CN108769105A - A kind of scheduling system of knowledge services multi-task scheduling optimization method and its structure under cloud environment - Google Patents

Abstract

The invention discloses the scheduling system of knowledge services multi-task scheduling optimization method and its structure under a kind of cloud environment, method is specially：Target is optimized by determining the optimization object function and constraints of the knowledge services multi-task scheduling under cloud environment, and using bi-directional drive collaborative searching algorithm is fallen based on the multigroup under big data environment.The present invention is directed to the knowledge services time introducing dynamic random function in optimization aim, can effectively analog platform service time in actual moving process dynamic random feature, adaptability of the optimizing scheduling algorithm to knowledge services process dynamics and randomness is embodied, the response efficiency of knowledge services process is improved；The mapping relations of particles position vector and knowledge resource distribution are established by binary coding mode, optimization algorithm is mapped to discrete data space, and bi-directional drive mechanism is fallen using multigroup and realizes that common group and the cooperation interaction of model ecotone are searched for, enhance adaptability of the algorithm to random schedule task, effectively solves the optimization problem of knowledge services multi-task scheduling.

Description

A kind of tune of knowledge services multi-task scheduling optimization method and its structure under cloud environment Degree system

Technical field

The present invention relates to the scheduling system of knowledge services multi-task scheduling optimization method and its structure under a kind of cloud environment, Belong to the knowledge services field under cloud environment.

Background technology

Conglomerate's cloud service platform can provide the manufacturing service of product lifecycle to the user, and flow in production Product manufacture the knowledge resource of links in Life cycle activity, then are the cores for supporting cloud service system operation, are related to All kinds of cross-cutting multidisciplinary multi-specialized magnanimity, distribution, multi-source, Heterogeneous Knowledge resource.Due to conglomerate's cloud service platform face To be large-scale complex product Collaborative Manufacturing process, enterprise customer to platform propose knowledge services demand cloud service collection relate to And collaborative simulation between the multidisciplinary field such as design and analysis, manufacture, control and parallel computation solve task, between each task Concertedness is stronger, and the demand to knowledge resource is higher and different.Therefore, it faces user demand complicated and changeable and multi-source is different The knowledge resource of structure, how by effective task scheduling strategy to high dynamic and execute time randomness service role into Row equilibrium assignment, will be as the critical issue of promotion conglomerate knowledge services ability.Particle swarm optimization is a kind of based on group The global search optimization algorithm of characteristic, have it is stronger adaptively and self organization ability, be a kind of to solve extensive task scheduling The effective means of problem.

Currently, particle swarm optimization is when solving Mission Scheduling, it is easy to be absorbed in local extremum, and then " precocity " occur Convergent Phenomenon, it is difficult to overcome real time and dynamic and execution existing for group's Company Knowledge service multi-task scheduling process under cloud environment The problem of time randomness.

Invention content

The problem of existing for the above-mentioned prior art and deficiency, the present invention provides the knowledge services under a kind of cloud environment are more The scheduling system of task scheduling optimization method and its structure, to solve under cloud environment present in knowledge services scheduling process Real time and dynamic and execution time stochastic problems, improve knowledge services process response speed, optimize the knowledge clothes under cloud environment Business system performance.

The technical scheme is that：A kind of knowledge services multi-task scheduling optimization method under cloud environment, passes through determination The optimization object function and constraints of knowledge services multi-task scheduling under cloud environment, and using based under big data environment Multigroup falls bi-directional drive collaborative searching algorithm and is optimized to target.

The optimization object function is specially：

Structure is most short with knowledge services time KT, knowledge services quality KQ is optimal, the minimum targets of knowledge services cost KC Knowledge services optimizing scheduling object function：

The knowledge services time function of KT is：In formula, z_ab Indicate the decision variable of b-th of subtask of knowledge services task a；t_abIndicate that b-th of subtask of knowledge services task a executes Service time；t'_abIndicate the communication stand-by period that b-th of subtask of knowledge services task a executes；α_t1And α_t2Indicate power Weight coefficient；S_aThe subtask total amount of expression task a；N indicates that task total amount, rand () change at random in [0,1] range, y= 0,1,2；

The function of knowledge services quality KQ is：In formula, d_abIndicate that user takes knowledge The satisfaction of the knowledge resource service of b-th of subtask of business task a；μ_aIt is satisfied with extent correction coefficient；N indicates task Total amount；

The function of knowledge services cost KC is：In formula, c_ab Indicate the calculating cost needed for b-th of subtask of knowledge services task a；c_ab' indicate that b-th of son of knowledge services task a is appointed Communications cost needed for business；c_ab" indicate technical costs needed for b-th of subtask of knowledge services task a, α_c1、α_c2And α_c3Table Show weight coefficient；N indicates task total amount.

