CN114422514A - Information system integrated terminal based on computer network technology - Google Patents
Information system integrated terminal based on computer network technology Download PDFInfo
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- 238000013468 resource allocation Methods 0.000 claims abstract description 61
- 238000012544 monitoring process Methods 0.000 claims abstract description 33
- 238000004364 calculation method Methods 0.000 claims abstract description 8
- 210000001503 joint Anatomy 0.000 claims description 72
- 230000003993 interaction Effects 0.000 claims description 44
- 230000002354 daily effect Effects 0.000 claims description 25
- 230000003203 everyday effect Effects 0.000 claims description 22
- 238000013439 planning Methods 0.000 claims description 14
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/10—Protocols in which an application is distributed across nodes in the network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/50—Network service management, e.g. ensuring proper service fulfilment according to agreements
- H04L41/5003—Managing SLA; Interaction between SLA and QoS
- H04L41/5019—Ensuring fulfilment of SLA
- H04L41/5022—Ensuring fulfilment of SLA by giving priorities, e.g. assigning classes of service
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/10—Protocols in which an application is distributed across nodes in the network
- H04L67/104—Peer-to-peer [P2P] networks
- H04L67/1074—Peer-to-peer [P2P] networks for supporting data block transmission mechanisms
Abstract
The invention provides an information system integrated terminal based on a computer network technology. The terminal comprises an acquisition module, a storage module and a display module, wherein the acquisition module is used for acquiring the number of unit departments of a user enterprise and the number of computer equipment in each unit department; the system comprises a grade division module, a grade calculation module and a grade calculation module, wherein the grade division module is used for monitoring the total business amount of business office work by using an information system in all computer equipment in each unit department in real time within preset monitoring time, and carrying out grade division on unit department resources through the total business amount; the time period acquisition module is used for determining the service key use time period of each unit department according to the different service use time of the unit department in each level in the department level and the service relationship level; and the resource allocation module is used for allocating server resources according to different important levels of department levels and business relation levels and different business key use periods.
Description
Technical Field
The invention provides an information system integrated terminal based on a computer network technology, and belongs to the technical field of information system management.
Background
Information system integration is the assembly of interrelated information and information systems. Information system integration may refer to both software and hardware. The existing information system has the problem of low resource allocation efficiency in the software integration process aiming at resource allocation.
Disclosure of Invention
The invention provides an information system integrated terminal based on a computer network technology, which is used for solving the problems of lower resource distribution efficiency and poorer rationality of the existing information system:
an information system integrated terminal based on computer network technology, the information system integrated terminal comprising:
the acquisition module is used for acquiring the number of unit departments of a user enterprise and the number of computer equipment in each unit department;
the system comprises a grade division module, a grade calculation module and a grade calculation module, wherein the grade division module is used for monitoring the total business amount of business office work by using an information system in all computer equipment in each unit department in real time within preset monitoring time, and carrying out grade division on unit department resources through the total business amount; the total business amount refers to the network data amount occupied by the exchange of files and business information between each unit department and other unit departments in the user enterprise through an information system in a single day;
the time period acquisition module is used for determining the service key use time period of each unit department according to the different service use time of the unit department in each level in the department level and the service relationship level;
and the resource allocation module is used for allocating server resources according to different important levels of department levels and business relation levels and different business key use periods.
Further, the ranking module comprises:
the department grade division module is used for carrying out grade division on the department departments per se according to the total business amount of the information system processing files and business traffic on the computing technology equipment by each department every day to obtain department grades;
and the business relationship grade division module is used for carrying out grade division on the business interaction object unit departments in the user enterprise corresponding to the daily files and business traffic of each unit department to obtain the business relationship grade corresponding to each unit department.
Further, the department ranking module comprises:
the total amount acquisition module is used for acquiring the total amount of business of each unit department for processing files and business traffic by utilizing the information system on the computing technology equipment every day;
the first grade division module is used for planning the unit department with the total business quantity exceeding a first business quantity threshold value as a first grade department;
the second grade division module is used for dividing the unit departments of which the total business amount exceeds a second business volume threshold value but does not exceed the first business volume threshold value into second grade departments;
the third grade division module is used for planning the unit departments of which the total business amount does not exceed the second business amount threshold value as third grade departments; the first traffic threshold and the second traffic threshold are preset thresholds according to actual business conditions of user enterprises, the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department.
