CN116074937B - Intelligent field management method and management platform based on 5G network technology - Google Patents

Abstract

The invention discloses an intelligent field management method and a management platform based on a 5G network technology, wherein the method comprises the following steps: receiving, by the acquisition device, the discontinuous acquisition configuration sent by the server; after the acquisition equipment receives discontinuous acquisition configuration sent by the base station, the acquisition equipment enters a low power consumption mode; after the acquisition equipment enters a low power consumption mode, the acquisition equipment receives acquisition mode adjustment information which is sent by a server and is used for adjusting the low power consumption mode; acquiring field information by the acquisition equipment in a low power consumption mode based on discontinuous acquisition configuration and acquisition mode adjustment information; the collected site information is uploaded to a server by the collection device.

Description

Intelligent field management method and management platform based on 5G network technology

Technical Field

The invention relates to the technical field of intelligent field management, in particular to an intelligent field management method and an intelligent field management platform based on a 5G network technology.

Background

Intelligent field management refers to a technique for automated monitoring, adjustment and control of a production field using a series of electronic devices. One of the more important components in the intelligent site management system is a collection device for the condition of the production site, and the collection device can collect the temperature, humidity, audio frequency, video frequency or image of the production site and send the obtained information to a server, so that the server can adjust the control of the production site based on the information of the production site.

The operation modes of the current acquisition equipment are that firstly, the acquisition equipment periodically acquires field information according to the stipulation of a built-in program, and secondly, when the server needs the acquisition equipment to acquire information, the server sends an information acquisition command to the acquisition equipment, and then the acquisition equipment acquires the information of a production field according to the indication of the information acquisition command. However, the operation modes of the two acquisition devices have corresponding defects.

Disclosure of Invention

In order to achieve the above object, the present invention provides an intelligent field management method based on a 5G network technology, including: receiving, by the acquisition device, the discontinuous acquisition configuration sent by the server; after the acquisition equipment receives discontinuous acquisition configuration sent by the base station, the acquisition equipment enters a low power consumption mode; after the acquisition equipment enters a low power consumption mode, the acquisition equipment receives acquisition mode adjustment information which is sent by a server and is used for adjusting the low power consumption mode; acquiring field information by the acquisition equipment in a low power consumption mode based on discontinuous acquisition configuration and acquisition mode adjustment information; the collected site information is uploaded to a server by the collection device.

Preferably, the discontinuous acquisition configuration comprises at least an indication of the acquisition period and an indication of the reception period; the acquisition equipment receives acquisition mode adjustment information sent by the base station in a receiving time period.

Preferably, the discontinuous acquisition configuration further comprises an indication of a plurality of time periods; wherein the acquisition mode adjustment information comprises a plurality of bits respectively corresponding to each of a plurality of time periods; the acquisition device is used for acquiring the field information based on discontinuous acquisition configuration and acquisition mode adjustment information in a low power consumption mode, and specifically comprises the following steps: obtaining, by an acquisition device, a value for each of a plurality of bits in acquisition mode adjustment information; determining, by the acquisition device, whether to acquire the field information at a certain one of the plurality of time periods based on the value of each of the plurality of bits; if the acquisition device determines that the field information is acquired in a certain time period in a plurality of time periods, the acquisition device acquires the field information in the time period; if the acquisition device determines that the field information is not acquired in a certain period of the plurality of periods, the acquisition device does not acquire the field information.

Preferably, the discontinuous acquisition configuration further comprises an indication of the first period and the second period; the acquisition mode adjustment information comprises a first bit and a second bit, wherein the first bit corresponds to a first period, and the second bit corresponds to a second period; the acquisition device is used for acquiring the field information based on discontinuous acquisition configuration and acquisition mode adjustment information in a low power consumption mode, and specifically comprises the following steps: acquiring a value of a first bit in acquisition mode adjustment information by acquisition equipment; determining, by the acquisition device, whether to acquire the field information during the first period based on the value of the first bit; if the acquisition device determines to acquire the field information in the first period, acquiring the field information in the first period by the acquisition device; if the acquisition device determines that the field information is not acquired during the first period of time, the field information is not acquired by the acquisition device during the first period of time.