The constraints is specially：

Maximum service time-constrain U₁, indicate that the actual finish time of each knowledge services task is maximum no more than its Limiting time, i.e.,：In formula, KT_maxaIndicate knowledge services task a Permission maximum service limiting time；

Knowledge services cost constraint U₂, indicate the cost of serving of each knowledge services task no more than highest service at This, i.e.,：In formula, KC_maxaIndicate that knowledge services task a can be propped up The highest cost of serving paid；

Knowledge services task temporal constraint U₃, indicate that the end time of the previous service role of temporal constraint relationship cannot At the beginning of more than next task, i.e.,：h_st,a≤h_end,a+1；In formula, h_st,aEnd time after the completion of expression task a； h_end,a+1At the beginning of expression task a+1；

Knowledge resource services accuracy and constrains U₄, indicate that the knowledge resource provided and knowledge services ability must satisfy knowledge The ability need of service role, i.e.,：In formula, Ac_aIndicate that knowledge services task a is needed The knowledge resource to be realized service accuracy；Ti_abIndicate the knowledge resource service of b-th of subtask of knowledge services task a Promptness metrics evaluation value；Cs_abIndicate the compatibility index of the knowledge resource service of b-th of subtask of knowledge services task a Evaluation of estimate；α_a1、α_a2Respectively weight coefficient.

Multigroup under the environment based on big data falls bi-directional drive collaborative searching algorithm, specially：

Step 1：Group's particle is encoded, each particle in group is made to indicate that a knowledge services task scheduling is asked The potential solution of topic；

Step 2：Group particle individual p is initialized, assigns its random position X and speed V, at this time the position of each particle Vector represents a kind of effective knowledge resource allocation plan；Group number q is set, particle iterations in group member are micro- Grain accelerator coefficient c1, c2；

Step 3：According to the group number q of setting, the particle individual of initialization is evenly distributed in q process, is formed Size isGroup, remaining particle individual after rounding is assigned randomly in q process, while according to object function Calculate the adaptive value of each particle individual in q group；

Step 4：Calculate the global optimum adaptive value F of group i_i(i=1,2 ..., q), and according to decision threshold FT by institute It is model group MC and common group CC to have community divided；

Step 5：Calculate the node strength S of group i_i(i=1,2 .., q), and according to S_iTo the optimal of respective classes group Position is evaluated, and maximum node intensity S in affiliated class is obtained_iCorresponding group's optimal location is as the generic ecotone Optimal location；

Step 6：Each particle group is iterated evolution according to bi-directional drive coevolution mechanism, specifically includes：

Step 7：Step 5~step 6 is repeated, and obtains globally optimal solution, until reaching iterations；

The object function is using weigthed sums approach to three object functions during knowledge services multi-task scheduling It is integrated, the whole fitness function of construction is as follows：

In formula, f_h(x) corresponding optimization aim be respectively " the knowledge services time is most short ", " knowledge services optimal quality " and " knowledge services cost is minimum ", i.e.,：ω_hIt is the corresponding weight coefficient of three optimization aims, meets：

The step 1 is specially：

Step 1.1：The position vector for defining particle is matrix X：n×m；Wherein a knowledge services task is represented per a line Distribution condition, each arrange represents the service scenario of a knowledge resource, as follows：

Wherein, x_aw∈ { 0,1 }, a=1,2 ... n, w=1,2 ... m, n indicate that task total amount, m indicate that knowledge resource is total Amount, m=n,Meet that each row element has and only 1 element value is 1, each column element there can be multiple elements Value is 1；If x_aw=1, it indicates that knowledge services task a is assigned on knowledge resource w and executes, otherwise x_aw=0；Each knowledge resource Offer service can be asked to multiple tasks simultaneously；Knowledge services task can be assigned on any one knowledge resource and execute And knowledge services task must be assigned on a knowledge resource and execute；Knowledge services task in the process of implementation cannot be by Disconnected, i.e., the same knowledge services task does not allow to be assigned to simultaneously on multiple knowledge resources；

Step 1.2：Define the rate matrices V of particle：N × m indicates that particle is former to working as required for reaching dbjective state The basic exchanging order for distribution condition of being engaged in, it is as follows：

The speed of the particle needs to meet：v_aw∈ { 0,1 }, v_aw+v_wa=0 or 1, a=1,2 ... n, w=1,2 ... m.