The business relation grade division module comprises:
the object acquisition module is used for monitoring the butt joint business volume of the internal departments of the enterprise and the business interaction object unit departments corresponding to all butt joint business items of the computer equipment in the departments in real time aiming at each unit department in each department level;
the first relation module is used for dividing the business interaction object unit departments with the butt joint business volume exceeding a first butt joint business volume threshold value of the enterprise internal departments into a first grade relation when the current unit department aims at the business interaction object unit departments with the butt joint business volume exceeding the first butt joint business volume threshold value of the enterprise internal departments of other unit departments in the enterprise in the daily butt joint business volumes of each unit department;
and the second relation module is used for dividing the business interaction object unit departments of which the butt joint business volume does not exceed the first butt joint business volume threshold value into a second hierarchical relation when the current unit department aims at the business interaction object unit departments of which the butt joint business volume does not exceed the first butt joint business volume threshold value of the enterprise internal departments of other unit departments inside the enterprise in the business volume butt joint of each unit department every day. The first butt-joint traffic threshold is a threshold preset according to the actual business condition of the user enterprise.
Further, the time period acquisition module includes:
the system comprises a setting module, a processing module and a processing module, wherein the setting module is used for setting a service processing capacity period observation period, and the service processing capacity period observation period range is 28-35 days;
an hour-level task quantity obtaining module, configured to obtain, in the service processing quantity period observation period, a traffic quantity processed by each unit department in a single day every hour;
the statistical module is used for counting the traffic processed by each unit department per hour in the working time of the day at the zero time of each day in the observation period of the traffic processing amount;
the threshold value determining module is used for determining the hourly traffic threshold value of each unit department on the day according to the hourly processed traffic of each unit department on the day and the daily total working duration of each unit department; wherein the hour-level traffic threshold is obtained by the following formula:
wherein C represents the hourly traffic threshold; n represents the total daily operating time of each unit department, and the unit is as follows: hours; m represents C for a single hour of processing traffic exceeding 0.47 times per unit divisionzThe number of hours corresponding to/n; k represents C for a single hour of processing traffic exceeding 0.52 times per unit divisionzNumber of hours per n, CzExpressing the total business volume of each unit department working on the day; cjC representing a single hour of processing traffic in each unit division exceeding 0.47 timeszProcessing the traffic of the single hour within m hours corresponding to/n and j hour;
the single-day service key usage period module is used for comparing the hourly processed traffic volume of the current day in each unit department with the hourly traffic volume threshold, and when the hourly processed traffic volume of the current day of each unit department exceeds the hourly traffic volume threshold, the time period corresponding to a single hour is used as the single-day service key usage period of the current day service processing of each unit department under the condition that the hourly processed traffic volume exceeds the hourly traffic volume threshold;
the real-time monitoring module is used for monitoring the single-day service key use time of each unit department every day during the service processing capacity time period observation period in real time;
and the service key use time period module is used for taking the single-day service key use time period with the total time of day repetition not less than 18 days as the service key use time period of a unit department when the total time of day repetition of the single-day service key use time period is not less than 18 days.
Further, the resource allocation module comprises:
the first resource allocation module is used for acquiring department levels corresponding to unit departments in a service key use time period when the service key use time periods of a plurality of unit departments are overlapped, and allocating server resources to the unit departments with high priority levels to the resources corresponding to the department levels; the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department;
and the second resource allocation module is used for performing preferential allocation of allocation server resources on the service projects corresponding to the service interaction object unit departments with the high resource allocation priority level corresponding to the service relationship level within the working time of each unit department per hour, wherein the priority level of the first-level relationship is higher than that of the second-level relationship.
Further, the operation process of the information system integrated terminal includes:
collecting the number of unit departments of a user enterprise and the number of computer equipment in each unit department;
monitoring the total business amount of business office work by using an information system in all computer equipment in each unit department in real time within preset monitoring time, and grading the resource of the unit department according to the total business amount; the total business amount refers to the network data amount occupied by the exchange of files and business information between each unit department and other unit departments in the user enterprise through an information system in a single day;
determining the service key use time period of each unit department according to the different service use time of the unit department in each level in the department level and the service relation level;
and allocating server resources according to different important levels of department levels and business relation levels and different business key use periods, wherein the server resources comprise processor resources, hard disk resources, port resources and memory resources.
Further, monitoring the total amount of business office business in all computer equipment in each unit department by using an information system in real time within a preset monitoring time, and performing unit department resource grading through the total amount of business, including:
according to the total business amount of processing files and business traffic by utilizing the information system on the computing technology equipment every day, each unit department carries out grade division on the unit department per se to obtain a department grade;
and grading each unit department daily file and a business interaction object unit department inside the user enterprise corresponding to the business traffic to obtain a business relation grade corresponding to each unit department.