Preferably, in the low power consumption mode, the acquisition device acquires the field information based on the discontinuous acquisition configuration and the acquisition mode adjustment information specifically: acquiring a value of a second bit in the acquisition mode adjustment information by the acquisition equipment; determining, by the acquisition device, whether to acquire the field information during the second period based on the value of the second bit; if the acquisition device determines to acquire the field information in the second period, acquiring the field information in the second period by the acquisition device; if the acquisition device determines that the field information is not acquired during the second period of time, the field information is not acquired by the acquisition device during the second period of time.

The invention also provides an intelligent on-site management platform based on the 5G network technology, which comprises a device for carrying out the following operations:

receiving, by the acquisition device, the discontinuous acquisition configuration sent by the server;

after the acquisition equipment receives discontinuous acquisition configuration sent by the base station, the acquisition equipment enters a low power consumption mode;

after the acquisition equipment enters a low power consumption mode, the acquisition equipment receives acquisition mode adjustment information which is sent by a server and is used for adjusting the low power consumption mode;

acquiring field information by the acquisition equipment in a low power consumption mode based on discontinuous acquisition configuration and acquisition mode adjustment information;

the collected site information is uploaded to a server by the collection device.

Preferably, the discontinuous acquisition configuration comprises at least an indication of the acquisition period and an indication of the reception period; the acquisition equipment receives acquisition mode adjustment information sent by the base station in a receiving time period.

Preferably, the discontinuous acquisition configuration further comprises an indication of a plurality of time periods; wherein the acquisition mode adjustment information comprises a plurality of bits respectively corresponding to each of a plurality of time periods; the acquisition device is used for acquiring the field information based on discontinuous acquisition configuration and acquisition mode adjustment information in a low power consumption mode, and specifically comprises the following steps: obtaining, by an acquisition device, a value for each of a plurality of bits in acquisition mode adjustment information; determining, by the acquisition device, whether to acquire the field information at a certain one of the plurality of time periods based on the value of each of the plurality of bits; if the acquisition device determines that the field information is acquired in a certain time period in a plurality of time periods, the acquisition device acquires the field information in the time period; if the acquisition device determines that the field information is not acquired in a certain period of the plurality of periods, the acquisition device does not acquire the field information.

Preferably, the discontinuous acquisition configuration further comprises an indication of the first period and the second period; the acquisition mode adjustment information comprises a first bit and a second bit, wherein the first bit corresponds to a first period, and the second bit corresponds to a second period; the acquisition device is used for acquiring the field information based on discontinuous acquisition configuration and acquisition mode adjustment information in a low power consumption mode, and specifically comprises the following steps: acquiring a value of a first bit in acquisition mode adjustment information by acquisition equipment; determining, by the acquisition device, whether to acquire the field information during the first period based on the value of the first bit; if the acquisition device determines to acquire the field information in the first period, acquiring the field information in the first period by the acquisition device; if the acquisition device determines that the field information is not acquired during the first period of time, the field information is not acquired by the acquisition device during the first period of time.

Preferably, in the low power consumption mode, the acquisition device acquires the field information based on the discontinuous acquisition configuration and the acquisition mode adjustment information specifically: acquiring a value of a second bit in the acquisition mode adjustment information by the acquisition equipment; determining, by the acquisition device, whether to acquire the field information during the second period based on the value of the second bit; if the acquisition device determines to acquire the field information in the second period, acquiring the field information in the second period by the acquisition device; if the acquisition device determines that the field information is not acquired during the second period of time, the field information is not acquired by the acquisition device during the second period of time.