A kind of knowledge services multiple tasks dispatching system under cloud environment, the system comprises：

Task scheduling buffer module, according to the service ability of system, certain customers is appointed when for multi-user concurrent request Business request temporarily storage, to ensure that user task and platform resource service ability balance, the response that the system of raising asks user Speed；

Task parsing module, the knowledge services mission requirements for parsing user's submission, the service role that will be obscured, mix It degrades, forms it into multiple low granularities, can be by knowledge services set of tasks that knowledge resource directly services；

Knowledge resource scheduler module matches work for preliminary knowledge resource, by the task feature of user's request with know The static attribute for knowing resource carries out matching primitives, obtains the knowledge money that can fully meet the knowledge services task-set demand for services Gather in source；

Load administration module, for Knowledge Service Platform in service process the operation of knowledge resource and loading condition into Row monitoring, the knowledge resource of dynamic adjustment service；Fault-tolerant migration strategy is integrated to solve to lead to service disruption because of accident Situation, it is ensured that knowledge services process smoothly completes；

Knowledge resource scheduling engine module, for ensureing that knowledge services task scheduling processing efficient accurately carries out；The module Knowledge services multi-task scheduling optimization method under integrated cloud environment, between knowledge services task and required knowledge resource into Row rational management forms optimal knowledge services task allocation plan, and submits it Knowledge Service Platform and executed, with Complete the scheduling process of knowledge services task.

The beneficial effects of the invention are as follows：

1, the present invention introduces dynamic random function for the knowledge services time in optimization aim, can effective analog platform The dynamic random feature of service time in actual moving process, embody optimizing scheduling algorithm to knowledge services process dynamics and The adaptability of randomness improves the response efficiency of knowledge services process；

2, the knowledge services multi-task scheduling optimization method establishes particles position vector by binary coding mode With the mapping relations of knowledge resource distribution, optimization algorithm is mapped to discrete data space, and bi-directional drive machine is fallen using multigroup System realizes that common group and the cooperation interaction of model ecotone are searched for, and enhancing algorithm has the adaptability of random schedule task Effect solves the optimization problem of knowledge services multi-task scheduling.

Description of the drawings

Fig. 1 is the knowledge services multiple tasks dispatching system block schematic illustration under cloud environment；

Fig. 2 is knowledge services multi-task scheduling optimization method flow diagram；

Fig. 3 is knife rail calculation knowledge service role scheduling simulation lab diagram (y=0) in Knowledge Service Platform；

Fig. 4 is knife rail calculation knowledge service role scheduling simulation lab diagram (y=1) in Knowledge Service Platform；

Fig. 5 is knife rail calculation knowledge service role scheduling simulation lab diagram (y=2) in Knowledge Service Platform.

Specific implementation mode

Embodiment 1：As shown in Figure 1, the knowledge services multiple tasks dispatching system under a kind of cloud environment, the system comprises：

Task scheduling buffer module, according to the service ability of system, certain customers is appointed when for multi-user concurrent request Business request temporarily storage, to ensure that user task and platform resource service ability balance, the response that the system of raising asks user Speed；

Task parsing module, the knowledge services mission requirements for parsing user's submission, the service role that will be obscured, mix It degrades, forms it into multiple low granularities, can be by knowledge services set of tasks that knowledge resource directly services；

Knowledge resource scheduler module matches work for preliminary knowledge resource, by the task feature of user's request with know The static attribute for knowing resource carries out matching primitives, obtains the knowledge money that can fully meet the knowledge services task-set demand for services Gather in source；

Load administration module, for Knowledge Service Platform in service process the operation of knowledge resource and loading condition into Row monitoring, the knowledge resource of dynamic adjustment service；Fault-tolerant migration strategy is integrated to solve to lead to service disruption because of accident Situation, it is ensured that knowledge services process smoothly completes；

Knowledge resource scheduling engine module, for ensureing that knowledge services task scheduling processing efficient accurately carries out；The module Knowledge services multi-task scheduling optimization method under integrated cloud environment, between knowledge services task and required knowledge resource into Row rational management forms optimal knowledge services task allocation plan, and submits it Knowledge Service Platform and executed, with Complete the scheduling process of knowledge services task.

