CN114727241B - Method for improving short message group sending efficiency - Google Patents

Abstract

The invention provides a method for improving the mass sending efficiency of short messages, which comprises the following steps: s1, sorting and screening operators to which numbers belong through number segment rules; s2, screening operators supported by each channel; s3, acquiring detailed parameters of each channel, and grading each channel according to grading standards; s4, setting a priority sending channel according to the channel grading value from high to low. The invention can evaluate the capacity of the short message channel and select the optimal channel to send the current short message, thereby improving the short message group sending efficiency.

Description

Method for improving short message group sending efficiency

Technical Field

The invention relates to the technical field of cloud communication, in particular to a method for improving short message group sending efficiency.

Background

With the rapid development of the information age, the marketing and promotion modes are more and more diversified. Cloud communication service is one of the mainstream popularization modes due to the advantages of being accurate, efficient, low in cost and the like. However, with the continuous expansion of cloud communication services, problems are gradually presented, and particularly, in a short message group sending function, short message sending delay is slow often caused by insufficient throughput, congestion in peak time, excessive channel load and other reasons, and if the problem is sending emergency group sending short message service, immeasurable results are caused.

Disclosure of Invention

The invention aims at least solving the technical problems in the prior art, and particularly creatively provides a method for improving the short message group sending efficiency.

In order to achieve the above object of the present invention, the present invention provides a method for improving the efficiency of short message group sending, comprising the following steps:

S1, sorting and screening operators to which numbers belong through number segment rules;

S2, screening operators supported by each channel;

s3, acquiring detailed parameters of each channel, and grading each channel according to grading standards;

s4, setting a priority sending channel according to the channel grading value from high to low.

When in mass sending, the number of the short message to be sent is firstly judged to be the channel which can be sent by the number, then the channel with the highest grading value is selected as the priority sending channel, and other unselected channels are selected as the alternative channels. And the short message is sent to the message gateway through the sending channel, if the message gateway returns failure information, the channel is continuously selected from the alternative channels according to the scoring standard, and the short message is sent to the message gateway again.

The detailed parameters of each channel are monitored in real time, and the grading value is calculated according to the detailed parameters of the channels, so that the grading value is changed in real time, and the most suitable channel can be accurately selected.

Further, the number segment rule in S1 includes:

The front at least 3 digits of the number are used as a judgment standard of an operator to which the number belongs.

Further, the detailed parameters in S3 include one or any combination of the following:

channel load, current state, channel concurrency, channel delay, channel flow rate.

The channel load represents the short message task in the queue in the channel.

Further, the scoring criteria include:

s3-1, judging whether the current channel is abnormal or not:

if the channel is not the abnormal channel, executing the next step;

if the channel is an abnormal channel, adding one to the abnormal value of the channel, jumping to the next channel, and executing the step S3-1 again; the channel abnormality is determined by the channel concurrency, the channel time delay and the channel flow rate, and when the channel concurrency, the channel time delay and the channel flow rate are all higher than the average value, the channel abnormality is caused.

S3-2, judging whether the current state of the current channel is in an idle state or not:

If the device is in the idle state, the next step is executed,

If not, jumping to the next channel and executing the step S3-1; the current state includes: and the current state is judged according to the channel load.

S3-3, calculating the idle rate of the current channel, wherein the idle rate of the channel is calculated by the following steps:

Idle rate = 1-current number of lane loads/maximum capacity of lane loads;

s3-4, detecting the current channel concurrency, channel time delay and channel flow rate;

s3-5, calculating the scoring value of the current channel by the following formula:

T=q ₁ x outliers+q ₂ x channel concurrency-q ₃ x channel delay+q ₄ x channel flow rate

Wherein q ₁、q₂、q₃、q₄ is an outlier, a channel concurrency, a channel delay, and a weight value of a channel flow rate, respectively.

The "q ₁ abnormal value" can represent the quality index of the current channel, the subsequent part of the "q ₂ channel concurrency quantity-q ₃ channel delay +q ₄ channel flow rate" can represent the flow rate of the current channel, and the scoring value of the current channel can be obtained reasonably through calculation of the two parts.

