CN114071770A - Communication control method and device based on intelligent communication management gateway - Google Patents

Abstract

The embodiment of the invention discloses a communication control method based on an intelligent communication management gateway, which comprises the following steps: determining the current time period, and acquiring an adjustment cycle set in the corresponding time period; in the adjustment period, counting the equipment point access quantity and the equipment operation load of each node service equipment, and analyzing the trend of the equipment access quantity and the equipment operation load according to the counting result; and scheduling the access equipment of each node service equipment based on the equipment access amount, the trend analysis result of the equipment operation load and a preset communication quality threshold. The access equipment scheduling method and the access equipment scheduling system have the advantages that reasonable scheduling of the access equipment is achieved by counting the equipment point access quantity and the equipment operation load of each node service equipment in each time period and analyzing the trend, the problems that in the prior art, when the access equipment is scheduled, a judgment mechanism is complex, and adjustment efficiency is low due to the fact that independent judgment is needed are solved, the overall operation efficiency of the system is improved, and meanwhile the communication service quality of the equipment is guaranteed.

Description

Communication control method and device based on intelligent communication management gateway

Technical Field

The embodiment of the application relates to the field of communication, in particular to a communication control method and device based on an intelligent communication management gateway.

Background

With the development of network technology, a large amount of access devices need to be accessed into a network at any time to obtain services of the same large amount of node service devices. How to reasonably allocate the scheduling to the access devices is a current major problem to be solved.

In the prior art, a load balancing technology is usually adopted to realize the relative average of the operation load of each node service device, but the method needs to schedule the access device in real time, the control of the complex and fine operation is not favorable for the overall operation efficiency of the system, needs to be improved,

disclosure of Invention

The embodiment of the invention provides a communication control method and a communication control device based on an intelligent communication management gateway, which solve the problems of low regulation efficiency caused by complex judgment mechanism and independent judgment when access equipment scheduling is carried out in the prior art, improve the overall operation efficiency of a system and ensure the communication service quality of equipment at the same time.

In a first aspect, the present embodiment provides a communication control method based on an intelligent communication management gateway, including:

determining the current time period, and acquiring an adjustment cycle set in the corresponding time period;

in the adjustment period, counting the equipment point access quantity and the equipment operation load of each node service equipment, and analyzing the trend of the equipment access quantity and the equipment operation load according to the counting result;

and scheduling the access equipment of each node service equipment based on the equipment access amount, the trend analysis result of the equipment operation load and a preset communication quality threshold.

Further, different time periods correspond to different adjustment cycles, and before determining the current time period, the method further includes:

and counting the equipment access time of each node service equipment all day, and dividing time periods according to the counting result, wherein the more concentrated the equipment access time is, the shorter the interval of the corresponding divided time periods is.

Further, the performing of trend analysis of the device access amount and the device operation load according to the statistical result includes:

and determining that the access amount of the equipment and the operation load of the equipment are in an increasing trend or a decreasing trend according to the statistical result.

Further, the scheduling the access device of each node service device based on the trend analysis result of the device access amount and the device operation load and a preset communication quality threshold includes:

and if the equipment access amount of the node service equipment and the equipment operation load are determined to be increasing trends, changing the original scheduling distribution mechanism, randomly selecting a preset number of original access equipment, and controlling the original access equipment to access other node service equipment.

Further, the scheduling the access device of each node service device based on the trend analysis result of the device access amount and the device operation load and a preset communication quality threshold includes:

if the equipment access amount of the node service equipment and the equipment operation load are determined to be descending trends, controlling the randomly selected preset number of access equipment to access the descending node service equipment, carrying out real-time statistics on a communication quality threshold value in the access process of the access equipment, and stopping the access of the access equipment if the communication quality threshold value does not meet the condition of the preset communication quality threshold value, wherein the communication quality threshold value comprises any one or more of a stuck value, a data retransmission value and a data packet loss value.

In a second aspect, the present embodiment provides a communication control apparatus based on an intelligent communication management gateway, including:

the time interval determining module is used for determining the current time interval and acquiring the adjusting period set by the corresponding time interval;

the statistical analysis module is used for counting the equipment point access quantity and the equipment running load of each node service equipment in the adjustment period and analyzing the trend of the equipment access quantity and the equipment running load according to the statistical result;

and the scheduling processing module schedules the access equipment of each node service equipment based on the equipment access amount, the trend analysis result of the equipment operation load and a preset communication quality threshold.