Knowledge services multi-task scheduling optimization method under a kind of cloud environment, by determining that the knowledge services under cloud environment are more The optimization object function and constraints of task scheduling, and searched using bi-directional drive cooperation is fallen based on the multigroup under big data environment Rope algorithm optimizes target.

Knowledge services multi-task scheduling optimization method flow of the present invention is as shown in Fig. 2, select certain fluid machinery collection Complex-curved knife rail calculation knowledge service role scheduling process in group's enterprise's cloud Knowledge Service Platform, to more of the knowledge services Business method for optimizing scheduling carries out test analysis.

Knife rail calculation knowledge service procedure includes in Knowledge Service Platform：Surface modeling, process planning, milling parameter meter 8 calculation, the calculating of knife rail, postpositive disposal, processing environment structure, machining simulation and simulation analysis knowledge services subtasks, are denoted as and appoint Be engaged in set T={ t₁,t₂,…,t₈(the mark such as t in set of tasks₁With in verbal description below, knowledge services task a=1 feelings Condition refers to identical；Other marks are similarly)；The corresponding available knowledge resources of set of tasks T integrate as KR={ kr₁,kr₂,…,kr₈} (the mark such as kr in knowledge resource₁With verbal description below, knowledge resource w=1 situations refer to identical；Other marks are same Reason)；Acquire the actual measurement sample such as service time, service quality and cost of serving that 8 knowledge services are appointed on Knowledge Service Platform Notebook data is as shown in table 1.

The 1 corresponding service parameter of each knowledge resource of table

In table,

It is as follows it is possible to further which the optimization method is arranged：

Step 1：Structure is most short with knowledge services time KT, knowledge services quality KQ is optimal, knowledge services cost KC is minimum For the knowledge services optimizing scheduling object function of target；

(1) function of knowledge services time KT is：Formula In, z_abIndicate the decision variable of b-th of subtask of knowledge services task a；t_abIndicate b-th of knowledge services task a The service time that subtask executes；t'_abIndicate the communication stand-by period that b-th of subtask of knowledge services task a executes；α_t1 And α_t2Indicate weight coefficient；S_aThe subtask total amount of expression task a；N indicates task total amount；Rand () in [0,1] range with Machine changes, y=0, and 1,2；Dynamic random function rand () is introduced, the stochastic and dynamic to reflect knowledge services scheduling process is special Sign.

(2) function of knowledge services quality KQ is：

In formula, d_abIndicate satisfaction of the user to the knowledge resource service of b-th of subtask of knowledge services task a； μ_aIt is satisfied with extent correction coefficient；N indicates task total amount.

(3) function of knowledge services cost KC is：

In formula, c_abIndicate the calculating cost needed for b-th of subtask of knowledge services task a；c_ab' indicate knowledge services Communications cost needed for b-th of subtask of task a；c_ab" indicate technology needed for b-th of subtask of knowledge services task a Cost, α_c1、α_c2And α_c3Indicate weight coefficient；N indicates task total amount.

Step 2：Build knowledge services optimizing scheduling bound for objective function；

(1) maximum service time-constrain U₁, indicate the actual finish time of each knowledge services task most no more than it Big limiting time, i.e.,：

In formula, KT_maxaIndicate the permission maximum service limiting time of knowledge services task a.

(2) knowledge services cost constraint U₂, indicate the cost of serving of each knowledge services task no more than highest service Cost, i.e.,：

In formula, KC_maxaIndicate the highest cost of serving that knowledge services task a can be paid.

(3) knowledge services task temporal constraint U₃, indicate the end time of the previous service role of temporal constraint relationship No more than at the beginning of next task, i.e.,：

h_st,a≤h_end,a+1

In formula, h_st,aEnd time after the completion of expression task a；h_end,a+1At the beginning of expression task a+1.

(4) knowledge resource service accuracy constrains U₄, indicate that the knowledge resource provided and knowledge services ability must satisfy The ability need of knowledge services task, i.e.,：

In formula, Ac_aIndicate that knowledge services task a needs the knowledge resource realized service accuracy；Ti_abIndicate knowledge services The promptness metrics evaluation value of the knowledge resource service of b-th of subtask of task a；Cs_abIndicate the b of knowledge services task a The compatibility metrics evaluation value of the knowledge resource service of a subtask；α_a1、α_a2Respectively weight.