Compared with the prior art, the invention has the following advantages:

the prior art acquisition device generally has two acquisition modes, the first is that the acquisition device acquires the field information periodically according to the stipulation timing of the built-in program, and the disadvantage of the acquisition mode is that the time of the acquisition mode lacks flexibility. The other acquisition mode is that when the server needs to acquire information by the acquisition equipment, the server sends an information acquisition command to the acquisition equipment, and then the acquisition equipment acquires the information of the production site according to the indication of the information acquisition command. The disadvantage of this acquisition mode is the large signaling overhead for acquiring video. In order to overcome the technical problems, the invention provides a solution. The technical scheme of the invention can reduce signaling overhead in the acquisition process while ensuring that the acquisition equipment has certain acquisition flexibility.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a method flow diagram of one embodiment of the present invention.

Fig. 2 is a timing diagram of one example of the present invention.

Fig. 3 is a timing diagram of another example of the present invention.

Fig. 4 is a timing diagram of yet another example of the present invention.

Fig. 5 is a timing diagram of yet another example of the present invention.

Detailed Description

The following detailed description of embodiments of the invention is, therefore, to be taken in conjunction with the accompanying drawings, and it is to be understood that the scope of the invention is not limited to the specific embodiments.

As described above, the prior art collection device generally has two collection modes, the first is that the collection device collects the field information periodically at a prescribed timing of the built-in program, and this collection mode has a disadvantage in that the time of the collection mode lacks flexibility. For example, for a video capture device, a built-in program may specify that the capture device captures video every 5s or every 10s (and the length of each captured video is 2 s), according to which the capture device can only capture video at a fixed time, such as time t, time t+5s, time t+10s, etc. If the server wishes to collect 20s of video continuously by the collection device, the server cannot require the collection device to collect 20s of video continuously due to the limitation of the built-in program. The other acquisition mode is that when the server needs to acquire information by the acquisition equipment, the server sends an information acquisition command to the acquisition equipment, and then the acquisition equipment acquires the information of the production site according to the indication of the information acquisition command. The disadvantage of this acquisition mode is the large signaling overhead for acquiring video. For example, the information acquisition command sent by the server each time needs to include at least an acquisition start time, an acquisition duration, and an acquisition command (i.e., a command to trigger an acquisition process), and if the production site has thousands of acquisition devices, the server sends thousands of information acquisition commands each time during the acquisition process, which greatly increases signaling overhead for acquiring video. One way to solve the above-mentioned solution consists in setting the acquisition device to a normally open mode, i.e. requiring the acquisition device to continuously acquire video of the production site, which is not necessary for monitoring the production site, e.g. when the production site is in a rest state, the acquisition device does not have to continuously acquire video of the production site. In order to overcome the technical problems, the invention provides a solution.

Example 1

FIG. 1 is a method flow diagram of one embodiment of the present invention. As shown, the method of the present invention comprises the steps of:

step 1: receiving, by the acquisition device, the discontinuous acquisition configuration sent by the server; in a specific example, the capturing device may be a device for capturing video, but the scope of the present invention is not limited thereto, and in the present invention, the capturing device may also be a device for continuously capturing multiple frames of images, a device for capturing audio, or a device for continuously capturing temperature and humidity of a production site, etc.

Step 2: after the acquisition equipment receives discontinuous acquisition configuration sent by the base station, the acquisition equipment enters a low power consumption mode; in a specific example, in a mode in which video is intermittently acquired, there is a period in which video does not need to be acquired, in which the acquisition device is in an inactive state, compared to a mode in which video is continuously and continuously acquired, the acquisition device can reduce power consumption.

Step 3: after the acquisition equipment enters a low power consumption mode, the acquisition equipment receives acquisition mode adjustment information which is sent by a server and is used for adjusting the low power consumption mode;

step 4: acquiring field information by the acquisition equipment in a low power consumption mode based on discontinuous acquisition configuration and acquisition mode adjustment information;

step 5: the collected site information is uploaded to a server by the collection device.