Further, the step of performing classification on each unit department according to the total business volume of processing files and business traffic by the information system on the computing technology equipment of each unit department every day to obtain a department grade comprises the following steps:
acquiring the total business amount of processing files and business traffic by the information system on the computing technology equipment every day by each unit department;
planning the unit department with the total business volume exceeding a first business volume threshold value as a first grade department;
planning the unit department with the total traffic volume exceeding a second traffic volume threshold but not exceeding the first traffic volume threshold as a second level department;
planning the unit department with the total business amount not exceeding a second business amount threshold value as a third grade department; the first traffic threshold and the second traffic threshold are preset thresholds according to actual business conditions of user enterprises, the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department.
Grade division is carried out on each unit department daily file and a business interaction object unit department inside a user enterprise corresponding to business traffic, and a business relation grade corresponding to each unit department is obtained, wherein the grade division comprises the following steps:
monitoring the butt joint business volume of the internal departments of the enterprise and the business interaction object unit departments corresponding to each butt joint business item, which are subjected to butt joint processing by all computer equipment in the departments, in real time aiming at each unit department in each department level;
when the current unit department is directed at the business interaction object unit departments with the butt joint business volume exceeding the first butt joint business volume threshold value of the enterprise internal departments of other unit departments in the enterprise, the business interaction object unit departments with the butt joint business volume exceeding the first butt joint business volume threshold value of the enterprise internal departments are divided into a first grade relation;
and when the current unit department aims at the service interaction object unit departments with the butt joint service volume not exceeding the first butt joint service volume threshold value of the enterprise internal departments of other unit departments inside the enterprise in the daily butt joint service volume of each unit department, dividing the service interaction object unit departments with the butt joint service volume not exceeding the first butt joint service volume threshold value of the enterprise internal departments into a second grade relation. The first butt-joint traffic threshold is a threshold preset according to the actual business condition of the user enterprise.
Further, determining the service emphasis time period of each unit department according to the different service use time of the unit department in each level of the department level and the service relationship level comprises:
setting a service processing capacity period observation period, wherein the service processing capacity period observation period ranges from 28 days to 35 days;
acquiring the traffic processed by each unit department in a single day in the observation period of the traffic processing capacity;
counting the hourly processed traffic of each unit department within the working time of the day at the zero time of each day in the traffic processing capacity period observation period;
determining an hour-level traffic threshold value of each unit department on the day according to the hourly processed traffic of each unit department on the day and the daily total working time of each unit department; wherein the hour-level traffic threshold is obtained by the following formula:
wherein C represents the hourly traffic threshold; n represents the total daily operating time of each unit department, and the unit is as follows: hours; m represents C for a single hour of processing traffic exceeding 0.47 times per unit divisionzThe number of hours corresponding to/n; k represents C for a single hour of processing traffic exceeding 0.52 times per unit divisionzNumber of hours per n, CzExpressing the total business volume of each unit department working on the day; cjC representing a single hour of processing traffic in each unit division exceeding 0.47 timeszProcessing the traffic of the single hour within m hours corresponding to/n and j hour;
comparing the hourly processed traffic volume of the current day in each unit department with the hourly traffic volume threshold, wherein when the hourly processed traffic volume of the current day of each unit department exceeds the hourly traffic volume threshold, the time period corresponding to a single hour is used as the single-day service key utilization time period of the current day of each unit department under the condition that the hourly processed traffic volume exceeds the hourly traffic volume threshold;
monitoring the single-day service key use time period of each unit department every day of the service processing capacity time period observation period in real time;
and when the total number of repeated days of the time interval of the single-day service key use time interval is not less than 18 days, taking the single-day service key use time interval of which the total number of repeated days of the time interval is not less than 18 days as the service key use time interval of a unit department.
Further, allocating server resources according to different importance levels of department levels and business relationship levels and different periods of important service use of the business comprises:
when the service key use time periods of a plurality of unit departments are overlapped, acquiring the department grade corresponding to the unit department in the service key use time period, and preferentially distributing server resources to the unit department with high priority level corresponding to the department grade; the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department;
and in the working time of each unit department per hour, performing preferential allocation of allocation server resources on the service projects corresponding to the service interaction object unit departments with the higher resource allocation priority levels corresponding to the service relationship levels, wherein the priority level of the first-level relationship is higher than that of the second-level relationship.
