each of the plurality of monitored devices And the method further includes: before the at least one monitored device that the corresponding data content is not in the range of the corresponding preset data content, the method further includes:

Determining, by the aggregation unit, whether data types of data content of each monitored device of the plurality of monitored devices include all preset data types corresponding to the monitored device, when targeting the plurality of monitored devices When the data type of the data content of each monitored device includes all preset data types corresponding to the monitored device, triggering execution of the data content according to each monitored device for the plurality of monitored devices And identifying, from the plurality of monitored devices, an operation of the at least one monitored device that the corresponding data content is not within the range of the corresponding preset data content.
The method for determining the working state of a device to be monitored according to any one of claims 1 to 3, wherein the method further comprises:

The convening unit, according to the pre-stated number of times that the working state of each monitored device of the at least one monitored device is the abnormal state, the working state of the at least one monitored device is the abnormal state The monitored device whose number reaches the preset number of thresholds sends a work pause command.
The method for determining an operating state of a device to be monitored according to claim 4, wherein the method further comprises:

Determining, by the aggregation unit, that the monitored device in the at least one monitored device has the working state as the abnormal state reaches the preset number of times threshold, whether the standby monitored device exists, and when the at least one monitored device is determined When the monitored device whose working state is that the number of abnormal states reaches the preset number of times reaches the standby monitored device, the working start command is sent to the terminal device that monitors the standby monitored device.
An aggregation unit, comprising: a receiving unit, an analyzing unit, an identifying unit, a determining unit, and a sending unit, wherein:

The receiving unit is configured to receive a data element reported by the forwarding node, where the data element is encapsulated by the forwarding object to detect the massive Internet of Things data, and each of the Internet of Things data includes reporting the The device type of the monitored device monitored by the terminal device of the Internet of Things data and the data content collected by the terminal device for the monitored device;

The analyzing unit is configured to analyze the data element to obtain a target for all the monitored devices Data content and device type;

The identifying unit is configured to identify, from all the monitored devices, a plurality of monitored devices whose device type is a target device type that is interested in the aggregation unit, according to a device type for all the monitored devices, and Identifying, from the plurality of monitored devices, at least one monitored device whose corresponding data content is not within a corresponding preset data content range according to data content for each monitored device of the plurality of monitored devices ;

The determining unit is configured to determine an operating state of each monitored device in the at least one monitored device as an abnormal state;

The sending unit is configured to send an indication message to the terminal device that monitors the at least one monitored device, where the indication message is used to indicate that the monitored device monitored by the terminal device that receives the indication message is abnormal.
The aggregation unit according to claim 6, wherein each of the Internet of Things data further comprises a geographical location where the terminal device reporting the Internet of Things data is located;

The aggregation unit further includes a first determining unit, wherein:

The first determining unit is configured to: after the determining unit determines an operating state of each monitored device in the at least one monitored device as an abnormal state, and the sending unit monitors the at least one monitored Before the terminal device of the device sends the indication message, it is determined whether the geographic location where the terminal device of the at least one monitored device is located is the target geographic location of interest of the convergence unit, and when the at least one monitored device is monitored When the geographical location of the terminal device is the target geographic location of the aggregation unit, the sending unit is triggered to perform the operation of sending the indication message to the terminal device that monitors the at least one monitored device.
The convergence unit according to claim 6 or 7, wherein the aggregation unit further comprises a second determining unit, wherein:

The second determining unit is configured to: identify, by the identifying unit, that the corresponding data content is not in the plurality of monitored devices according to data content for each monitored device of the plurality of monitored devices Determining, before the at least one monitored device within the corresponding preset data content range, whether the data type of the data content for each of the plurality of monitored devices includes all presets corresponding to the monitored device a data type, when a data type of data content for each of the plurality of monitored devices includes all presets corresponding to the monitored device When the data type is triggered, the identifying unit is configured to perform, according to the data content for each monitored device of the plurality of monitored devices, identifying that the corresponding data content is not in the corresponding one of the plurality of monitored devices The operation of at least one monitored device within a predetermined range of data content.
The convening unit according to any one of claims 6-8, wherein the sending unit is further configured to: according to the pre-stated, the working status of each monitored device in the at least one monitored device is The number of the abnormal states is sent to the monitored device in the at least one monitored device that the working state is the abnormal state reaches the preset number of times threshold.
The aggregation unit according to claim 9, wherein the aggregation unit further comprises a third determining unit, wherein:

The third determining unit is configured to determine whether the monitored device that has the working state of the at least one monitored device in the abnormal state reaches the preset number of times threshold has a standby monitored device;

The sending unit is further configured to: when the third determining unit determines that the working state in the at least one monitored device is the abnormal state, the monitored device has the preset number of thresholds, and the standby device has the standby device When the device is monitored, a work start command is sent to the terminal device that monitors the standby monitored device.