Example 2

In embodiment 2, the discontinuous acquisition configuration comprises at least an indication of the acquisition period and an indication of the reception period; as shown in the subsequent embodiments, the discontinuous acquisition configuration may need to include an indication of the acquisition period, an indication of the receive time period, and an indication of the plurality of time periods; it should be understood by those skilled in the art that, based on the format of the configuration information, the discontinuous acquisition configuration itself has a larger size and a larger amount of information, and if the discontinuous acquisition configuration is repeatedly transmitted in order to flexibly adjust the acquisition time of the acquisition device, signaling overhead in the process of acquiring video will be greatly increased. Therefore, the invention only needs to receive the discontinuous acquisition configuration sent by the server once when the acquisition equipment just starts to be powered on, and then can be realized by sending the acquisition mode adjustment information to the acquisition equipment by the server in order to flexibly adjust the acquisition time of the acquisition equipment. In a specific example, the length of the acquisition period may be 20s, 30s, 40s, 50s, etc.; the receive period may be located at the first second or the first two seconds of each acquisition cycle.

The acquisition equipment receives acquisition mode adjustment information sent by the base station in a receiving time period.

Example 3

In embodiment 3, the discontinuous acquisition configuration further comprises an indication of a plurality of time periods; in a specific example, the discontinuous acquisition configuration may have an indication of two periods (e.g., a first period and a second period), in which the server may divide the time in the acquisition period excluding the reception period equally into two periods, forming the first period and the second period, e.g., taking the acquisition period as 30s, the reception period as the first two seconds of the acquisition period, the time in the acquisition period excluding the reception period as the last 28s of the acquisition period, the server dividing the 28s into two periods, the first period as 14s, and the second period as 14s; in another specific example, the server may divide the time excluding the receiving period in the acquisition period into two time periods, thereby forming a first time period and a second time period, for example, taking the acquisition period as 30s, the receiving period as the first two seconds of the acquisition period, the time excluding the receiving period in the acquisition period as the last 28s of the acquisition period, the server dividing the 28s into two time periods, the first time period as 10s, and the second time period as 18s; in another specific example, the server may divide (or may not divide equally) the time excluding the receiving period into four time periods in the acquisition period, thereby forming a first time period, a second time period, a third time period, and a fourth time period, for example, taking the acquisition period as 30s, the receiving period as the first two seconds of the acquisition period, the time excluding the receiving period in the acquisition period as the last 28s of the acquisition period, the server divides the 28s into four time periods, and the first time period, the second time period, the third time period, and the fourth time period are each 7s; it will be appreciated by those skilled in the art that the foregoing method of dividing the time period by the server is merely an example, and that the server may divide more time periods.

Wherein the acquisition mode adjustment information comprises a plurality of bits respectively corresponding to each of a plurality of time periods; in a specific example, if the discontinuous acquisition configuration has an indication for two periods, two bits of information are included in the corresponding acquisition mode adjustment information, wherein a first bit may correspond to a first period, a second bit may correspond to a second period, and in another specific example, if the discontinuous acquisition configuration has an indication for three periods, three bits of information are included in the corresponding acquisition mode adjustment information, wherein a first bit may correspond to a first period, a second bit may correspond to a second period, and a third bit may correspond to a third period;

the acquisition device is used for acquiring the field information based on discontinuous acquisition configuration and acquisition mode adjustment information in a low power consumption mode, and specifically comprises the following steps:

obtaining, by an acquisition device, a value for each of a plurality of bits in acquisition mode adjustment information;

determining, by the acquisition device, whether to acquire the field information at a certain one of the plurality of time periods based on the value of each of the plurality of bits;

if the acquisition device determines that the field information is acquired in a certain time period in a plurality of time periods, the acquisition device acquires the field information in the time period;

if the acquisition device determines that the field information is not acquired in a certain period of the plurality of periods, the acquisition device does not acquire the field information. In a specific example, a first bit in the acquisition mode adjustment information is "0", a second bit in the acquisition mode adjustment information is "1", and a definition of "0" indicates that the field information is not acquired in a period corresponding to the bit, a definition of "1" indicates that the field information is acquired in a period corresponding to the bit, and the acquisition device can acquire whether the field information is to be acquired in each period by decoding and checking each bit of information in the acquisition mode adjustment information.

