CN109408228A - Intelligent perception method for allocating tasks based on allocation of budget - Google Patents

Abstract

A kind of intelligent perception method for allocating tasks based on allocation of budget collects perception task set Γ={ τ that task requester is submitted₁,...,τ_i,...,τ_n, n is a limited natural number, task τ_i=(B_i,Q_i), B_iIt is to complete task τ_iMaster budget, be a limited positive real number, Q_iIt is task τ_iQuality requirement value, be a limited positive integer；Collect user's set U={ u₁,...,u_j,...,u_mAnd the user set in user u_jCredit rating q_j, j ∈ { 1 ..., m }；Calculate user u_jComplete task τ_iCost c_ij, and determine user u_jComplete task τ_iIncome w_ij；According to task τ_iQuality requirement Q_iWith user u_jCredit rating q_jTask in perception task set Γ is allocated, according to task allocation result, calculates and pays user's remuneration r_j。

Description

Intelligent perception method for allocating tasks based on allocation of budget

Technical field

The invention belongs to a numerical data processing technology fields, and in particular to a kind of intelligent perception based on allocation of budget Method for allocating tasks.

Background technique

In recent years, intelligent movable equipment (such as smart phone, tablet computer, smartwatch) is along with mobile computing and nothing The rapid development of line communication technology is widely used, and storage, calculating, communication capacity are constantly reinforced, and be equipped with crowd Multisensor (such as camera, microphone, gravimeter, GPS, gyroscope, temperature sensor, blood pressure sensor).In this base On plinth, the mobile device that people are used using a large amount of ordinary users passes through Internet of Things/mobile Internet as basic sension unit It cooperates, realizes perception task distribution and perception data Collection utilization, be finally completed extensive, complicated city and social feeling Know task.In order to utilize perception, calculating and the storage resource of these intelligent movable equipment, intelligent perception meter sufficiently, at low cost Calculation mode comes into being and is widely studied and applies.It is different from the perceptive mode based on Sensor Network and Internet of Things, gunz sense Know emphasized with a large amount of ordinary users perceptually source using public widely distributed property, flexible mobility and chance connectivity into Row perception, and provide intelligence auxiliary for city and social management and support.It can be applicable to many key areas, as intelligent transportation, The numerous areas such as public safety, socialization recommendation, environmental monitoring, city public administration, thus obtained countries in the world government, produced The highest attention of industry and academia.

One intelligent perception application system generally comprises 3 component parts: cloud platform (i.e. system), task requester and appoints It has been engaged in winner.Task requester issues perception task (hereinafter referred task) demand to cloud platform, and receives task from cloud platform As a result；Cloud platform is mainly responsible for task publication, task distribution, perception data collection and Task Quality assessment；The complete winner of task, i.e., The common mobile subscriber (hereinafter referred user) for carrying intelligent movable equipment receives distributed task from cloud platform and is responsible for number It according to perception and collects, and perception data is sent to cloud platform.In intelligent perception system, task distribution is to implement intelligent perception Basis.Cloud platform needs the mission requirements submitted according to task requester, and combines the state of current online user, will be each Task distribution (assigning) is to the numerous users for participating in intelligent perception, and the foundation of appointment is to realize specific optimization aim, such as most Bigization task acceptance rate, maximization integral benefit etc..

From existing research achievement, current method for allocating tasks and system towards intelligent perception not yet consider with Under several aspects: 1. platforms distribute to improve task receptance and system benefit the rational management of task budget；It is closed 2. choosing The user of suitable credit rating and the quality requirement for meeting task by the cooperation of user, to save task budget.Existing In method for allocating tasks, all tasks currently needed to be implemented are generally collected by platform, and send and need to be implemented to all users Set of tasks, then according to the concrete condition of each user itself distribute task, generally assume that the budget of a task is only used In the distribution of this task.In fact, the credit rating of user is limited, multiple users cooperate completion task then and can obtain more high-quality The perception data of amount, therefore, the user of multiple and different credit ratings can complete appointing for a high quality demand by cooperating Business.In addition, the resonable degree of task budget allocation can be improved in platform, for example platform can make full use of the surplus of task pre- It calculates, assigns them to the insufficient task of partial budget, be expected to greatly improve task apportionment ratio while saving task budget.But It is that current online method for allocating tasks not yet considers these factors, greatly limit intelligent perception applies model It encloses.