Further, the statistical analysis module is specifically configured to:

determining the access amount of the equipment and the running load of the equipment to be in an increasing trend or a decreasing trend according to the statistical result;

the scheduling processing module is specifically configured to:

and if the equipment access amount of the node service equipment and the equipment operation load are determined to be increasing trends, changing the original scheduling distribution mechanism, randomly selecting a preset number of original access equipment, and controlling the original access equipment to access other node service equipment.

Further, the scheduling processing module is specifically configured to:

if the equipment access amount of the node service equipment and the equipment operation load are determined to be descending trends, controlling the randomly selected preset number of access equipment to access the descending node service equipment, carrying out real-time statistics on a communication quality threshold value in the access process of the access equipment, and stopping the access of the access equipment if the communication quality threshold value does not meet the condition of the preset communication quality threshold value, wherein the communication quality threshold value comprises any one or more of a stuck value, a data retransmission value and a data packet loss value.

In a third aspect, this embodiment provides a communication control device based on an intelligent communication management gateway, where the device includes: one or more processors; a storage device, configured to store one or more programs, when the one or more programs are executed by the one or more processors, the one or more processors implement any of the above-mentioned communication control methods based on an intelligent communication management gateway.

In a fourth aspect, the present embodiment provides a storage medium storing computer-executable instructions, which when executed by a computer processor, are configured to perform any one of the above-mentioned communication control methods based on an intelligent communication management gateway.

According to the technical scheme, reasonable scheduling of the access equipment is realized by counting the equipment point access quantity and the equipment operation load of each node service equipment in each time period and analyzing the trend, the problems that in the prior art, when the access equipment is scheduled, a judgment mechanism is complex, and adjustment efficiency is low due to independent judgment are solved, the overall operation efficiency of a system is improved, and meanwhile, the communication service quality of the equipment is guaranteed.

Drawings

Fig. 1 is a specific flowchart of a communication control method based on an intelligent communication management gateway according to an embodiment of the present invention;

fig. 2 is a specific flowchart of another communication control method based on an intelligent communication management gateway according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a communication control apparatus based on an intelligent communication management gateway according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a communication control device based on an intelligent communication management gateway according to an embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad invention. It should be further noted that, for convenience of description, only some structures, not all structures, relating to the embodiments of the present invention are shown in the drawings.

Fig. 1 is a flowchart of a communication control method based on an intelligent communication management gateway according to an embodiment of the present invention, where the communication control method based on the intelligent communication management gateway according to the embodiment of the present invention may be implemented by a communication control device based on the intelligent communication management gateway, and the communication control device based on the intelligent communication management gateway may be implemented in a hardware and/or software manner and integrated in a computer device. Referring to fig. 1, the method may specifically include:

s101, determining the current time period, and acquiring the adjustment cycle set by the corresponding time period.

The time period refers to a time period divided according to the equipment access time of each node service equipment in the whole day, and the adjustment cycle refers to a cycle for adjusting the equipment accessed by each node service equipment, which is correspondingly set according to the time period. Specifically, the time period is divided according to the device access time of each node service device in the whole day, the division of the time period may be divided according to the number of access devices of the access node service device, and when the access device is adjusted, the time period in which the access device access time is located is firstly obtained, and then the adjustment cycle corresponding to the time period is obtained. It can be understood that the time periods and the adjustment cycles are in one-to-one correspondence, and since the time of each time period is different, the corresponding adjustment cycles are different, and the specific adjustment cycle is set by a technician according to the time periods.

In one embodiment, the time period is divided according to the device access time of each node service device in the whole day, the time period may be divided according to the number of access devices of the access node service device, and for example, the time period of each 30 devices accessing the node service device is divided into one time period, 12: 00-12: there are 30 devices access node serving devices during 15 periods, 12: 15-12: there are 30 devices access node serving devices during 40 periods, 12: 00-12:15 is a period, 12: 15-12: 40 is a time period, and illustratively, the time period during which the access device to be adjusted is located is 12: 00-12:15, 12: 00-12: the 15 period corresponds to a set adjustment period of 2S, that is, every 2S pairs 12: the access equipment in the time period of 00-12:15 is adjusted once.