Example 4

In embodiment 4, the discontinuous acquisition configuration further comprises an indication of the first period and the second period;

the acquisition mode adjustment information comprises a first bit and a second bit, wherein the first bit corresponds to a first period, and the second bit corresponds to a second period;

the acquisition device is used for acquiring the field information based on discontinuous acquisition configuration and acquisition mode adjustment information in a low power consumption mode, and specifically comprises the following steps: acquiring a value of a first bit in acquisition mode adjustment information by acquisition equipment; determining, by the acquisition device, whether to acquire the field information during the first period based on the value of the first bit; if the acquisition device determines to acquire the field information in the first period, acquiring the field information in the first period by the acquisition device; if the acquisition device determines that the field information is not acquired during the first period of time, the field information is not acquired by the acquisition device during the first period of time. Acquiring a value of a second bit in the acquisition mode adjustment information by the acquisition equipment; determining, by the acquisition device, whether to acquire the field information during the second period based on the value of the second bit; if the acquisition device determines to acquire the field information in the second period, acquiring the field information in the second period by the acquisition device; if the acquisition device determines that the field information is not acquired during the second period of time, the field information is not acquired by the acquisition device during the second period of time. In one example, the acquisition mode adjustment information includes a first bit and a second bit, where the first bit is "0" and the second bit is "1", where "0" is defined to indicate that the field information is not acquired in a period corresponding to the bit, and "1" is defined to indicate that the field information is acquired in a period corresponding to the bit, then the acquisition device does not acquire the field information in the first period, and the acquisition device acquires the field information in the second period, and the timing structure diagram of this example is shown in fig. 2 (where hatching in the figure indicates that the field information is not acquired in the period). In another example, the acquisition mode adjustment information includes a first bit and a second bit, where the first bit is "1" and the second bit is "0", and then the acquisition device acquires the field information during the first period, and the acquisition device does not acquire the field information during the second period, and the timing structure diagram of this example is shown in fig. 3 (where hatching in the figure indicates that the field information is not acquired during this period). In yet another example, the acquisition mode adjustment information includes a first bit and a second bit, where the first bit is "1" and the second bit is "1", and then the acquisition device acquires the field information during the first period and the acquisition device acquires the field information during the second period, and the timing structure diagram of this example is shown in fig. 4 (where the hatching indicates that the field information is not acquired during this period). In yet another example, the acquisition mode adjustment information includes a first bit and a second bit, where the first bit is "0" and the second bit is "0", then the acquisition device does not acquire the field information during the first period, and the acquisition device does not acquire the field information during the second period, and the timing structure diagram of this example is shown in fig. 5 (where the hatching in the figure indicates that the field information is not acquired during this period).

Example 5

The invention provides an intelligent on-site management platform based on a 5G network technology, which is characterized by comprising the following devices:

receiving, by the acquisition device, the discontinuous acquisition configuration sent by the server;

after the acquisition equipment receives discontinuous acquisition configuration sent by the base station, the acquisition equipment enters a low power consumption mode;

after the acquisition equipment enters a low power consumption mode, the acquisition equipment receives acquisition mode adjustment information which is sent by a server and is used for adjusting the low power consumption mode;

acquiring field information by the acquisition equipment in a low power consumption mode based on discontinuous acquisition configuration and acquisition mode adjustment information;

the collected site information is uploaded to a server by the collection device.

In a preferred embodiment, the discontinuous acquisition configuration comprises at least an indication of the acquisition period and an indication of the reception period; the acquisition equipment receives acquisition mode adjustment information sent by the base station in a receiving time period.