Therefore, to adapt to extensive intelligent perception application scenarios, while the task apportionment ratio of platform is improved, is considering task Quality requirement and user credit rating between relationship and platform in the case where the rational allocation of task budget, design A kind of intelligent perception method for allocating tasks based on allocation of budget is very necessary.

Summary of the invention

Technical problem to be solved by the present invention lies in existing intelligent perception method for allocating tasks is overcome, one is provided Kind design is rationally, task apportionment ratio is high, saves the intelligent perception method for allocating tasks based on allocation of budget of task budget.

Solving technical solution used by above-mentioned technical problem is a kind of intelligent perception task distribution based on allocation of budget Method, which is characterized in that comprise the steps of:

(1) perception task set Γ={ τ that task requester is submitted is collected₁,...,τ_i,...,τ_n, i ∈ 1 ..., N }, n is a limited natural number, task τ_i=(B_i,Q_i), B_iIt is to complete task τ_iMaster budget, be a limited positive reality Number, Q_iIt is task τ_iQuality requirement value, be a limited positive integer；

(2) user's set U={ u is collected₁,...,u_j,...,u_mAnd the user set in user u_jCredit rating q_j, j ∈ { 1 ..., m }, m are a limited natural number；

(3) user u is calculated_jComplete task τ_iCost c_ij, and determine user u_jComplete task τ_iIncome w_ij；

(4) according to task τ_iQuality requirement Q_iWith budget B_iAnd user u_jCredit rating q_jTo perception task set Γ In task be allocated, it is specific that distribute formula as follows:

In formula, y_iIndicate task τ_iWhether at the distribution of work, y_i=1 indicates task τ_iAt the distribution of work, τ_i∈ Γ, y_i=0 indicates Task τ_iDistribution failure；x_ijIt indicates whether task τ_iDistribute to user u_j, u_j∈ U, x_ij=1 indicates task τ_iDistribute to use Family u_j, x_ij=0 indicates not by task τ_iDistribute to user u_j, δ expression participation task τ_iThe sum of the remuneration of all users and task The difference of master budget, Unspent budget after indicating platform previous task distribution, is a positive real number, η ∈ (0, 1) utilization rate of unspent budget is indicated；

(5) it according to task allocation result, calculates and pays user's remuneration r_j；

As a kind of perferred technical scheme, the step (3) user u_jComplete task τ_iCost c_ij,

c_ij=f (Q_i,q_j) (2)

In formula, q_jFor user u_jCredit rating, function f (Q_i,q_j) it is one non-negative with q_jMonotonically increasing function；It is described User u_jComplete task τ_iIncome w_ij,

w_ij=g (Q_i,q_j) (3)

Function g (Q_i,q_j) it is one non-negative with q_jMonotonically increasing function；

As a kind of perferred technical scheme, the formula (1) in the step (4) is an integer programming problem, is It is efficient to solve the problems, such as that this is allocated by the following method:

S1: order set Γ ' is set of tasks to be allocated, Γ '=Γ when initial, for any task τ_i, τ_i∈ Γ ' is enabled Q′_iIndicate task τ_iRemaining quality requirement value, B '_iIndicate task τ_iResidual,After indicating the previous task distribution of platform Unspent budget, Q ' when initial_i=Q_i, B '_i=B_i,Enable setFor remaining user set, set U' is optional User's set, when initialSetExpression can execute task τ_iUser set, initially

S2: judgement setIt is whether true, if so, according to the following formula

Find out a particular task τ_i*, particular task τ_i*It is initial special for the task that the quality requirement in unit budget is minimum Determine task τ_i*Quality requirement value Q '_i*=Q_i*, particular task τ_i*Residual B '_i*=B_i*, particular task τ_i*It is available User's setOtherwise, stop；