Further, S4 includes the following steps:

S4-1, performing discarding operation on the channels with the score value lower than S _l, and evaluating the channels with the score value lower than S _l～s_m as secondary, and evaluating the channels with the score value higher than S _m as priority, wherein S _l is a first segmentation value, S _m is a second segmentation value, and S _l＜s_m;

s4-2, sorting the channels with the labels of priority and secondary according to the scoring values from high to low;

s4-3, setting the channel arranged at the first as a priority sending channel.

Dividing the channels into a priority and a secondary, deleting the channels with low scores is beneficial to the fact that when the priority sending channel fails to send, a large amount of data is not required to be called for judgment, the channels are only required to be selected again in the priority, and if the priority does not have other channels, the channels are called in the secondary. Compared with the method for directly sequencing various channel partitions, the method can quickly call the channel data and select the optimal channel again, so that the efficiency of selecting the channel is improved.

Further, an abnormality notification prohibition section is included that prohibits use of the channel when the occurrence frequency of the abnormality exceeds a predetermined frequency, and transmits specific information of the channel to the system front end.

Further comprises: an authorization operation is performed before step S1.

In summary, by adopting the technical scheme, the invention can select the optimal channel to send the current short message through capability evaluation of the short message channel, thereby improving the short message group sending efficiency.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic flow chart of the present invention.

Fig. 2 is a schematic diagram of a short message sending process of the cloud communication platform of the present invention.

FIG. 3 is a diagram of an optimal channel screening framework of the present invention.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

The invention provides a method for improving the mass sending efficiency of short messages, as shown in figure 1, comprising the following steps:

S1: and judging all the numbers of the receivers, and classifying and screening operators to which the numbers belong through the number segment rules.

For example: the mobile phone number of the first three digits= "133, 153, 180, 181 …" is a mobile phone number, and the mobile phone number of the first three digits= "134, 135, 136, 151 …" is a mobile phone number.

S2: before task data transmission, 3 short message tasks M1, M2 and M3 of different operators are sent to each Channel to respectively represent mobile, communication and telecommunication mobile phone numbers, and if the results returned by the M1 sending task have successful Channel1, channel2 and Channel3 sending, the mobile is supported by the 3 channels. If the results returned by the M2 sending task include that Channel1 and Channel4 are sent successfully, the mobile support and the communication support are represented by Channel1, and Channel4 support communication … can screen operators supported by each Channel.

S3: and acquiring detailed parameters of each channel, setting a scoring standard, adding scores obtained by all the parameters through the scoring standard, and finally obtaining the scoring value of each channel.

Wherein the detailed parameters of each channel are as in step 203: channel load, current state, channel delay, channel flow rate, concurrency, etc.

Wherein scoring criteria, such as "concurrency" <10, yield a score of 1; 10< "> concurrency" <100, 2 points; 100< "> concurrency" <200, score 3 … was similarly set for each parameter.

S4: the priority transmission channel is set according to the channel score value from high to low.

The specific embodiment is shown in fig. 2 and 3, and includes the following steps:

1. The merchant edits the short message content and the number of the receiver (201) through the cloud communication platform and clicks and sends the short message content and the number of the receiver;

2. Acquiring operators (102, 202) to which the current short message belongs through judging the number;

3. acquiring state information of all channels, and acquiring the number and the names of the channels supporting the sending of the current short message through judging all the channels (103, 203);

4. Performing data operation (204) on all channels supporting sending the current short message;

5. Outputting a channel operation scoring result (205);

6. Selecting a channel with the highest score to send a current short message (206);

7. the above steps are all cyclic repetition steps, and the state of the channel is derived from historical transmission data and transmission state reading is implemented.

In a preferred embodiment of the present invention, further comprising: performing an authorization operation before the step S1, wherein the authorization operation comprises the following steps:

S100, a login request is sent to a short message group sending system; the short message group sending is completed through a short message group sending system.