S102, in the adjusting period, the equipment point access quantity and the equipment operation load of each node service equipment are counted, and the trend analysis of the equipment access quantity and the equipment operation load is carried out according to the counting result.

The operation load refers to the operation capacity of each node service device, the operation load is divided into three operation states of high load, low load and balanced load, the temperature can continuously rise when the device is in the high operation load state for a long time, hardware can be damaged when the device is serious, and the device cannot be fully applied when the device is in the low load operation state for a long time, so that resource waste is caused. When the equipment is in a balanced load state, the effects of enhancing the data processing capacity of the equipment and improving the flexibility and the usability of the equipment can be achieved.

In an embodiment, after an adjustment period corresponding to a time period is determined, statistics are performed on the device point access number and the device operation load of each node service device in the adjustment period, for example, the node service device operation capacity is 100, in a 2S adjustment period, the number of device point accesses to the first node service device is 5, the device operating load is 75, the number of device point accesses to the second node service device is 10, the device operating load is 95, the number of device point accesses to the third node service device is 2, and the device operating load is 40, analyzing the statistical results in each adjustment period, and predicting the device access amount and the device operating load trend in the next adjustment period.

S103, scheduling the access equipment of each node service equipment based on the equipment access amount, the trend analysis result of the equipment operation load and a preset communication quality threshold.

The communication quality threshold refers to a value calculated by how good or bad the communication satisfies the utility of the user in terms of communication demand, and includes any one or more of a stuck value, a data retransmission value, and a data packet loss value. Specifically, based on the device access amount and the trend analysis result of the device operation load, and comparing the calculated communication quality threshold with a preset communication quality threshold, the access device of each node service device is scheduled.

The time points of the access devices of the device points of the node service devices in the whole day are counted, time intervals are divided according to the time points corresponding to the preset number of access devices, a corresponding adjusting period is set according to the time intervals, the device access number and the operation load of each node service device in the counting period are analyzed, and trend prediction is carried out based on the analysis. And scheduling the access equipment of each node service equipment by combining with a preset communication quality threshold. The method and the device realize reasonable scheduling of the access equipment, solve the problems that in the prior art, when the access equipment is scheduled, a judgment mechanism is complex, and adjustment efficiency is low due to independent judgment, improve the overall operation efficiency of a system, and simultaneously ensure the communication service quality of the equipment.

Based on the foregoing embodiment, fig. 2 is a specific flowchart of another communication control method based on an intelligent communication management gateway according to an embodiment of the present invention. The communication control method based on the intelligent communication management gateway is an embodiment of the communication control method based on the intelligent communication management gateway provided in fig. 1. Referring to fig. 2, the communication control method based on the intelligent communication management gateway includes:

s201, counting the equipment access time of each node service equipment all day, and dividing time periods according to the counting result, wherein the more concentrated the equipment access time is, the shorter the interval of the corresponding divided time periods is, the current time period is determined, and the adjustment period set by the corresponding time period is obtained.

In an embodiment, the time period may be divided according to the number of access devices of the access node service devices, the device access time of each node service device is counted all day long, and the time period is divided according to the access time corresponding to the preset number of access devices. Further, the more concentrated the device access time, the shorter the device accesses the preset number of access devices, and correspondingly, the shorter the interval of the corresponding divided time period. Illustratively, the time period for each 30 devices to access the node serving device is divided into a time period, 12: 00-12: there are 30 devices access node serving devices during 15 periods, 12: 15-12: there are 30 devices access node serving devices during 40 periods, 12: 00-12:15 is a period, 12: 15-12: 40 is a time period, and illustratively, the time period during which the access device to be adjusted is located is 12: 00-12:15, 12: 00-12: the 15 period corresponds to a set adjustment period of 2S, that is, every 2S pairs 12: the access equipment in the time period of 00-12:15 is adjusted once.

S202, in the adjusting period, the equipment point access quantity and the equipment operation load of each node service equipment are counted, and the equipment access quantity and the equipment operation load are determined to be in an increasing trend or a decreasing trend according to the counting result.