S3: one is found out according to the following formula closest to particular task τ_i*The user u of quality requirement_j*,

In formula, c_i*jIndicate user u_jExecute distributed particular task τ_i*When the cost paid, w_i*jIndicate user u_jIt holds The distributed particular task τ of row_i*When brought net earnings if can find turn to step S4；Otherwise, in set of tasks Γ Middle this task of deletion, and enable y_i*=0, i.e. particular task τ_i*Distribution failure, turns again to step S2；

S4: judge user u_j*Execute particular task τ_i*Remuneration and particular task τ_i*Difference, that is, following formula of budget whether at It is vertical,

(c_i*j*+w_i*j*)-B′_i*≤δ (6)

C in formula_i*j*Indicate user u_j*Execute distributed particular task τ_i*When the total cost paid, w_i*j*Indicate user u_j* Execute distributed particular task τ_i*When bring net earnings, if set up if turn to step S5；Otherwise, gather in available user The middle deletion user u of U '_j*, turn again to step S3 and find new user；

S5: judge whether platform can utilize unspent budgetTo help particular task τ_i*Complete distribution, i.e., following formula whether at It is vertical,

If so, then user u_j*Addition meets task τ_i*The user of quality requirement gathersIn, turn to step S6；It is no It then, should be user u_j*It is deleted from available user's set U', turns again to step S3 and find new user；

S6: by user u_j*It is deleted from available user's set U', according to formula Q '_i*=Q_i*′-q_j*With formula B '_i* =B '_i*-(c_i*j*+w_i*j*) update Q '_i*With B '_i*Value, then judge task τ_i*Quality requirement whether it is satisfied, i.e. formula Q '_i*≤ Whether 0 is true, if so, turn to step S7；If not, it turns to step S3 and continually looks for user；

S7: user's setAs execute task τ_i*A feasible user set, enable y_i*=1, i.e. particular task τ_i*At The distribution of work enables x_i*j*=1, i.e., by task τ_iDistribute to user u_j*,Calculate unspent budgetIt enables Γ '=Γ '-{ τ_i*,The lower task of step S2 is turned again to be allocated.

As a kind of perferred technical scheme, for executing particular task τ in the step (5)_i*User u_j*It obtains Remuneration r_j*,

As user u_j*Complete particular task τ_i*And after obtaining remuneration, by all x_i*j*Value be set as 0,τ_i*∈ Γ, and by user u_j*It is added in user's set U.

As a kind of perferred technical scheme, new when be collected into that task requester submitted in the step (1) When perception task, new task is increased in set Γ；When an allocated task is completed, then by it from set Γ It removes.

As a kind of perferred technical scheme, in the step (2) when detecting that user leaves system, by the user It is deleted from set U；When being collected into new user, which is increased in set U.

Beneficial effects of the present invention are as follows:

1, the present invention considers the relationship between the quality requirement of task and user quality grade, since multiple users cooperate Completion task can obtain higher-quality perception data, therefore under the constraint condition of task budget, according to the quality of task Requirements complete perception task to choose the user collaboration of different quality grade, are expected to while meeting perception data quality big Width saves task budget.

2, the present invention considers the influence that the budget of task distributes task, and proposing one kind can be improved task apportionment ratio Method, the budget of task will be split as two parts by platform, and a part of budget is used to guarantee the normal allocation of this task, remaining Partial budget the task that reasonable distribution can not be distributed to those because of budgetary shortfall will be carried out by platform.Institute in assigning process There is task all equality of budgetary shortfall to obtain platform budget supplement, embodies the thought of fair allocat.This method for allocating tasks Both promoted the budget of task more fully to be applied, and also more tasks can have been made by the distribution of work.

Detailed description of the invention

Fig. 1 is a kind of flow chart of the intelligent perception method for allocating tasks based on allocation of budget of the present invention.

Specific embodiment

The present invention is described in more detail with reference to the accompanying drawings and examples, but the present invention is not limited to following embodiment party Formula.