The invention has the beneficial effects that:
the information system integrated terminal based on the computer network technology can perform resource allocation through the priority level of resource allocation of each unit department and the relation level between interactive unit departments, can effectively improve the rationality of resource allocation through the allocation formula, and can effectively improve the time error of resource allocation and utilization to the maximum extent in a period with larger workload through the resource allocation mode, thereby improving the working efficiency among all the departments of an enterprise under the condition with larger workload and effectively reducing the problem of office efficiency reduction caused by network capacity limitation.
Drawings
Fig. 1 is a system block diagram of a terminal according to the present invention;
fig. 2 is a first operation flow chart of the terminal according to the present invention;
fig. 3 is a second operation flow chart of the terminal according to the present invention.
Detailed Description
The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.
An embodiment of the present invention provides an information system integrated terminal based on a computer network technology, as shown in fig. 1 and 2, the information system integrated terminal includes:
the acquisition module is used for acquiring the number of unit departments of a user enterprise and the number of computer equipment in each unit department;
the system comprises a grade division module, a grade calculation module and a grade calculation module, wherein the grade division module is used for monitoring the total business amount of business office work by using an information system in all computer equipment in each unit department in real time within preset monitoring time, and carrying out grade division on unit department resources through the total business amount; the total business amount refers to the network data amount occupied by the exchange of files and business information between each unit department and other unit departments in the user enterprise through an information system in a single day;
the time period acquisition module is used for determining the service key use time period of each unit department according to the different service use time of the unit department in each level in the department level and the service relationship level;
and the resource allocation module is used for allocating server resources according to different important levels of department levels and business relation levels and different business key use periods.
The operation process of the information system integrated terminal comprises the following steps:
s1, collecting the number of unit departments of a user enterprise and the number of computer equipment in each unit department;
s2, monitoring the total business amount of business office work by using an information system in all computer equipment in each unit department in real time within the preset monitoring time, and grading the resource of the unit department according to the total business amount; the total business amount refers to the network data amount occupied by the exchange of files and business information between each unit department and other unit departments in the user enterprise through an information system in a single day;
s3, determining the service key point use time interval of each unit department according to the different service use time of the unit department in each level of the department level and the service relation level;
s4, allocating server resources according to the importance levels of department levels and business relation levels and different business key use periods, wherein the server resources comprise processor resources, hard disk resources, port resources and memory resources.
The technical effect of the technical scheme is as follows: the information system integrated terminal based on the computer network technology can perform resource allocation through the priority level of resource allocation of each unit department and the relation level between interactive unit departments, can effectively improve the rationality of resource allocation through the allocation formula, and can effectively improve the time error of resource allocation and utilization to the maximum extent in a period with larger workload through the resource allocation formula, so that the working efficiency among all the departments of an enterprise is improved under the condition with larger workload, and the problem of reduction of office efficiency caused by network capacity limitation is effectively reduced.
In one embodiment of the present invention, the ranking module includes:
the department grade division module is used for carrying out grade division on the department departments per se according to the total business amount of the information system processing files and business traffic on the computing technology equipment by each department every day to obtain department grades;
and the business relationship grade division module is used for carrying out grade division on the business interaction object unit departments in the user enterprise corresponding to the daily files and business traffic of each unit department to obtain the business relationship grade corresponding to each unit department.
Wherein the department ranking module comprises:
the total amount acquisition module is used for acquiring the total amount of business of each unit department for processing files and business traffic by utilizing the information system on the computing technology equipment every day;
the first grade division module is used for planning the unit department with the total business quantity exceeding a first business quantity threshold value as a first grade department;
the second grade division module is used for dividing the unit departments of which the total business amount exceeds a second business volume threshold value but does not exceed the first business volume threshold value into second grade departments;
the third grade division module is used for planning the unit departments of which the total business amount does not exceed the second business amount threshold value as third grade departments; the first traffic threshold and the second traffic threshold are preset thresholds according to actual business conditions of user enterprises, the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department.
The business relation grade division module comprises:
the object acquisition module is used for monitoring the butt joint business volume of the internal departments of the enterprise and the business interaction object unit departments corresponding to all butt joint business items of the computer equipment in the departments in real time aiming at each unit department in each department level;
the first relation module is used for dividing the business interaction object unit departments with the butt joint business volume exceeding a first butt joint business volume threshold value of the enterprise internal departments into a first grade relation when the current unit department aims at the business interaction object unit departments with the butt joint business volume exceeding the first butt joint business volume threshold value of the enterprise internal departments of other unit departments in the enterprise in the daily butt joint business volumes of each unit department;
and the second relation module is used for dividing the business interaction object unit departments of which the butt joint business volume does not exceed the first butt joint business volume threshold value into a second hierarchical relation when the current unit department aims at the business interaction object unit departments of which the butt joint business volume does not exceed the first butt joint business volume threshold value of the enterprise internal departments of other unit departments inside the enterprise in the business volume butt joint of each unit department every day. The first butt-joint traffic threshold is a threshold preset according to the actual business condition of the user enterprise.