S200, the short message group sending system acquires login node information for initiating a login request, wherein the login node information comprises an IP (Internet protocol) or/and Mac (Mac) address, and after the short message group sending system successfully logs in, the acquired short message group sending authority information corresponding to the login node is returned to the login node, and the short message group sending authority information comprises a group sending user and a mobile phone number corresponding to the group sending user;

The short message group sending system performs the following operations on the obtained login node information:

Node login verification number＝HASH{η}，

Wherein Node login verification number represents a login authentication node code;

HASH { } represents a HASH algorithm using MD 5;

η represents login node information;

Where η _IP denotes the IP of the login node; if the acquired IP is 14.104.50.83, the point is removed and recorded as 141045083.

Η _Mac denotes the Mac address of the login node; if the Mac address obtained is 30:B4:9E:BE:DB:45, then the colon is removed and marked as 30B49 EBEDB.

If only has eta _IP shows that the SMS mass-sending system only obtains the IP of the login node;

f only has eta _Mac shows that the short message mass-sending system only obtains the Mac address of the login node;

if has eta _IP andη_Mac shows that the SMS mass-sending system obtains the IP and Mac address of the login node;

Character connection symbol between IP and Mac; for example, the acquired IP η _IP is 14.104.50.83, the acquired Mac address η _Mac is 30:b4:9e:be:db:45, η _IP&η_Mac =141045083 &30B 49ebedb45= 14104508330B49EBEDB45.

Judging whether the login verification node code Node login verification number exists in the short message group sending system or not:

If the login verification node code Node login verification number exists in the short message group sending system, the login node successfully logs in the short message group sending system;

If the login verification node code Node login verification number does not exist in the short message group sending system, the login node fails to log in the short message group sending system and reminds the user; the reminding is that the login node does not exist, and a login verification node code is preset in the short message mass sending system.

S300, returning the selected group sending user to the short message group sending system, and sending the generated authorization password to the mobile phone number bound by the login node by the short message group sending system according to the selected group sending user;

S400, judging whether the authorization password sent by the login node received by the short message mass-sending system is consistent with the generated authorization password or not:

If the short message group sending system receives that the authorization password sent by the login node is consistent with the generated authorization password, short message group sending is realized for the group sending user at a set time point;

if the short message group sending system receives that the authorization password sent by the login node is inconsistent with the generated authorization password, returning to the step S300.

In a preferred embodiment of the present invention, in step S400, the sms group sending system performs the following operations according to the advance release or interception information sent by the login node or the mobile phone number bound by the login node:

If the short message group sending system receives the advance release information, the short message group sending system instantly sends the short message group to the group sending user at the set time point when receiving the advance release information;

if the short message group sending system receives the interception information, the short message group sending system intercepts the short message of the group sending user at the set time point and does not send the short message when receiving the interception information.

In a preferred embodiment of the present invention, the method for generating the authorization password in step S300 includes the steps of:

firstly, filling a group sending user into an excel form to obtain a group sending user form;

step two, converting the group sending user form obtained in the step one into a group sending user picture;

Thirdly, the group sending user picture obtained in the second step is utilized to obtain a group sending code by utilizing a hash algorithm of MD 5; the method for obtaining the group sending codes comprises the following steps:

Group number＝HASH{η_{Group pictures of users}}，

group number indicates a Group transmission code;

η _{Group pictures of users} represents a group sending user picture;

HASH { } represents a HASH algorithm using MD 5;

And fourthly, converting the group sending code into 62 system to obtain the authorization password, so that the length of the authorization password can be shortened, and the input is simple and convenient.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (7)

1. The method for improving the short message group sending efficiency is characterized by comprising the following steps:

S1, sorting and screening operators to which numbers belong through number segment rules;

S2, screening operators supported by each channel;

s3, acquiring detailed parameters of each channel, and grading each channel according to grading standards;

S4, setting a priority sending channel according to the channel grading value from high to low;

Further comprises: performing an authorization operation before the step S1, wherein the authorization operation comprises the following steps:

s100, a login request is sent to a short message group sending system; the short message group sending is completed through a short message group sending system;

S200, the short message group sending system acquires login node information for initiating a login request, wherein the login node information comprises an IP (Internet protocol) or/and Mac (Mac) address, and after the short message group sending system successfully logs in, the acquired short message group sending authority information corresponding to the login node is returned to the login node, and the short message group sending authority information comprises a group sending user and a mobile phone number corresponding to the group sending user;