In one embodiment, for example, the capacity of the node service device is 100, and for the first node service device, in the first adjustment period, the number of device node accesses to the first node service device is 5, the device operating load is 75, the number of device node accesses to the second node service device is 10, the device operating load is 90, the number of device node accesses to the third node service device is 3, and the device operating load is 60; in the second adjustment period, the device point access number of the first node service device is 6, the device running load is 78, the device point access number of the second node service device is 12, the device running load is 95, the device point access number of the third node service device is 2, the device running load is 53, and the device point access number of the first node device and the device running load of the second node service device are predicted to be an increasing trend and the device point access number of the third node device and the device running load of the third node device are predicted to be a decreasing trend through the statistical analysis comparison of the first adjustment period and the second adjustment period.

S203, if the equipment access amount of the node service equipment and the equipment operation load are determined to be increasing trends, the original scheduling distribution mechanism is changed, a preset number of original access equipment is randomly selected, and the original access equipment is controlled to be accessed to other node service equipment.

In an embodiment, if it is determined that the device access amount and the operating load of the node service device are both increasing trends, for example, in a previous adjustment period, the device point access amount of the node service device is 5, the device operating load is 75, in this adjustment period, the device point access amount of the node service device is 8, and the device operating load is 85, it is determined that the device access amount and the operating load of the node service device are both increasing trends, an original scheduling allocation mechanism is changed, a preset number of original access devices are randomly selected, for example, the preset number is 2, 2 original access devices are randomly selected, and the selected access device is controlled to access to another node server.

S204, if the node service equipment with the descending trend is determined to be accessed, the communication quality threshold is counted in real time in the access process of the access equipment, if the communication quality threshold does not meet the condition of the preset communication quality threshold, the access of the access equipment is stopped, and the communication quality threshold comprises any one or more of a pause value, a data retransmission value and a data packet loss value.

Factors influencing the communication quality threshold may be determined according to a user's requirement for transmission data, in one embodiment, the user has requirements for the stuck degree, the data retransmission number, and the data packet loss rate of the transmission data, and the communication quality threshold is calculated by performing weighted average on the stuck value, the data retransmission value, and the data packet loss rate value, for example, the weights of the stuck value, the data retransmission value, and the data packet loss rate value are set to 0.2, 0.3, and 0.5, respectively, and the stuck value, the data retransmission value, and the data packet loss rate value are set to 70, 80, and 90, respectively, and the communication quality threshold is 83. Further, the higher the numerical value corresponding to the stuck value, the data retransmission value, and the data packet loss rate value is, the lower the stuck degree, the data retransmission times, and the data packet loss rate are. The factors affecting the communication quality threshold include any one or more of a stuck value, a data retransmission value, and a data packet loss rate value.

In one embodiment, if it is determined that a node service device with a decreasing trend is accessed, for example, in a last adjustment period, the device point access number of the node service device is 5, the device operation load is 75, in this adjustment period, the device point access number of the node service device is 3, and the device operation load is 60, it is determined that both the device access amount and the operation load of the node service device are decreasing trends, and meanwhile, the communication quality threshold does not satisfy the preset communication quality threshold condition, illustratively, the communication quality threshold is 65, and the preset communication quality threshold is 80, at this time, the access of the access device to the node service device is stopped.

In the above, the device access number and the operation load of each node service device in the statistical period are analyzed, and trend prediction is performed based on the analysis. Scheduling access equipment of each node service equipment in combination with a preset communication quality threshold, specifically, if the equipment access amount and the equipment operation load of the node service equipment are determined to be increasing trends, changing an original scheduling distribution mechanism, randomly selecting a preset number of original access equipment, and controlling the original access equipment to access other node service equipment; and if the node service equipment with the descending trend is determined to be accessed, the communication quality threshold value is counted in real time in the access process of the access equipment, and if the communication quality threshold value does not meet the condition of the preset communication quality threshold value, the access of the access equipment is stopped. The method and the device realize reasonable scheduling of the access equipment, solve the problems that in the prior art, when the access equipment is scheduled, a judgment mechanism is complex, and adjustment efficiency is low due to independent judgment, improve the overall operation efficiency of a system, and simultaneously ensure the communication service quality of the equipment.

