CN109462865B

CN109462865B - Rapid scheduling method based on intelligent operation and maintenance

Info

Publication number: CN109462865B
Application number: CN201811532921.7A
Authority: CN
Inventors: 江建斌; 龙潇; 李林英
Original assignee: Zhongnan Design Group Wuhan Engineering Technology Research Institute Co ltd
Current assignee: Central South Architectural Design Institute Co Ltd
Priority date: 2018-12-14
Filing date: 2018-12-14
Publication date: 2021-11-16
Anticipated expiration: 2038-12-14
Also published as: CN109462865A

Abstract

The invention discloses a quick scheduling method based on intelligent operation and maintenance, wherein when a primary base station issues a work scheduling task to a secondary base station or a tertiary base station, an administrator terminal respectively issues the task through a daily task issuing module and an emergency task issuing module according to the importance degree of the task, and a task receiving module of the secondary base station or the tertiary base station receives the task. According to the method for fast scheduling based on intelligent operation and maintenance, when a request calling module is arranged, a manager can be called at a manager end firstly when a subordinate base station request is received, if the manager leaves a post and cannot answer, the manager can be matched with a scheme list storage module through a request intelligent analysis module to answer simple problems, the problems can be recorded in real time and are convenient to trace, the system cannot automatically solve the request, the mobile phone carried by the manager can be called through a relay module, the problems can be solved fast, and the working efficiency is improved.

Description

Rapid scheduling method based on intelligent operation and maintenance

Technical Field

The invention relates to the technical field of scheduling algorithms, in particular to a quick scheduling method based on intelligent operation and maintenance.

Background

Dispatches are often used as verbs, meaning mobilization; manpower and vehicles are arranged. When used as a noun, the term may refer to a person, a dispatcher, or a group of people who are responsible for directing and dispatching the work such as manpower, work, vehicles, etc. Similarly, in communication service, spectrum resources and power resources are limited, but the number of users and the traffic volume in a cell are different, and the system cannot consider only a part of users, and it needs to reasonably allocate resources so that users in the system can normally and well communicate. The method or strategy for such allocation is a scheduling algorithm or scheduling technique.

The existing work stations are generally divided into multi-stage base stations, a superior base station needs to issue work tasks to an inferior base station at ordinary times, the inferior base station sends some request information to the superior base station, sometimes an emergency request needs to be processed by the superior base station, and if an administrator leaves the post in the superior base station, the processing efficiency of the emergency request is affected, and then later scheduling is affected.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a quick scheduling method based on intelligent operation and maintenance, which solves the problems that an urgent request needs to be processed by a superior base station, and if an administrator leaves behind the job, the processing efficiency of the urgent request is influenced in the superior base station, and further the later scheduling is influenced.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a fast scheduling method based on intelligent operation and maintenance specifically comprises the following steps:

when a primary base station issues a work scheduling task to a secondary base station or a tertiary base station, a manager end issues the task through a daily task issuing module and an emergency task issuing module respectively according to the importance degree of the task, a task receiving module of the secondary base station or the tertiary base station can store the task instruction in an instruction temporary storage module after receiving the task, and an operator end can review the task instruction through a review module and issue the task instruction through the instruction issuing module after confirming that the task instruction is correct.

Step two, when the second-level base station or the third-level base station meets the problem of work and needs to request a superior base station, a request can be sent to the first-level base station through a common request module or an emergency request module according to the emergency degree of the problem, a request receiving module of the first-level base station receives request information, then a request calling module calls a manager end to process the request information, if the call fails, request data can be analyzed through a request intelligent analysis module, comparison is carried out according to common problems stored in a scheme list storage module, if the problems are met, an instruction can be directly sent according to the solution, meanwhile, the problem is recorded by a recording module, the problem can be searched and traced in the later period, if no solution exists, a personal end can be called through a relay module, namely, the mobile equipment of the manager, and the manager can directly issue the instruction through an instruction issuing module on the mobile equipment.

And step three, in the process that the superior base station issues the task to the subordinate base station and in the process that the subordinate base station sends a request to the superior base station, a signal receiving port in the signal transfer mechanism receives the message and transmits the message to the corresponding base station through the corresponding channel, and in the process of information transmission, the channel control module controls other channels to be temporarily closed and centralizes a network to transmit data.

Preferably, the primary base station, the secondary base station and the tertiary base station are all in bidirectional connection with the signal transfer mechanism through wireless signals, and the primary base station comprises an administrator terminal, a personal terminal, a daily task issuing module, an emergency task issuing module, a request receiving module and an instruction issuing module.