Step 3：Three object functions during knowledge services multi-task scheduling are integrated using weigthed sums approach, The whole fitness function of construction, it is as follows：

In formula, f_h(x) corresponding optimization aim be respectively " the knowledge services time is most short ", " knowledge services optimal quality " and " knowledge services cost is minimum ", i.e.,：ω_hIt is the corresponding weight coefficient of three optimization aims, meets：

Step 4：Group's particle is encoded, each particle in group is made to indicate that a knowledge services task scheduling is asked The potential solution of topic.

Step 4.1：The position vector for defining particle is matrix X:8×8；Wherein a knowledge services task is represented per a line Distribution condition, each arrange represents the service scenario of a knowledge resource, as follows：

(1)x_aw∈ { 0,1 },Meet that each row element has and only 1 element value is 1, each column element can To there is multiple element values for 1；

(2) if x_aw=1, it indicates that knowledge services task a is assigned on knowledge resource w and executes, otherwise x_aw=0；

(3) each knowledge resource can ask offer service to multiple tasks simultaneously；

(4) knowledge services task can be assigned to execution on any one knowledge resource and knowledge services task must be divided It is fitted on a knowledge resource and executes；

(5) knowledge services task cannot be interrupted in the process of implementation, i.e., the same knowledge services task does not allow simultaneously It is assigned on multiple knowledge resources；

(6) element x in location matrix_awWith decision variable z in the step 1_abThe knowledge services task a phases referred to It is corresponding.

Step 4.2：Define the rate matrices V of particle:8×8；Indicate that particle is former to working as required for reaching dbjective state The basic exchanging order for distribution condition of being engaged in, it is as follows：

The speed of the particle needs to meet：v_aw∈ { 0,1 }, v_aw+v_wa=0 or 1, a=1,2 ... 8, w=1,2 ... 8.

Step 5：Group particle individual p is initialized, assigns its random position X and speed V, at this time the position of each particle Vector represents a kind of effective knowledge resource allocation plan；Group number q is set, particle iterations in group member are micro- Grain accelerator coefficient c₁、c₂；

In the present embodiment, particle number of individuals is 100, opens 4 parallel threads, and particle iterations are 200, and particle accelerates Constant c₁=c₂=2.

Step 6：According to the group number q of setting, the particle individual of initialization is evenly distributed in q process, is formed Size isGroup, remaining particle individual after rounding is assigned randomly in q process, while according to object function Calculate the adaptive value of each particle individual in q group；

The object function is the whole fitness function constructed in step 3；

Step 7：Calculate the global optimum adaptive value F of group i_i(i=1,2 ..., q), and according to decision threshold FT by institute It is model group MC and common group CC to have community divided；

Step 8：Calculate the node strength S of group i_i(i=1,2 .., q), and according to S_iTo the optimal of respective classes group Position is evaluated, and maximum node intensity S in affiliated class is obtained_iCorresponding group's optimal location is as the generic ecotone Optimal location；

Step 9：Each particle group is iterated evolution according to bi-directional drive coevolution mechanism, specifically includes：

If the variable occurred in following rule with it is as before, if being defined in rule, defined in rule Subject to variable meaning, it is otherwise subject to front.

Rule 1：Evolutionary rule in group：Particle individual inside each group according to following Particle Swarm iterative formula into Travelingization, and the optimal location of group is generated, wherein group's optimal location of common group is denoted as g_best, the group of model group Optimal location is denoted as G_best；

In formula：D indicates highest dimension,Indicate speed of the particle individual k when dimension is d, c under the t times iteration₁、c₂ Indicate particle aceleration pulse,Indicate personal best particles of the particle individual k when dimension is d under the t times iteration,Table Show optimal location of the group when dimension is d under the t times iteration,Indicate that particle individual k is when dimension is d under the t times iteration Position.

The Particle Swarm iterative formula meets following operation rule：

(1)A·θ·B：It indicates position identical with numerical value in matrix B in matrix A being all set to 0, otherwise is 1；If A In a certain row element simultaneously occur two 1, then be set to 0 by its second 1；

(2)It indicates according to random number c_lCorrespondence probability value determine whether particle carries out Θ operations；

(3)AΘB：It indicates, if s rows all elements are 0 in matrix B, by the element of s rows s row in matrix A It all is set to 0, other elements make rand { 0,1 } operation, i.e., take 0 or 1 at random；

(4)Indicate place-exchange operation, the v in rate matrices B_svWhen=1, indicate location matrix A s rows The row number for the element and the element that numerical value is 1 in v rows that middle numerical value is 1 swaps.