In Fig. 1, the intelligent perception method for allocating tasks based on allocation of budget of the present embodiment is comprised the steps of:

(1) the perception task set that task requester is submitted is set as Γ={ τ₁,τ₂,τ₃, task τ_i=(B_i,Q_i), wherein i ∈ { 1,2,3,4 }, τ₁=(4,75), τ₂=(8,240), τ₃=(5,110), τ₄=(6,130)；

(2) user's set U={ u is collected₁,u₂,u₃,u₄,u₅,u₆, q_jIt is user u_jCredit rating, wherein j ∈ 1,2, 3,4 }, q₁=3, q₂=5, q₃=3, q₄=2, q₅=3, q₆=2；

(3) user u is calculated_jComplete task τ_iCost c_ij, and determine user u_jComplete task τ_iIncome w_ij；

User u_jComplete task τ_iCost c_ij,

c_ij=f (Q_i,q_j)=5Q_i+10q_j (1)

User u_jComplete task τ_iIncome w_ij,

w_ij=g (Q_i,q_j)=Q_i+2q_j (2)

User u is calculated according to above formula (1) and (2)₁,u₂,u₃,u₄,u₅,u₆Execute task τ₁,τ₂,τ₃,τ₄Cost and receipts Benefit is indicated with matrix respectively:

(4) according to task τ_iQuality requirement Q_iWith user u_jCredit rating q_jTo the task in perception task set Γ It is allocated, specific distribution formula is as follows:

In formula, y_iIndicate task τ_iWhether at the distribution of work, y_i=1 indicates task τ_iAt the distribution of work, τ_i∈ Γ, y_i=0 indicates Task τ_iDistribution failure；x_ijIt indicates whether task τ_iDistribute to user u_j, u_j∈ U, x_ij=1 indicates task τ_iDistribute to use Family u_j, x_ij=0 indicates not by task τ_iDistribute to user u_j, δ expression participation task τ_iThe sum of the remuneration of all users and task The difference of master budget, Unspent budget after indicating platform previous task distribution, is a positive real number, η ∈ (0, 1) utilization rate of unspent budget is indicated；

Above-mentioned formula (3) is an integer programming problem, in order to efficiently solve the problems, such as that this is allocated by the following method:

S1: order set Γ ' is set of tasks to be allocated, Γ '=Γ when initial, for any task τ_i,

τ_i∈ Γ ', enables Q '_iIndicate task τ_iRemaining quality requirement value, B '_iIndicate task τ_iResidual,It indicates Unspent budget after the previous task distribution of platform, Q ' when initial_i=Q_i, B '_i=B_i,Enable setFor remaining user Set, set U ' is available user set, when initialSetExpression can execute task τ_iUser Set, initially

S2: judgement setIt is whether true, if so, according to the following formula

Find out a particular task τ_i*, particular task τ_i*It is initial special for the task that the quality requirement in unit budget is minimum Determine task τ_i*Quality requirement value Q '_i*=Q_i*, particular task τ_i*Residual B '_i*=B_i*, particular task τ_i*It is available User's setOtherwise, stop；

SetThe minimum task τ of quality requirement in unit budget is found out according to formula (4)_i*, acquire τ_i*=τ₂, initial particular task τ₂Quality requirement value Q₂'=Q₂=8, particular task τ₂Residual B₂'=B2=240, it is special Determine task τ₂Available user's set

S3: one is found out according to the following formula closest to particular task τ_i*The user u of quality requirement_j*,

In formula, c_i*jIndicate user u_jExecute distributed particular task τ_i*When the cost paid, w_i*jIndicate user u_jIt holds The distributed particular task τ of row_i*When brought net earnings if can find turn to step S4；Otherwise, in set of tasks Γ Middle this task of deletion, and enable y_i*=0, i.e. particular task τ_i*Distribution failure, turns again to step S2；

τ is obtained by step S2_i*=τ₂, u is found out according to formula (5)_j*=u₂, turn to step S4；

S4: judge user u_j*Execute particular task τ_i*Remuneration and particular task τ_i*Difference, that is, following formula of budget whether at It is vertical,