The operation process of the grading module comprises the following steps:
s201, carrying out grade division on each unit department according to the total business amount of processing files and business traffic of each unit department by using the information system on the computing technology equipment every day to obtain a department grade;
s202, grade division is carried out on the business interaction object unit departments in the user enterprises corresponding to the daily files and business traffic of each unit department, and a business relation grade corresponding to each unit department is obtained.
Wherein the operation of the department ranking module comprises:
step 1, acquiring the total business amount of processing files and business traffic by each unit department every day by using the information system on the computing technology equipment;
step 2, planning the unit department with the total business amount exceeding a first business amount threshold value as a first grade department;
step 3, planning the unit department with the total business quantity exceeding a second business quantity threshold value but not exceeding the first business quantity threshold value as a second grade department;
step 4, the unit department of which the total business amount does not exceed a second business amount threshold value is planned as a third grade department;
the operation process of the business relation grade division module comprises the following steps:
the method comprises the steps of firstly, monitoring the butt joint business volume of all computer equipment inside an enterprise internal department and the business interaction object unit department corresponding to each butt joint business item in real time for each unit department in each department level;
secondly, when the current unit department is in the business volume of each unit department in daily butt joint, aiming at the business interaction object unit department of which the butt joint business volume of the enterprise internal departments of other unit departments inside an enterprise exceeds a first butt joint business volume threshold, dividing the business interaction object unit department of which the butt joint business volume of the enterprise internal departments exceeds the first butt joint business volume threshold into a first grade relation;
and thirdly, when the current unit department aims at the service interaction object unit departments with the butt joint service volume not exceeding the first butt joint service volume threshold value of the enterprise internal departments of other unit departments inside the enterprise in the daily butt joint service volume of each unit department, dividing the service interaction object unit departments with the butt joint service volume not exceeding the first butt joint service volume threshold value of the enterprise internal departments into a second grade relation.
The effect of the above technical scheme is as follows: the rationality of level division and the matching between the level and the actual working condition of each department of the enterprise can be effectively improved through the mode, and then resource allocation is carried out through the priority level of resource allocation of each department of the enterprise and the relation level between interactive departments, the rationality of resource allocation can be effectively improved through the allocation formula, meanwhile, the time staggering property of resource allocation and utilization can be effectively improved to the maximum extent in the period with larger workload through the resource allocation mode, so that the working efficiency between each department of the enterprise is improved under the condition with larger workload, and the problem of reduction of the office efficiency caused by network capacity limitation is effectively reduced.
In an embodiment of the present invention, the time period obtaining module includes:
the system comprises a setting module, a processing module and a processing module, wherein the setting module is used for setting a service processing capacity period observation period, and the service processing capacity period observation period range is 28-35 days;
an hour-level task quantity obtaining module, configured to obtain, in the service processing quantity period observation period, a traffic quantity processed by each unit department in a single day every hour;
the statistical module is used for counting the traffic processed by each unit department per hour in the working time of the day at the zero time of each day in the observation period of the traffic processing amount;
the threshold value determining module is used for determining the hourly traffic threshold value of each unit department on the day according to the hourly processed traffic of each unit department on the day and the daily total working duration of each unit department; wherein the hour-level traffic threshold is obtained by the following formula:
wherein C represents the hourly traffic threshold; n represents the total daily operating time of each unit department, and the unit is as follows: hours; m represents C for a single hour of processing traffic exceeding 0.47 times per unit divisionzThe number of hours corresponding to/n; k represents C for a single hour of processing traffic exceeding 0.52 times per unit divisionzNumber of hours per n, CzExpressing the total business volume of each unit department working on the day; cjC representing a single hour of processing traffic in each unit division exceeding 0.47 timeszProcessing the traffic of the single hour within m hours corresponding to/n and j hour;
the single-day service key usage period module is used for comparing the hourly processed traffic volume of the current day in each unit department with the hourly traffic volume threshold, and when the hourly processed traffic volume of the current day of each unit department exceeds the hourly traffic volume threshold, the time period corresponding to a single hour is used as the single-day service key usage period of the current day service processing of each unit department under the condition that the hourly processed traffic volume exceeds the hourly traffic volume threshold;
the real-time monitoring module is used for monitoring the single-day service key use time of each unit department every day during the service processing capacity time period observation period in real time;
and the service key use time period module is used for taking the single-day service key use time period with the total time of day repetition not less than 18 days as the service key use time period of a unit department when the total time of day repetition of the single-day service key use time period is not less than 18 days.