The short message group sending system performs the following operations on the obtained login node information:

Node login verification number＝HASH{η}，

Wherein Node login verification number represents a login authentication node code;

HASH { } represents a HASH algorithm using MD 5;

η represents login node information;

Where η _IP denotes the IP of the login node; if the acquired IP is 14.104.50.83, the point is removed and marked as 141045083;

η _Mac denotes the Mac address of the login node; if the acquired Mac address is 30:B4:9E:BE:DB:45, the colon is removed and marked as 30B49 EBEDB;

if only has eta _IP shows that the SMS mass-sending system only obtains the IP of the login node;

f only has eta _Mac shows that the short message mass-sending system only obtains the Mac address of the login node;

if has eta _IP andη_Mac shows that the SMS mass-sending system obtains the IP and Mac address of the login node;

character connection symbol between IP and Mac;

Judging whether the login verification node code Node login verification number exists in the short message group sending system or not:

If the login verification node code Node login verification number exists in the short message group sending system, the login node successfully logs in the short message group sending system;

If the login verification node code Node login verification number does not exist in the short message group sending system, the login node fails to log in the short message group sending system and reminds the user; the reminding is that the login node does not exist, and a login verification node code is preset in a short message group sending system;

S300, returning the selected group sending user to the short message group sending system, and sending the generated authorization password to the mobile phone number bound by the login node by the short message group sending system according to the selected group sending user;

S400, judging whether the authorization password sent by the login node received by the short message mass-sending system is consistent with the generated authorization password or not:

If the short message group sending system receives that the authorization password sent by the login node is consistent with the generated authorization password, short message group sending is realized for the group sending user at a set time point;

if the short message group sending system receives that the authorization password sent by the login node is inconsistent with the generated authorization password, returning to the step S300.

2. The method for improving the group sending efficiency of short messages according to claim 1, wherein the number segment rule in S1 comprises:

The front at least 3 digits of the number are used as a judgment standard of an operator to which the number belongs.

3. The method for improving the group sending efficiency of short messages according to claim 1, wherein the detailed parameters in S3 include one or any combination of the following:

channel load, current state, channel concurrency, channel delay, channel flow rate.

4. The method for improving the efficiency of group sending of short messages according to claim 1, wherein the scoring criteria comprises:

s3-1, judging whether the current channel is abnormal or not:

if the channel is not the abnormal channel, executing the next step;

If the channel is an abnormal channel, adding one to the abnormal value of the channel, jumping to the next channel, and executing the step S3-1 again;

s3-2, judging whether the current state of the current channel is in an idle state or not:

If the device is in the idle state, the next step is executed,

If not, jumping to the next channel and executing the step S3-1;

s3-3, calculating the idle rate of the current channel, wherein the idle rate of the channel is calculated by the following steps:

Idle rate = 1-current number of lane loads/maximum capacity of lane loads;

s3-4, detecting the current channel concurrency, channel time delay and channel flow rate;

s3-5, calculating the scoring value of the current channel by the following formula:

T=q ₁ x outliers+q ₂ x channel concurrency-q ₃ x channel delay+q ₄ x channel flow rate

Wherein q ₁、q₂、q₃、q₄ is an outlier, a channel concurrency, a channel delay, and a weight value of a channel flow rate, respectively.

5. The method for improving the group sending efficiency of the short messages according to claim 1, wherein the step S4 comprises the following steps:

S4-1, performing discarding operation on the channels with the score value lower than S _l, and evaluating the channels with the score value lower than S _l～s_m as secondary, and evaluating the channels with the score value higher than S _m as priority, wherein S _l is a first segmentation value, S _m is a second segmentation value, and S _l＜s_m;

s4-2, sorting the channels with the labels of priority and secondary according to the scoring values from high to low;

s4-3, setting the channel arranged at the first as a priority sending channel.

6. The method according to claim 1, further comprising an abnormality notification prohibiting section that prohibits use of the channel when an occurrence frequency of abnormality exceeds a predetermined frequency, and transmits specific information of the channel to a system front end.

7. The method for improving the group sending efficiency of the short messages according to claim 1, further comprising: an authorization operation is performed before step S1.