(c_i*j*+w_i*j*)-B′_i*≤δ (6)

C in formula_i*j*Indicate user u_j*Execute distributed particular task τ_i*When the total cost paid, w_i*j*Indicate user u_j* Execute distributed particular task τ_i*When bring net earnings, if set up if turn to step S5；Otherwise, gather in available user User u is deleted in U'_j*, turn again to step S3 and find new user；

User u₂Execute distributed particular task τ₂When the total cost c that pays₂₂, user u₂Execute distributed particular task τ₂When bring net earnings w₂₂, due to c₂₂=90, w₂₂=18, B '₂=240, δ=25, then (c₂₂+w₂₂)-B′₂≤ δ is set up, and is turned To step S5；

S5: judge whether platform can utilize unspent budgetTo help particular task τ_i*Complete distribution, i.e., following formula whether at It is vertical,

If so, then user u_j*Addition meets task τ_i*The user of quality requirement gathersIn, turn to step S6；It is no It then, should be user u_j*It is deleted from available user's set U', turns again to step S3 and find new user；

For user u₂, η=0.8 is enabled, due toc₂₂+w₂₂=90+18=108, then Formula (7) is set up, by user u₂Set is addedIn, turn to step S6；

S6: by user u_j*It is deleted from available user's set U', according to formula Q '_i*=Q_i*′-q_j*With formula B '_i* =B '_i*-(c_i*j*+w_i*j*) update Q '_i*With B '_i*Value, then judge task τ_i*Quality requirement whether it is satisfied, i.e. formula Q '_i*≤ Whether 0 is true, if so, turn to step S7；If not, it turns to step S3 and continually looks for user；

User u is deleted in user's set U'₂, update Q_i' and B_i' value, Q₂'=Q₂'-q₂=3, B₂'=B₂'-(c₂₂+ w₂₂)=240- (90+18)=132, due to Q₂'=3, then formula Q₂'≤0 is invalid, turns to step S3；

In step s3,Turn to step S4；

In step s 4, for user u₁, due to (c₂₁+w₂₁)-B₂'=(70+14) -132=-48, δ=25, then formula (6) it sets up, turns to step S5；

In step s 5, for user u₁, whether judgment formula (7) is true, due to c₂₁+w₂₁=70+14=84, then formula (7) is set up, by user u₁Set is addedIn, turn to step S6；

In step s 6, user u is deleted in user's set U'₁, update Q_i' and B_i' value, Q₂'=Q₂'-q₁=0, B₂' =B₂'-(c₂₁+w₂₁)=132- (70+14)=48, due to Q₂'=0, then formula Q₂'≤0 is set up, and step S7 is turned to；

S7: user's setAs execute task τ_i*A feasible user set, enable y_i*=1, i.e. particular task τ_i* At the distribution of work, x is enabled_i*j*=1, i.e., by task τ_iDistribute to user u_j*,Calculate unspent budget Enable Γ '=Γ '-{ τ_i*,The lower task of step S2 is turned again to be allocated；

User's set U₂ ⁺As execute task τ₂A feasible user set, enable y₂=1, to any userAll enable x_2j=1, calculate unspent budgetEnable Γ '=Γ '-{ τ₂,Turning to step S402 is that next task is allocated；

It is pointed out that task τ₂It is that the user's set U for meeting quality requirement is had found under conditions of budget abundance₂ ⁺ Smoothly complete distribution；

In step s 2, gatherMinimum times of quality requirement in unit budget is found out according to formula (4) Be engaged in τ_i*, acquire τ_i*=τ₃, initial particular task τ₃Quality requirement value Q₃'=Q₃=5, particular task τ₃Residual B₃'= B₃=110, particular task τ₃Available user's set

In step s3, u is found out according to formula (5)_j*=u₃, turn to step S4；

In step s 4, user u₃Execute distributed particular task τ₃When the total cost c that pays₃₃, user u₃Execution divides With particular task τ₃When bring net earnings w₃₃, due to c₃₃=55, w₃₃=11, B '₃=110, δ=25, then (c₃₃+w₃₃)-B′₃ ≤ δ is set up, and turns to step S5；