Wherein the operation of the time period acquisition module comprises:
301. setting a service processing capacity period observation period, wherein the service processing capacity period observation period ranges from 28 days to 35 days;
302. acquiring the traffic processed by each unit department in a single day in the observation period of the traffic processing capacity;
303. counting the hourly processed traffic of each unit department within the working time of the day at the zero time of each day in the traffic processing capacity period observation period;
304. determining an hour-level traffic threshold value of each unit department on the day according to the hourly processed traffic of each unit department on the day and the daily total working time of each unit department;
305. comparing the hourly processed traffic volume of the current day in each unit department with the hourly traffic volume threshold, wherein when the hourly processed traffic volume of the current day of each unit department exceeds the hourly traffic volume threshold, the time period corresponding to a single hour is used as the single-day service key utilization time period of the current day of each unit department under the condition that the hourly processed traffic volume exceeds the hourly traffic volume threshold;
306. monitoring the single-day service key use time period of each unit department every day of the service processing capacity time period observation period in real time;
307. and when the total number of repeated days of the time interval of the single-day service key use time interval is not less than 18 days, taking the single-day service key use time interval of which the total number of repeated days of the time interval is not less than 18 days as the service key use time interval of a unit department.
The effect of the above technical scheme is as follows: by means of the mode and the formula, the hour-level traffic threshold value can be set according to the daily actual working condition of each unit department, the setting rationality of the hour-level traffic threshold value can be effectively improved, the matching between the traffic judgment and the actual working condition of the unit department can be effectively improved, the accuracy of obtaining the service key use time interval is greatly improved, and therefore the accuracy of resource allocation is further improved.
In an embodiment of the present invention, the resource allocation module includes:
the first resource allocation module is used for acquiring department levels corresponding to unit departments in a service key use time period when the service key use time periods of a plurality of unit departments are overlapped, and allocating server resources to the unit departments with high priority levels to the resources corresponding to the department levels; the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department;
and the second resource allocation module is used for performing preferential allocation of allocation server resources on the service projects corresponding to the service interaction object unit departments with the high resource allocation priority level corresponding to the service relationship level within the working time of each unit department per hour, wherein the priority level of the first-level relationship is higher than that of the second-level relationship.
Wherein the resource allocation module operation process comprises:
s401, when the service key use time periods of a plurality of unit departments are overlapped, acquiring the department grade corresponding to the unit department in the service key use time period, and distributing the unit department with high priority to the resource corresponding to the department grade to preferentially distribute the server resource; the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department;
s402, in the working time of each unit department per hour, the business items corresponding to the business interaction object unit departments with the high resource allocation priority levels corresponding to the business relationship levels are allocated with the server resources preferentially, wherein the priority level of the first level relationship is higher than that of the second level relationship.
The effect of the above technical scheme is as follows: the resource allocation is carried out through the priority level of the resource allocation of each unit department and the relation level between the interactive unit departments, the rationality of the resource allocation can be effectively improved through the allocation formula, meanwhile, the time error of the resource allocation and utilization can be effectively improved to the maximum extent in the period with larger workload through the resource allocation mode, further, the working efficiency among all the departments of an enterprise is improved under the condition with larger workload, and the problem of the reduction of the office efficiency caused by the limitation of the network capacity is effectively reduced.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (10)
1. An information system integrated terminal based on computer network technology, characterized in that the information system integrated terminal comprises:
the acquisition module is used for acquiring the number of unit departments of a user enterprise and the number of computer equipment in each unit department;
the system comprises a grade division module, a grade calculation module and a grade calculation module, wherein the grade division module is used for monitoring the total business amount of business office work by using an information system in all computer equipment in each unit department in real time within preset monitoring time, and carrying out grade division on unit department resources through the total business amount; the total business amount refers to the network data amount occupied by the exchange of files and business information between each unit department and other unit departments in the user enterprise through an information system in a single day;
the time period acquisition module is used for determining the service key use time period of each unit department according to the different service use time of the unit department in each level in the department level and the service relationship level;
and the resource allocation module is used for allocating server resources according to different important levels of department levels and business relation levels and different business key use periods.