Rule 2：Ecotone bi-directional drive coevolution rule：

Rule 2.1：There are g_besth=max { g_best1,g_best2,...,g_bestu, G_bestj =min { G_best1,G_best2,...,G_bestn, and g_besth≥G_bestj, then common group member CC_hInto model group, former model Zhong Mowei groups of group MC_jIt is rejected；Meanwhile model Studying factors are introduced into evolutionary rule inside common group：

Wherein, r₁Indicate that the cooperation relation of model group and common ecotone, R indicate cooperation relation set,It indicates Optimal value in common group optimal location set,Indicate that the worst-case value in model group optimal location set, u indicate The total number of common group, n indicate the total number of model group, what m was represented be the quantity of particle individual and m in common group≤ P, D represent highest dimension,Indicate speed of the particle individual k when dimension is d, c under the t times iteration₁、c₂Indicate that particle accelerates Constant, c₃It is a random number and meets c₁rand₁+c₂rand₂+c₃∈ [0,4],Indicate particle individual k under the t times iteration Personal best particle when dimension is d,Indicate optimal location of the group when dimension is d under the t times iteration,Table Show positions of the particle individual k when dimension is d under the t times iteration,Indicate that common group is when dimension is d under the t times iteration Model Studying factors；

Rule 2.2：There are group's node strengthsTo arbitraryIt is satisfied byObtain model ecotone optimal location：Wherein, r₂Indicate model group and model ecotone Cooperation relation,Indicate group's node strength of model group a,Indicate group's node strength of model group b,It is group's optimal location of model group a, as model ecotone optimal location；

Rule 2.3：There are group's node strengthsTo arbitraryIt is satisfied byObtain common ecotone optimal location：Wherein, r₃Common group cooperates with common ecotone Relationship,Indicate group's node strength of common group e,Indicate group's node strength of common group f,It is Group's optimal location of common group e is as common ecotone optimal location；

Wherein, execution priority higher of the ecotone bi-directional drive coevolution rule than evolutionary rule in group；

Step 10：Step 8~step 9 is repeated, and obtains globally optimal solution, until reaching iterations.

Test experiments result：

According to above-mentioned steps, it is real that emulation is carried out to complex curved surface parts knife rail calculation knowledge service role optimizing scheduling process It tests, records the experimental result of algorithm the searching process, (abscissa as shown in Fig. 3, Fig. 4, Fig. 5：Iterations；Ordinate：Fitness Value).

It can be seen that in knowledge services multi-task scheduling optimization process from experimental result, with the knowledge services time The increase of random degree, the knowledge services multi-task scheduling optimization method can give full play to cooperation on multiple populations and execute at random Solve the problems, such as that the advantage of complicated multi-task scheduling, algorithm quickly tend towards stability and converge to global optimum under environment, it can be effective Enhance the solution efficiency of knowledge resource scheduling engine, ensures the efficiently and accurately of knowledge services scheduling process under cloud environment；

In the above process：

Cooperation relation unit：If the collaboratively searching activity of different ecotones is two tuple (C R), wherein C= {c₁,c₂,...,c_qIt is to participate in the movable group's sequence of collaboratively searching, R:C × C be interaction in search process between group according to The relationship of relying.Referred to as cooperation relation unit, wherein r₁Indicate model group and common group Between cooperation relation, r₂Indicate the cooperation relation of model group and model ecotone, r₃Common group cooperates with common ecotone Relationship.Cooperation relation concentrates the number of different ecotone cooperation relation units to be referred to as the mould of the cooperation relation collection, is denoted as | | R | |, R Indicate cooperation relation set, r₁、r₂、r₃Form R；

Cooperate weight：IfThe cooperation weight in collaborative network between different groups is fallen for multigroup, In, c_iWith c_oBetween cooperation weight be also referred to as the side right weight that multigroup falls coorporative network；

Distance vector：Personal best particle by group's optimal location of group i respectively with u particle in the group is asked Difference simultaneously takes absolute value, and obtains the distance vector of group's optimal location：H_i=(h₁,h₂,…,h_u)；