Preferably, the output end of the request receiving module is connected with the input end of the request calling module, the output end of the request calling module is respectively connected with the administrator end and the input end of the request intelligent analysis module, and the output end of the request intelligent analysis module is respectively connected with the relay module and the input end of the instruction issuing module.

Preferably, the request intelligent analysis module is in bidirectional connection with the scheme list storage module, the output end of the scheme list storage module is connected with the input end of the recording module, the output end of the rebroadcasting module is connected with the input end of the personal terminal, and the output end of the personal terminal is connected with the input end of the instruction issuing module.

Preferably, the output end of the administrator end is respectively connected with the input ends of the daily task issuing module, the emergency task issuing module and the instruction issuing module.

Preferably, the secondary base station and the tertiary base station both comprise a common request module, an emergency request module, an audit module, an operator terminal, a task receiving module, an instruction temporary storage module and an instruction issuing module.

Preferably, the output end of the operator end is connected with the input ends of the common request module, the emergency request module, the auditing module and the instruction issuing module respectively, the output ends of the auditing module and the task receiving module are connected with the input end of the instruction temporary storage module, and the output end of the instruction temporary storage module is connected with the input end of the instruction issuing module.

Preferably, the signal transfer mechanism is composed of a signal receiving port, a signal output port, a channel control module and N channels, wherein output ends of the signal receiving port and the channel control module are connected with input ends of the channels, and output ends of the channels are connected with input ends of the signal output port.

(III) advantageous effects

The invention provides a quick scheduling method based on intelligent operation and maintenance. Compared with the prior art, the method has the following beneficial effects:

(1) the output end of the request receiving module is connected with the input end of the request calling module, the output end of the request calling module is respectively connected with the input ends of the administrator terminal and the request intelligent analysis module, the output end of the request intelligent analysis module is respectively connected with the input ends of the rebroadcasting module and the instruction issuing module, the request intelligent analysis module is in bidirectional connection with the scheme list storage module, the output end of the scheme list storage module is connected with the input end of the recording module, the output end of the rebroadcasting module is connected with the input end of the personal terminal, the output end of the personal terminal is connected with the input end of the instruction issuing module, the request calling module can call the administrator at the administrator terminal when receiving the request of the subordinate base station, if the administrator leaves the post and cannot answer, the request intelligent analysis module can be matched with the scheme list storage module, simple problems are solved, real-time recording can be achieved, tracing is convenient, the system can not automatically solve the requests, the mobile phone carried by an administrator can be called through the rebroadcasting module, the problems can be conveniently and rapidly solved, and the working efficiency is improved.

(2) The signal transfer mechanism is composed of a signal receiving port, a signal output port, a channel control module and N channels, output ends of the signal receiving port and the channel control module are connected with input ends of the channels, output ends of the channels are connected with input ends of the signal output port, and the channel control module is arranged to control other channels to be closed temporarily when one channel transmits signals, so that the speed of data transmission in the channel can be improved, and interference can be reduced.

(3) The output end of the administrator end is respectively connected with the input ends of the daily task issuing module, the emergency task issuing module and the instruction issuing module, the output end of the operator end is respectively connected with the input ends of the common request module, the emergency request module and the instruction issuing module, the task issuing of the upper base station is divided into the daily task issuing module and the emergency task issuing module, the issuing of the two tasks is controlled by different modules and cannot interfere with each other, the emergency task is prior to the daily task, the efficiency of the emergency task when the emergency task is issued is higher, and the emergency request module and the instruction issuing module are arranged on the lower base station to achieve the same effect.

Drawings

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a schematic block diagram of a primary base station of the present invention;

FIG. 3 is a schematic block diagram of a secondary base station of the present invention;

fig. 4 is a schematic block diagram of the signal relay mechanism of the present invention.

In the figure, 1-first-level base station, 11-administrator terminal, 12-personal terminal, 13-daily task issuing module, 14-emergency task issuing module, 15-request receiving module, 16-instruction issuing module, 17-request calling module, 18-request intelligent analysis module, 19-rebroadcasting module, 110-scheme list storage module, 111-recording module, 2-second-level base station, 21-common request module, 22-emergency request module, 23-auditing module, 24-operator terminal, 25-task receiving module, 26-instruction temporary storage module, 27-instruction issuing module, 3-third-level base station, 4-signal relay mechanism, 41-signal receiving port, 42-signal output port, 43-channel control module, data processing module, and data processing module, data, 44-channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention provides a technical solution: a fast scheduling method based on intelligent operation and maintenance specifically comprises the following steps:

step one, when the primary base station 1 issues a work scheduling task to the secondary base station 2 or the tertiary base station 3, the administrator terminal 11 issues the task through the daily task issuing module 13 and the emergency task issuing module 14 respectively according to the importance degree of the task, after the task receiving module of the secondary base station 2 or the tertiary base station 3 receives the task, the task instruction can be stored in the instruction temporary storage module 26 firstly, the operator terminal can review the task instruction through the review module 23, and after the task instruction is confirmed to be correct, the task instruction can be issued through the instruction issuing module 27.