Fig. 3 is a schematic structural diagram of a communication control apparatus based on an intelligent communication management gateway according to an embodiment of the present invention, and referring to fig. 3, the schematic structural diagram of the communication control apparatus based on the intelligent communication management gateway according to the embodiment specifically includes: the period determination module 301, the statistical analysis module 302, and the scheduling processing module 303 may be connected by a bus or other means, and fig. 3 illustrates an example of connection by a bus.

The time period determining module 301 is configured to determine a current time period, and acquire an adjustment cycle set in the corresponding time period.

In one embodiment, the period determining module 301 is specifically configured to: dividing the time period according to the device access time of each node service device in the whole day, wherein the time period may be divided according to the number of access devices of the access node service device, and exemplarily, dividing the time period of accessing the node service device into every 30 devices into one time period, 12: 00-12: there are 30 devices access node serving devices during 15 periods, 12: 15-12: there are 30 devices access node serving devices during 40 periods, 12: 00-12:15 is a period, 12: 15-12: 40 is a time period, and illustratively, the time period during which the access device to be adjusted is located is 12: 00-12:15, 12: 00-12: the 15 period corresponds to a set adjustment period of 2S, that is, every 2S pairs 12: the access equipment in the time period of 00-12:15 is adjusted once.

The statistical time division module 302 is configured to perform statistics on the device point access number and the device operation load of each node service device in the adjustment period, and perform trend analysis on the device access amount and the device operation load according to a statistical result.

In an embodiment, the statistical time division module 302 is specifically configured to: and setting a corresponding adjustment cycle according to the time interval, counting the equipment access quantity and the operation load of each node service equipment in the cycle, analyzing, and predicting the trend based on the equipment access quantity and the operation load.

The scheduling processing module 303 schedules the access device of each node service device based on the device access amount, the trend analysis result of the device operation load, and a preset communication quality threshold.

In an embodiment, the scheduling processing module 303 is specifically configured to: if the equipment access amount of the node service equipment and the equipment operation load are determined to be increasing trends, an original scheduling distribution mechanism is changed, a preset number of original access equipment is randomly selected, and the original access equipment is controlled to be accessed to other node service equipment; if the equipment access amount of the node service equipment and the equipment operation load are determined to be descending trends, controlling the randomly selected preset number of access equipment to access the descending trend node service equipment, counting a communication quality threshold value in real time in the access equipment access process, and stopping the access of the access equipment if the communication quality threshold value does not meet the preset communication quality threshold value condition.

The communication control device based on the intelligent communication management gateway provided by the embodiment of the application can be used for executing the communication control method based on the intelligent communication management gateway provided by the embodiment, and has corresponding functions and beneficial effects.

Fig. 4 is a schematic structural diagram of a communication control device based on an intelligent communication management gateway according to an embodiment of the present invention. As shown in fig. 4, the apparatus includes a processor 401, a memory 402, an input device 403, and an output device 404; the number of the processors 401 in the device may be one or more, and one processor 401 is taken as an example in fig. 4; the processor 401, the storage 402, the input means 403 and the output means 404 in the device may be connected by a bus or other means, as exemplified by a bus in fig. 4. The memory 402, which is a computer-readable storage medium, may be used for storing software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the message queue-based order processing method in the embodiments of the present invention. The processor 401 executes various functional applications and data processing of the device by running software programs, instructions and modules stored in the memory 402, so as to implement the communication control method based on the intelligent communication management gateway provided above. The input device 403 may be used to receive input numeric or character information and generate key signal inputs related to user settings and function control of the apparatus. The output device 404 may include a display device such as a display screen.

Of course, the storage medium provided in the embodiments of the present application contains computer-executable instructions, and the computer-executable instructions are not limited to the communication intelligent control method described above, and may also perform related operations in the communication intelligent control method provided in any embodiments of the present application.

It should be noted that, in the embodiment of the communication control apparatus based on the intelligent communication management gateway, the included units and modules are only divided according to the functional logic, but are not limited to the above division, as long as the corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the embodiment of the invention.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. Those skilled in the art will appreciate that the embodiments of the present invention are not limited to the specific embodiments described herein, and that various obvious changes, adaptations, and substitutions are possible, without departing from the scope of the embodiments of the present invention. Therefore, although the embodiments of the present invention have been described in more detail through the above embodiments, the embodiments of the present invention are not limited to the above embodiments, and many other equivalent embodiments may be included without departing from the concept of the embodiments of the present invention, and the scope of the embodiments of the present invention is determined by the scope of the appended claims.