Responsiveness：Qualifying distance threshold value DD is set, according to response ev_iFormula：Adjust the distance to Measure H_iTraversal operation is carried out, group's particle can be obtained to the response of group's optimal location, response is sequentially added and is obtained The responsiveness e of group's optimal location_i。

Group's node strength：In MCCN, the intensity for defining group's node is S_i, thenWherein： ω_ioFor group c_iWith c_oBetween cooperation weight, e_iFor the responsiveness of group's node, U_iFor group c_iNeighborhood, neighborhood indicate with Group c_iThere are the set of the group of cooperation relation

It is describedIf F_i>=FT then shows that the group has stronger local optimal searching ability, as Model group, is denoted as MC；If F_i<FT then shows that then the group has stronger global exploring ability, as common group It falls, is denoted as CC.

The specific implementation mode of the present invention is explained in detail above in conjunction with attached drawing, but the present invention is not limited to above-mentioned Embodiment within the knowledge of a person skilled in the art can also be before not departing from present inventive concept Put that various changes can be made.

Claims (6)

1. the knowledge services multi-task scheduling optimization method under a kind of cloud environment, it is characterised in that：By determining under cloud environment The optimization object function and constraints of knowledge services multi-task scheduling, and it is two-way using being fallen based on the multigroup under big data environment Driving collaborative searching algorithm optimizes target.

2. the knowledge services multi-task scheduling optimization method under cloud environment according to claim 1, it is characterised in that：It is described Optimization object function is specially：

Structure is most short with knowledge services time KT, knowledge services quality KQ is optimal, the minimum targets of knowledge services cost KC are known Know service dispatch optimization object function：

The knowledge services time function of KT is：In formula, z_abIt indicates The decision variable of b-th of subtask of knowledge services task a；t_abIndicate the clothes that b-th of subtask of knowledge services task a executes It is engaged in the time；t'_abIndicate the communication stand-by period that b-th of subtask of knowledge services task a executes；α_t1And α_t2Indicate weight system Number；S_aThe subtask total amount of expression task a；N indicates that task total amount, rand () change at random in [0,1] range, y=0,1, 2；

The function of knowledge services quality KQ is：In formula, d_abIndicate that user appoints knowledge services The satisfaction of the knowledge resource service of b-th of subtask of business a；μ_aIt is satisfied with extent correction coefficient；N indicates that task is total Amount；

The function of knowledge services cost KC is：In formula, c_abIt indicates Calculating cost needed for b-th of subtask of knowledge services task a；c_ab' indicate b-th of subtask institute of knowledge services task a The communications cost needed；c_ab" indicate technical costs needed for b-th of subtask of knowledge services task a, α_c1、α_c2And α_c3Indicate power Weight coefficient；N indicates task total amount.

3. the knowledge services multi-task scheduling optimization method under cloud environment according to claim 2, it is characterised in that：It is described Constraints is specially：

Maximum service time-constrain U₁, indicate the actual finish time of each knowledge services task no more than its maximum restriction Time, i.e.,：In formula, KT_maxaIndicate permitting for knowledge services task a Perhaps maximum service limiting time；

Knowledge services cost constraint U₂, indicate the cost of serving of each knowledge services task no more than highest cost of serving, i.e.,：In formula, KC_maxaIndicate that knowledge services task a can be paid most High cost of serving；

Knowledge services task temporal constraint U₃, indicate the end time of previous service role of temporal constraint relationship no more than At the beginning of next task, i.e.,：h_st,a≤h_end,a+1；In formula, h_st,aEnd time after the completion of expression task a；h_end,a+1Table At the beginning of showing task a+1；

Knowledge resource services accuracy and constrains U₄, indicate that the knowledge resource provided and knowledge services ability must satisfy knowledge services The ability need of task, i.e.,：In formula, Ac_aIndicate that knowledge services task a needs reality Existing knowledge resource services accuracy；Ti_abIndicate the timely of the knowledge resource service of b-th of subtask of knowledge services task a Property metrics evaluation value；Cs_abIndicate the compatibility metrics evaluation of the knowledge resource service of b-th of subtask of knowledge services task a Value；α_a1、α_a2Respectively weight coefficient.