Step two, when the secondary base station 2 or the tertiary base station 3 meets the working problem and needs to request the superior, a request may be sent to the primary base station 1 through the general request module 21 or the emergency request module 22 according to the urgency of the problem, the request receiving module 15 of the primary base station 1 receives the request information, then the request calling module 17 calls the administrator terminal 11 for processing, if the call fails, the request data can be analyzed by the request intelligent analysis module 18, the comparison is performed according to the common problems stored in the solution list storage module 110, if the problems are met, the instruction can be directly sent according to the solution, meanwhile, the recording module 111 records the problem, and can search and trace at the later stage, if no solution exists, the personal terminal 12 can be called through the relay module 19, i.e., the administrator's mobile device, the administrator may directly issue instructions on the mobile device through the instruction issuing module 16.

Step three, in the process that the superior base station issues the task to the subordinate base station and in the process that the subordinate base station sends a request to the superior, a signal receiving port 41 in a signal transfer mechanism 4 receives the message and transmits the message to the corresponding base station through a corresponding channel 44, in the process of information transmission, a channel control module 43 controls other channels to be temporarily closed and centralizes a network to carry out data transmission, the primary base station 1, the secondary base station 2 and the tertiary base station 3 are all in bidirectional connection with the signal transfer mechanism 4 through wireless signals, the primary base station 1 comprises an administrator terminal 11, a personal terminal 12, a daily task issuing module 13, an emergency task issuing module 14, a request receiving module 15 and an instruction issuing module 16, the output terminal of the request receiving module 15 is connected with the input terminal of the request calling module 17, the output terminal of the request calling module 17 is respectively connected with the input terminals of the administrator terminal 11 and the request intelligent analysis module 18, the output end of the request intelligent analysis module 18 is respectively connected with the input ends of the relay module 19 and the instruction issuing module 16, the request intelligent analysis module 18 is bidirectionally connected with the scheme list storage module 110, the output end of the scheme list storage module 110 is connected with the input end of the recording module 111, the output end of the relay module 19 is connected with the input end of the personal end 12, the output end of the personal end 12 is connected with the input end of the instruction issuing module 16, when receiving the request of the lower base station by setting the request calling module 17, the administrator can be called at the administrator end 11, if the administrator leaves the post and can not answer, the request intelligent analysis module 18 can be matched with the scheme list storage module 110 to answer simple problems, and can record in real time, which is convenient for tracing, and the system can not automatically solve the request, the mobile phone carried by the administrator can be called by the relay module 19, the output end of the administrator end 11 is respectively connected with the input ends of the daily task issuing module 13, the emergency task issuing module 14 and the instruction issuing module 16, the secondary base station 2 and the tertiary base station 3 respectively comprise a common request module 21, an emergency request module 22, an auditing module 23, an operator end 24, a task receiving module 25, an instruction temporary storage module 26 and an instruction issuing module 27, the output end of the operator end 24 is respectively connected with the input ends of the common request module 21, the emergency request module 22, the auditing module 23 and the instruction issuing module 27, the task issuing of the superior base station is divided into the daily task issuing module 13 and the emergency task issuing module 14, the issuing of the two tasks is controlled by different modules and cannot interfere with each other, and the emergency task is prior to the daily task, so that the efficiency of the emergency task in issuing is higher, the emergency request module 22 and the instruction issue module 27 are arranged at a lower-level base station to achieve the same effect, the output ends of the audit module 23 and the task receiving module 25 are both connected with the input end of the instruction temporary storage module 26, the output end of the instruction temporary storage module 26 is connected with the input end of the instruction issue module 27, the signal transfer mechanism 4 is composed of a signal receiving port 41, a signal output port 42, a channel control module 43 and N channels 44, the output ends of the signal receiving port 41 and the channel control module 43 are both connected with the input end of the channel 44, the output end of the channel 44 is connected with the input end of the signal output port 42, and by arranging the channel control module 43, when one channel 44 transmits a signal, the other channels 44 are controlled to be closed temporarily, so that the data transmission rate in the channel can be improved, and interference can be reduced.