In a preferred embodiment, the discontinuous acquisition configuration further comprises an indication of a plurality of time periods; wherein the acquisition mode adjustment information comprises a plurality of bits respectively corresponding to each of a plurality of time periods; the acquisition device is used for acquiring the field information based on discontinuous acquisition configuration and acquisition mode adjustment information in a low power consumption mode, and specifically comprises the following steps: obtaining, by an acquisition device, a value for each of a plurality of bits in acquisition mode adjustment information; determining, by the acquisition device, whether to acquire the field information at a certain one of the plurality of time periods based on the value of each of the plurality of bits; if the acquisition device determines that the field information is acquired in a certain time period in a plurality of time periods, the acquisition device acquires the field information in the time period; if the acquisition device determines that the field information is not acquired in a certain period of the plurality of periods, the acquisition device does not acquire the field information.

In a preferred embodiment, the discontinuous acquisition configuration further comprises an indication of the first period and the second period; the acquisition mode adjustment information comprises a first bit and a second bit, wherein the first bit corresponds to a first period, and the second bit corresponds to a second period; the acquisition device is used for acquiring the field information based on discontinuous acquisition configuration and acquisition mode adjustment information in a low power consumption mode, and specifically comprises the following steps: acquiring a value of a first bit in acquisition mode adjustment information by acquisition equipment; determining, by the acquisition device, whether to acquire the field information during the first period based on the value of the first bit; if the acquisition device determines to acquire the field information in the first period, acquiring the field information in the first period by the acquisition device; if the acquisition device determines that the field information is not acquired during the first period of time, the field information is not acquired by the acquisition device during the first period of time.

In a preferred embodiment, the acquisition of the field information by the acquisition device in the low power consumption mode based on the discontinuous acquisition configuration and the acquisition mode adjustment information is specifically: acquiring a value of a second bit in the acquisition mode adjustment information by the acquisition equipment; determining, by the acquisition device, whether to acquire the field information during the second period based on the value of the second bit; if the acquisition device determines to acquire the field information in the second period, acquiring the field information in the second period by the acquisition device; if the acquisition device determines that the field information is not acquired during the second period of time, the field information is not acquired by the acquisition device during the second period of time.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explanation of the principles of the present invention and are in no way limiting of the invention. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present invention should be included in the scope of the present invention. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (6)

1. An intelligent field management method based on a 5G network technology is characterized by comprising the following steps:

receiving, by the acquisition device, the discontinuous acquisition configuration sent by the server;

after the acquisition equipment receives discontinuous acquisition configuration sent by the base station, the acquisition equipment enters a low power consumption mode;

after the acquisition equipment enters the low power consumption mode, the acquisition equipment receives acquisition mode adjustment information which is sent by a server and is used for adjusting the low power consumption mode;

collecting, by the collection device, in the low power consumption mode, on-site information based on the discontinuous collection configuration and the collection mode adjustment information;

uploading the collected site information to the server by the collection device,

wherein the discontinuous acquisition configuration comprises at least an indication of an acquisition period and an indication of a reception period;

wherein the acquisition device receives the acquisition mode adjustment information transmitted by the base station in the reception period,

wherein the discontinuous acquisition configuration further comprises an indication of a plurality of time periods;

wherein the acquisition mode adjustment information comprises a plurality of bits respectively corresponding to each of the plurality of time periods;

wherein, in the low power consumption mode, the acquisition device acquires the field information based on the discontinuous acquisition configuration and the acquisition mode adjustment information specifically as follows:

obtaining, by an acquisition device, a value for each of a plurality of bits in the acquisition mode adjustment information;

determining, by an acquisition device, whether to acquire field information during a certain one of the plurality of time periods based on a value of each of the plurality of bits;

if the acquisition device determines that the field information is acquired in a certain time period in the time periods, the acquisition device acquires the field information in the time period;

if the acquisition device determines that the field information is not acquired in a certain period of the plurality of periods, the acquisition device does not acquire the field information.

2. The method of claim 1, wherein the discontinuous acquisition configuration further comprises an indication of a first period and a second period;

the acquisition mode adjustment information comprises a first bit and a second bit, wherein the first bit corresponds to the first period, and the second bit corresponds to the second period;

wherein, in the low power consumption mode, the acquisition device acquires the field information based on the discontinuous acquisition configuration and the acquisition mode adjustment information specifically as follows:

acquiring a value of a first bit in the acquisition mode adjustment information by acquisition equipment;

determining, by an acquisition device, whether to acquire field information during the first period based on the value of the first bit;

if the acquisition device determines to acquire the field information in the first period, acquiring the field information in the first period by the acquisition device;

if the acquisition device determines that the field information is not acquired in the first period of time, the field information is not acquired by the acquisition device in the first period of time.