Claims (10)

1. The communication control method based on the intelligent communication management gateway is characterized by comprising the following steps:

determining the current time period, and acquiring an adjustment cycle set in the corresponding time period;

in the adjustment period, counting the equipment point access quantity and the equipment operation load of each node service equipment, and analyzing the trend of the equipment access quantity and the equipment operation load according to the counting result;

and scheduling the access equipment of each node service equipment based on the equipment access amount, the trend analysis result of the equipment operation load and a preset communication quality threshold.

2. The communication control method based on intelligent communication management gateway according to claim 1, wherein different time periods correspond to different adjustment cycles, and before determining the current time period, the method further comprises:

and counting the equipment access time of each node service equipment all day, and dividing time periods according to the counting result, wherein the more concentrated the equipment access time is, the shorter the interval of the corresponding divided time periods is.

3. The communication control method based on intelligent communication management gateway according to claim 1, wherein the performing trend analysis of the device access amount and the device operation load according to the statistical result comprises:

and determining that the access amount of the equipment and the operation load of the equipment are in an increasing trend or a decreasing trend according to the statistical result.

4. The communication control method based on the intelligent communication management gateway as claimed in claim 3, wherein the scheduling of the access device of each node service device based on the trend analysis result of the device access amount and the device operation load and a preset communication quality threshold comprises:

and if the equipment access amount of the node service equipment and the equipment operation load are determined to be increasing trends, changing the original scheduling distribution mechanism, randomly selecting a preset number of original access equipment, and controlling the original access equipment to access other node service equipment.

5. The communication control method based on the intelligent communication management gateway as claimed in claim 4, wherein the scheduling of the access device of each node service device based on the trend analysis result of the device access amount and the device operation load and a preset communication quality threshold comprises:

if the equipment access amount of the node service equipment and the equipment operation load are determined to be descending trends, controlling the randomly selected preset number of access equipment to access the descending node service equipment, carrying out real-time statistics on a communication quality threshold value in the access process of the access equipment, and stopping the access of the access equipment if the communication quality threshold value does not meet the condition of the preset communication quality threshold value, wherein the communication quality threshold value comprises any one or more of a stuck value, a data retransmission value and a data packet loss value.

6. Communication control device based on intelligent communication management gateway, its characterized in that includes:

the time interval determining module is used for determining the current time interval and acquiring the adjusting period set by the corresponding time interval;

the statistical analysis module is used for counting the equipment point access quantity and the equipment running load of each node service equipment in the adjustment period and analyzing the trend of the equipment access quantity and the equipment running load according to the statistical result;

and the scheduling processing module schedules the access equipment of each node service equipment based on the equipment access amount, the trend analysis result of the equipment operation load and a preset communication quality threshold.

7. The intelligent communications management gateway-based communications control apparatus according to claim 6, wherein the statistical analysis module is specifically configured to:

determining the access amount of the equipment and the running load of the equipment to be in an increasing trend or a decreasing trend according to the statistical result;

the scheduling processing module is specifically configured to:

and if the equipment access amount of the node service equipment and the equipment operation load are determined to be increasing trends, changing the original scheduling distribution mechanism, randomly selecting a preset number of original access equipment, and controlling the original access equipment to access other node service equipment.

8. The intelligent communications management gateway-based communications control apparatus according to claim 7, wherein the scheduling processing module is specifically configured to:

if the equipment access amount of the node service equipment and the equipment operation load are determined to be descending trends, controlling the randomly selected preset number of access equipment to access the descending node service equipment, carrying out real-time statistics on a communication quality threshold value in the access process of the access equipment, and stopping the access of the access equipment if the communication quality threshold value does not meet the condition of the preset communication quality threshold value, wherein the communication quality threshold value comprises any one or more of a stuck value, a data retransmission value and a data packet loss value.

9. A communication control device based on an intelligent communication management gateway, the device comprising: one or more processors; a storage device for storing one or more programs which, when executed by the one or more processors, cause the one or more processors to implement the intelligent communications management gateway-based communications control method of any one of claims 1-5.

10. A storage medium storing computer executable instructions for performing the intelligent communications management gateway based communications control method of any of claims 1-5 when executed by a computer processor.

Images