4. the knowledge services multi-task scheduling optimization method under cloud environment according to claim 3, it is characterised in that：It is described Bi-directional drive collaborative searching algorithm is fallen based on the multigroup under big data environment, specially：

Step 1：Group's particle is encoded, each particle one knowledge services Mission Scheduling of expression in group is made Potential solution；

Step 2：Group particle individual p is initialized, assigns its random position X and speed V, at this time the position vector of each particle Represent a kind of effective knowledge resource allocation plan；Group number q is set, particle iterations in group member, particle adds Fast coefficient c₁、c₂；

Step 3：According to the group number q of setting, the particle individual of initialization is evenly distributed in q process, forms size ForGroup, remaining particle individual after rounding is assigned randomly in q process, at the same according to object function calculate q The adaptive value of each particle individual in a group；

Step 4：Calculate the global optimum adaptive value F of group i_i(i=1,2 ..., q), and according to decision threshold FT by all groups It is divided into model group MC and common group CC；

Step 5：Calculate the node strength S of group i_i(i=1,2 .., q), and according to S_iTo the optimal location of respective classes group It is evaluated, obtains maximum node intensity S in affiliated class_iCorresponding group's optimal location as the generic ecotone most Excellent position；

Step 6：Each particle group is iterated evolution according to bi-directional drive coevolution mechanism, specifically includes：

Step 7：Step 5~step 6 is repeated, and obtains globally optimal solution, until reaching iterations；

The object function is to be carried out to three object functions during knowledge services multi-task scheduling using weigthed sums approach It integrates, the whole fitness function of construction is as follows：

In formula, f_h(x) corresponding optimization aim is respectively " the knowledge services time is most short ", " knowledge services optimal quality " and " knowledge Cost of serving is minimum ", i.e.,：ω_hIt is the corresponding weight coefficient of three optimization aims, meets：

5. the knowledge services multi-task scheduling optimization method under cloud environment according to claim 4, it is characterised in that：It is described Step 1 is specially：

Step 1.1：The position vector for defining particle is matrix X：n×m；Point of a knowledge services task is wherein represented per a line With situation, each row represent the service scenario of a knowledge resource, as follows：

Wherein, x_aw∈ { 0,1 }, a=1,2 ... n, w=1,2 ... m, n indicate that task total amount, m indicate knowledge resource total amount, m =n,Meet that each row element has and only 1 element value is 1, each column element there can be multiple element values to be 1；If x_aw=1, it indicates that knowledge services task a is assigned on knowledge resource w and executes, otherwise x_aw=0；Each knowledge resource To ask offer service to multiple tasks simultaneously；Knowledge services task can be assigned on any one knowledge resource and execute and know Knowledge service role, which must be assigned on a knowledge resource, to be executed；Knowledge services task cannot be interrupted in the process of implementation, The i.e. same knowledge services task does not allow to be assigned to simultaneously on multiple knowledge resources；

Step 1.2：Define the rate matrices V of particle：N × m indicates that particle is to divide current task required for reaching dbjective state Basic exchanging order with situation, it is as follows：

The speed of the particle needs to meet：v_aw∈ { 0,1 }, v_aw+v_wa=0 or 1, a=1,2 ... n, w=1,2 ... m.

6. the knowledge services multi-task scheduling optimization method structure under a kind of cloud environment using described in any one of claim 1-5 The multiple tasks dispatching system built, which is characterized in that the system comprises：

Task scheduling buffer module, according to the service ability of system, certain customers' task is asked when for multi-user concurrent request Temporary storage is asked, to ensure user task and platform resource service ability balance, the response speed that the system of raising asks user；

Task parsing module, the knowledge services mission requirements for parsing user's submission carry out the service role for obscuring, mixing Degradation, forms it into multiple low granularities, can be by knowledge services set of tasks that knowledge resource directly services；

Knowledge resource scheduler module matches work for preliminary knowledge resource, and the task feature of user's request is provided with knowledge The static attribute in source carries out matching primitives, obtains the knowledge resource collection that can fully meet the knowledge services task-set demand for services It closes；

Administration module is loaded, for the operation of knowledge resource and loading condition to be supervised in service process to Knowledge Service Platform Control, the knowledge resource of dynamic adjustment service；The case where fault-tolerant migration strategy is to solve to lead to service disruption because of accident is integrated, Ensure smoothly completing for knowledge services process；

Knowledge resource scheduling engine module, for ensureing that knowledge services task scheduling processing efficient accurately carries out；The module is integrated Knowledge services multi-task scheduling optimization method under cloud environment, is closed between knowledge services task and required knowledge resource Reason scheduling, forms optimal knowledge services task allocation plan, and submit it Knowledge Service Platform and executed, to complete The scheduling process of knowledge services task.