2. The information system integrated terminal according to claim 1, wherein the ranking module comprises:
the department grade division module is used for carrying out grade division on the department departments per se according to the total business amount of the information system processing files and business traffic on the computing technology equipment by each department every day to obtain department grades;
and the business relationship grade division module is used for carrying out grade division on the business interaction object unit departments in the user enterprise corresponding to the daily files and business traffic of each unit department to obtain the business relationship grade corresponding to each unit department.
3. The information system integrated terminal according to claim 2, wherein the department ranking module comprises:
the total amount acquisition module is used for acquiring the total amount of business of each unit department for processing files and business traffic by utilizing the information system on the computing technology equipment every day;
the first grade division module is used for planning the unit department with the total business quantity exceeding a first business quantity threshold value as a first grade department;
the second grade division module is used for dividing the unit departments of which the total business amount exceeds a second business volume threshold value but does not exceed the first business volume threshold value into second grade departments;
the third grade division module is used for planning the unit departments of which the total business amount does not exceed the second business amount threshold value as third grade departments;
the business relation grade division module comprises:
the object acquisition module is used for monitoring the butt joint business volume of the internal departments of the enterprise and the business interaction object unit departments corresponding to all butt joint business items of the computer equipment in the departments in real time aiming at each unit department in each department level;
the first relation module is used for dividing the business interaction object unit departments with the butt joint business volume exceeding a first butt joint business volume threshold value of the enterprise internal departments into a first grade relation when the current unit department aims at the business interaction object unit departments with the butt joint business volume exceeding the first butt joint business volume threshold value of the enterprise internal departments of other unit departments in the enterprise in the daily butt joint business volumes of each unit department;
and the second relation module is used for dividing the business interaction object unit departments of which the butt joint business volume does not exceed the first butt joint business volume threshold value into a second hierarchical relation when the current unit department aims at the business interaction object unit departments of which the butt joint business volume does not exceed the first butt joint business volume threshold value of the enterprise internal departments of other unit departments inside the enterprise in the business volume butt joint of each unit department every day.
4. The integrated terminal of information system according to claim 2, wherein the time period acquisition module comprises:
the system comprises a setting module, a processing module and a processing module, wherein the setting module is used for setting a service processing capacity period observation period, and the service processing capacity period observation period range is 28-35 days;
an hour-level task quantity obtaining module, configured to obtain, in the service processing quantity period observation period, a traffic quantity processed by each unit department in a single day every hour;
the statistical module is used for counting the traffic processed by each unit department per hour in the working time of the day at the zero time of each day in the observation period of the traffic processing amount;
the threshold value determining module is used for determining the hourly traffic threshold value of each unit department on the day according to the hourly processed traffic of each unit department on the day and the daily total working duration of each unit department;
the single-day service key usage period module is used for comparing the hourly processed traffic volume of the current day in each unit department with the hourly traffic volume threshold, and when the hourly processed traffic volume of the current day of each unit department exceeds the hourly traffic volume threshold, the time period corresponding to a single hour is used as the single-day service key usage period of the current day service processing of each unit department under the condition that the hourly processed traffic volume exceeds the hourly traffic volume threshold;
the real-time monitoring module is used for monitoring the single-day service key use time of each unit department every day during the service processing capacity time period observation period in real time;
and the service key use time period module is used for taking the single-day service key use time period with the total time of day repetition not less than 18 days as the service key use time period of a unit department when the total time of day repetition of the single-day service key use time period is not less than 18 days.
5. The information system integrated terminal of claim 1, wherein the resource allocation module comprises:
the first resource allocation module is used for acquiring department levels corresponding to unit departments in a service key use time period when the service key use time periods of a plurality of unit departments are overlapped, and allocating server resources to the unit departments with high priority levels to the resources corresponding to the department levels; the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department;
and the second resource allocation module is used for performing preferential allocation of allocation server resources on the service projects corresponding to the service interaction object unit departments with the high resource allocation priority level corresponding to the service relationship level within the working time of each unit department per hour, wherein the priority level of the first-level relationship is higher than that of the second-level relationship.
6. The information system integrated terminal according to claim 1, wherein the operation process of the information system integrated terminal comprises:
collecting the number of unit departments of a user enterprise and the number of computer equipment in each unit department;
monitoring the total business amount of business office work by using an information system in all computer equipment in each unit department in real time within preset monitoring time, and grading the resource of the unit department according to the total business amount; the total business amount refers to the network data amount occupied by the exchange of files and business information between each unit department and other unit departments in the user enterprise through an information system in a single day;
determining the service key use time period of each unit department according to the different service use time of the unit department in each level in the department level and the service relation level;
and allocating server resources according to different important levels of department levels and business relation levels and different business key use periods, wherein the server resources comprise processor resources, hard disk resources, port resources and memory resources.