3. The method of claim 2, wherein in the low power consumption mode, collecting, by the collecting device, the field information based on the discontinuous collection configuration and the collection mode adjustment information is specifically:

acquiring a value of a second bit in the acquisition mode adjustment information by acquisition equipment;

determining, by the acquisition device, whether to acquire the field information during the second period based on the value of the second bit;

if the acquisition device determines to acquire the field information in the second period, acquiring the field information in the second period by the acquisition device;

if the acquisition device determines that the field information is not acquired in the second period of time, the field information is not acquired by the acquisition device in the second period of time.

4. An intelligent on-site management platform based on 5G network technology, characterized in that the management platform comprises means for:

receiving, by the acquisition device, the discontinuous acquisition configuration sent by the server;

after the acquisition equipment receives discontinuous acquisition configuration sent by the base station, the acquisition equipment enters a low power consumption mode;

after the acquisition equipment enters the low power consumption mode, the acquisition equipment receives acquisition mode adjustment information which is sent by a server and is used for adjusting the low power consumption mode;

collecting, by the collection device, in the low power consumption mode, on-site information based on the discontinuous collection configuration and the collection mode adjustment information;

uploading the collected site information to the server by the collection device,

wherein the discontinuous acquisition configuration comprises at least an indication of an acquisition period and an indication of a reception period;

wherein the acquisition device receives the acquisition mode adjustment information transmitted by the base station in the reception period,

wherein the discontinuous acquisition configuration further comprises an indication of a plurality of time periods;

wherein the acquisition mode adjustment information comprises a plurality of bits respectively corresponding to each of the plurality of time periods;

wherein, in the low power consumption mode, the acquisition device acquires the field information based on the discontinuous acquisition configuration and the acquisition mode adjustment information specifically as follows:

obtaining, by an acquisition device, a value for each of a plurality of bits in the acquisition mode adjustment information;

determining, by an acquisition device, whether to acquire field information during a certain one of the plurality of time periods based on a value of each of the plurality of bits;

if the acquisition device determines that the field information is acquired in a certain time period in the time periods, the acquisition device acquires the field information in the time period;

if the acquisition device determines that the field information is not acquired in a certain period of the plurality of periods, the acquisition device does not acquire the field information.

5. The management platform of claim 4, wherein the discontinuous acquisition configuration further comprises an indication of a first period of time and a second period of time;

the acquisition mode adjustment information comprises a first bit and a second bit, wherein the first bit corresponds to the first period, and the second bit corresponds to the second period;

wherein, in the low power consumption mode, the acquisition device acquires the field information based on the discontinuous acquisition configuration and the acquisition mode adjustment information specifically as follows:

acquiring a value of a first bit in the acquisition mode adjustment information by acquisition equipment;

determining, by an acquisition device, whether to acquire field information during the first period based on the value of the first bit;

if the acquisition device determines to acquire the field information in the first period, acquiring the field information in the first period by the acquisition device;

if the acquisition device determines that the field information is not acquired in the first period of time, the field information is not acquired by the acquisition device in the first period of time.

6. The management platform of claim 5, wherein the acquisition of the site information by the acquisition device in the low power consumption mode based on the discontinuous acquisition configuration and the acquisition mode adjustment information is specifically:

acquiring a value of a second bit in the acquisition mode adjustment information by acquisition equipment;

determining, by the acquisition device, whether to acquire the field information during the second period based on the value of the second bit;

if the acquisition device determines to acquire the field information in the second period, acquiring the field information in the second period by the acquisition device;

if the acquisition device determines that the field information is not acquired in the second period of time, the field information is not acquired by the acquisition device in the second period of time.

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