In step s 5, for user u₃, due toc₃₃+w₃₃=55+ 11=66, then formula (7) is set up, by user u₃Set is addedIn, turn to step S6；

In step s 6, user u is deleted in user's set U'₃, then update Q_i' and B_i' value, Q₃'=Q₃'-q₃=5-3 =2, B₃'=B₃'-(c₃₃+w₃₃)=110-66=44, due to Q₃'=2, then formula Q₃'≤0 is invalid, turns to step S3；

In step s3, u_j*=u₄, turn to step S4；

In step s 4, for user u₄, due to c₃₄=45, w₃₄=9, B '₃=44, δ=25, then (c₃₄+w₃₄)-B′₃≤δ It sets up, turns to step S5；

In step s 5, for user u₄, whether judgment formula (7) is true, due to c₃₄+w₃₄=45+9=54, then formula (7) is set up, by user u₄Set is addedIn, turn to step S6；

In step s 6, user u is deleted in user's set U'₄, then update Q_i' and B_i' value, Q₃'=Q₃'-q₄=2-2 =0, B₃'=B₃'-(c₃₄+w₃₄)=44-54=-10, due to Q₃'=0, then formula Q₃'≤0 is set up, and step S7 is turned to；

In the step s 7, user's set U₃ ⁺As execute task τ₃A feasible user set, enable y₃=1, to appoint One userAll enable x_3j=1, calculate unspent budgetEnable Γ '=Γ '- {τ₃,Turning to step S2 is that next task is allocated；

Task τ₃Although budgetary shortfall, since platform is used to make up task budget using the budget of previous task surplus, Task τ₃It is able to find the user's set U for meeting quality requirement₃ ⁺Smoothly complete distribution；

In step s 2, gatherMinimum times of quality requirement in unit budget is found out according to formula (4) Be engaged in τ_i*, acquire τ_i*=τ₄, initial particular task τ₄Quality requirement value Q₄'=Q₄=6, particular task τ₄Residual B₄'= B₄=130, particular task τ₄Available user's set

In step s3, u is found out according to formula (5)_j*=u₅, turn to step S4；

In step s 4, user u₅Execute distributed particular task τ₅When the total cost c that pays₄₅, user u₅Execution divides With particular task τ₅When bring net earnings w₄₅, c₄₅=60, w₄₅=12, B '₄=130, δ=25, then (c₄₅+w₄₅)-B′₄≤ δ at It is vertical, turn to step S5；

In step s 5, for user u₅, due toc₄₅+w₄₅=60+ 12=72, then formula (7) is set up, by user u₅Set is addedIn, turn to step S6；

In step s 6, user u is deleted in user's set U'₅, then update Q_i' and B_i' value, Q₄'=Q₄'-q₅=6-3= 3, B₄'=B₄'-(c₄₅+w₄₅)=130-72=58, due to Q₄'=3, then formula Q₄'≤0 is invalid, turns to step S3；

In step s3, u_j*=u₆, turn to step S4；

In step s 4, for user u₆, due to c₄₆=50, w₄₆=10, B '₄=58, δ=25, then (c₄₆+w₄₆)-B′₄≤ δ is set up, and turns to step S5；

In step s 5, for user u₄, whether judgment formula (7) is true, due to c₄₆+w₄₆=50+10=60, then formula (7) is set up, by user u₆Set is addedIn, turn to step S6；

In step s 6, user u is deleted from user's set U'₆, then update Q_i' and B_i' value, Q₄'=Q₄'-q₆=3-2 =1, B₄'=B₄'-(c₄₆+w₄₆)=68-60=8, due to Q₄'=1, then formula Q₄'≤0 is invalid, turns to step S3；

In step s3, task τ can be executed due to can not find new user₄, therefore, task τ₄It can not distribute, therefore enable y₄=0, and this task is deleted in set of tasks Γ, turn again to step S2；