7. The information system integrated terminal of claim 6, wherein the monitoring of the total amount of business for business office using the information system in all computer devices in each unit department in real time within a preset monitoring time, and the ranking of unit department resources according to the total amount of business comprises:
according to the total business amount of processing files and business traffic by utilizing the information system on the computing technology equipment every day, each unit department carries out grade division on the unit department per se to obtain a department grade;
and grading each unit department daily file and a business interaction object unit department inside the user enterprise corresponding to the business traffic to obtain a business relation grade corresponding to each unit department.
8. The information system integrated terminal of claim 7, wherein the step of ranking each unit department according to the total amount of business of processing files and business traffic by the information system on the computing technology equipment by each unit department each day, to obtain the department rank comprises:
acquiring the total business amount of processing files and business traffic by the information system on the computing technology equipment every day by each unit department;
planning the unit department with the total business volume exceeding a first business volume threshold value as a first grade department;
planning the unit department with the total traffic volume exceeding a second traffic volume threshold but not exceeding the first traffic volume threshold as a second level department;
planning the unit department with the total business amount not exceeding a second business amount threshold value as a third grade department;
grade division is carried out on each unit department daily file and a business interaction object unit department inside a user enterprise corresponding to business traffic, and a business relation grade corresponding to each unit department is obtained, wherein the grade division comprises the following steps:
monitoring the butt joint business volume of the internal departments of the enterprise and the business interaction object unit departments corresponding to each butt joint business item, which are subjected to butt joint processing by all computer equipment in the departments, in real time aiming at each unit department in each department level;
when the current unit department is directed at the business interaction object unit departments with the butt joint business volume exceeding the first butt joint business volume threshold value of the enterprise internal departments of other unit departments in the enterprise, the business interaction object unit departments with the butt joint business volume exceeding the first butt joint business volume threshold value of the enterprise internal departments are divided into a first grade relation;
and when the current unit department aims at the service interaction object unit departments with the butt joint service volume not exceeding the first butt joint service volume threshold value of the enterprise internal departments of other unit departments inside the enterprise in the daily butt joint service volume of each unit department, dividing the service interaction object unit departments with the butt joint service volume not exceeding the first butt joint service volume threshold value of the enterprise internal departments into a second grade relation.
9. The information system integrated terminal of claim 7, wherein determining the service emphasis usage period of each unit department according to different service usage times of the unit departments in each of the department levels and the service relationship levels comprises:
setting a service processing capacity period observation period, wherein the service processing capacity period observation period ranges from 28 days to 35 days;
acquiring the traffic processed by each unit department in a single day in the observation period of the traffic processing capacity;
counting the hourly processed traffic of each unit department within the working time of the day at the zero time of each day in the traffic processing capacity period observation period;
determining an hour-level traffic threshold value of each unit department on the day according to the hourly processed traffic of each unit department on the day and the daily total working time of each unit department;
comparing the hourly processed traffic volume of the current day in each unit department with the hourly traffic volume threshold, wherein when the hourly processed traffic volume of the current day of each unit department exceeds the hourly traffic volume threshold, the time period corresponding to a single hour is used as the single-day service key utilization time period of the current day of each unit department under the condition that the hourly processed traffic volume exceeds the hourly traffic volume threshold;
monitoring the single-day service key use time period of each unit department every day of the service processing capacity time period observation period in real time;
and when the total number of repeated days of the time interval of the single-day service key use time interval is not less than 18 days, taking the single-day service key use time interval of which the total number of repeated days of the time interval is not less than 18 days as the service key use time interval of a unit department.
10. The integrated terminal of claim 6, wherein the allocating server resources according to the importance levels of the department level and the business relationship level and the different periods of the important usage of the business comprises:
when the service key use time periods of a plurality of unit departments are overlapped, acquiring the department grade corresponding to the unit department in the service key use time period, and preferentially distributing server resources to the unit department with high priority level corresponding to the department grade; the resource allocation priority of the first level department is higher than that of the second level department, and the resource allocation priority of the second level department is higher than that of the third level department;
and in the working time of each unit department per hour, performing preferential allocation of allocation server resources on the service projects corresponding to the service interaction object unit departments with the higher resource allocation priority levels corresponding to the service relationship levels, wherein the priority level of the first-level relationship is higher than that of the second-level relationship.
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