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

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A fast scheduling method based on intelligent operation and maintenance is characterized in that: the algorithm specifically comprises the following steps:

step one, when a primary base station (1) issues a work scheduling task to a secondary base station (2) or a tertiary base station (3), an administrator terminal (11) issues the task through a daily task issuing module (13) and an emergency task issuing module (14) respectively according to the importance degree of the task, after receiving the task, a task receiving module (25) of the secondary base station (2) or the tertiary base station (3) can store a task instruction in an instruction temporary storage module (26), an operator terminal can review the task instruction through a review module (23), and can issue the task instruction through an instruction issuing module (27) after confirming that the task is correct;

step two, when the secondary base station (2) or the tertiary base station (3) meets the working problem and needs to request a superior stage, a request can be sent to the primary base station (1) through a common request module (21) or an emergency request module (22) according to the emergency degree of the problem, a request receiving module (15) of the primary base station (1) receives request information, then a request calling module (17) calls an administrator terminal (11) for processing, if the calling fails, the request data can be analyzed through a request intelligent analysis module (18), comparison is carried out according to common problems stored in a scheme list storage module (110), if the problems are met, an instruction can be sent directly according to the solution, meanwhile, a recording module (111) records the problems, later stage searching and tracing can be carried out, if no solution is available, a relay module (19) can call an individual terminal (12), namely the mobile equipment of the administrator, the administrator can directly issue instructions on the mobile equipment through the instruction issuing module (16);

and step three, in the process that the superior base station issues tasks to the subordinate base station and in the process that the subordinate base station sends a request to the superior, a signal receiving port (41) in the signal transfer mechanism (4) receives the message and transmits the message to the corresponding base station through a corresponding channel (44), and in the process of information transmission, a channel control module (43) controls other channels to be temporarily closed and concentrates a network to transmit data.

2. The intelligent operation and maintenance based fast scheduling method according to claim 1, wherein: one-level base station (1), second grade base station (2) and tertiary base station (3) all realize two-way connection through radio signal and signal transfer mechanism (4), one-level base station (1) is including administrator's end (11), individual end (12), daily task issuing module (13), urgent task issuing module (14), request receiving module (15) and instruction issue module (16).

3. The intelligent operation and maintenance based fast scheduling method according to claim 1, wherein: the output end of the request receiving module (15) is connected with the input end of the request calling module (17), the output end of the request calling module (17) is connected with the input ends of the administrator terminal (11) and the request intelligent analysis module (18) respectively, and the output end of the request intelligent analysis module (18) is connected with the input ends of the relay module (19) and the instruction issuing module (16) respectively.

4. The intelligent operation and maintenance based fast scheduling method according to claim 1, wherein: the intelligent analysis module of request (18) and scheme list storage module (110) realize two-way connection, the output of scheme list storage module (110) is connected with the input of record module (111), the output of rebroadcasting module (19) is connected with the input of individual person end (12), the output of individual person end (12) and the instruction issue the input of module (16) and be connected.

5. The intelligent operation and maintenance based fast scheduling method according to claim 1, wherein: the output end of the administrator end (11) is respectively connected with the input ends of the daily task issuing module (13), the emergency task issuing module (14) and the instruction issuing module (16).

6. The intelligent operation and maintenance based fast scheduling method according to claim 1, wherein: the secondary base station (2) and the tertiary base station (3) respectively comprise a common request module (21), an emergency request module (22), an auditing module (23), an operator terminal (24), a task receiving module (25), an instruction temporary storage module (26) and an instruction issuing module (27).

7. The intelligent operation and maintenance based fast scheduling method according to claim 6, wherein: the output end of the operator end (24) is connected with the input ends of the common request module (21), the emergency request module (22), the auditing module (23) and the instruction issuing module (27), the output ends of the auditing module (23) and the task receiving module (25) are connected with the input end of the instruction temporary storage module (26), and the output end of the instruction temporary storage module (26) is connected with the input end of the instruction issuing module (27).

8. The intelligent operation and maintenance based fast scheduling method according to claim 1, wherein: the signal transfer mechanism (4) is composed of a signal receiving port (41), a signal output port (42), a channel control module (43) and N channels (44), the output ends of the signal receiving port (41) and the channel control module (43) are connected with the input end of the channel (44), and the output end of the channel (44) is connected with the input end of the signal output port (42).