Task τ₄The user's set for meeting Task Quality demand due to can not find, is unable to complete distribution；

In step s 2, gatherMinimum times of quality requirement in unit budget is found out according to formula (4) Be engaged in τ_i*, acquire τ_i*=τ₁, initial particular task τ₁Quality requirement value Q₁'=Q₁=4, particular task τ₁Residual B₁'= B₁=75, particular task τ₁Available user's set

In step s3, u is found out according to formula (5)_j*=u₅, turn to step S4；

In step s 4, user u₅Execute distributed particular task τ₁When the total cost c that pays₁₅, user u₅Execution divides With particular task τ₅When bring net earnings w₁₅, c₁₅=50, w₁₅=10, B '₁=75, δ=25, then (c₁₅+w₁₅)-B′₁≤ δ at It is vertical, turn to step S5；

In step s 5, for user u₅, η=0.8 is enabled, due toc₁₅+ w₁₅=60, then formula (7) is set up, by user u₅Set is addedIn, turn to step S6；

In step s 6, user u is deleted from user's set U'₅, then update Q_i' and B_i' value, Q₁'=Q₁'-q₅=4-3 =1, B₁'=B₁'-(c₁₅+w₁₅)=75-60=15, due to Q₁'=1, then formula Q₁'≤0 is invalid, turns to step S3；

In step s3, u_j*=u₆, turn to step S4；

In step s 4, for user u₆, due to c₁₆=40, w₁₆=8, B '₁=15, δ=25, then (c₁₆+w₁₆)-B′₁≤δ It is invalid, turn to step S3；

In step s3, task τ can be executed due to can not find new user₁, therefore, task τ₁It can not distribute, therefore enable y₁=0, and this task is deleted in set of tasks Γ, turn again to step S2；

Task τ₁Budgetary shortfall, and be more than the range that platform can make up task budget, therefore be unable to complete distribution；

In step s 2, gatherThen task is all assigned in set Γ；

(5) (8) are to execute task τ according to the following formula_i*(τ_i*∈ Γ) userMete out rewards r_j*,

Execute task τ₂User collection be combined into U₂ ⁺, calculate to obtain r₁=70+14=84, r₂=90+18=108, by remuneration r₁With r₂User u is paid respectively₁With user u₂, execute task τ₂User collection be combined intoCalculate to obtain r₃=55+11=66, r₄=45+ 9=54, by remuneration r₃And r₄User u is paid respectively₃With user u₄, remaining task and user are unallocated, no remuneration；As user u_j* Completion task simultaneously obtains remuneration τ_i*Afterwards, by all x_i*j*Value be set as 0, whereinτ_i*∈ Γ, and by user u_j*Add In access customer set U, payt can also carry out again after relative users complete perception task and upload perception data.

Claims (6)

1. a kind of intelligent perception method for allocating tasks based on allocation of budget, which is characterized in that comprise the steps of:

(1) perception task set Γ={ τ that task requester is submitted is collected₁,...,τ_i,...,τ_n, i ∈ { 1 ..., n }, n is One limited natural number, task τ_i=(B_i,Q_i), B_iIt is to complete task τ_iMaster budget, be a limited positive real number, Q_iIt is Task τ_iQuality requirement value, be a limited positive integer；

(2) user's set U={ u is collected₁,...,u_j,...,u_mAnd the user set in user u_jCredit rating q_j, j ∈ { 1 ..., m }, m are a limited natural number；

(3) user u is calculated_jComplete task τ_iCost c_ij, and determine user u_jComplete task τ_iIncome w_ij；

(4) according to task τ_iQuality requirement Q_iWith budget B_iAnd user u_jCredit rating q_jTo in perception task set Γ Task is allocated, and specific distribution formula is as follows:

In formula, y_iIndicate task τ_iWhether at the distribution of work, y_i=1 indicates task τ_iAt the distribution of work, τ_i∈ Γ, y_i=0 indicates task τ_i Distribution failure；x_ijIt indicates whether task τ_iDistribute to user u_j, u_j∈ U, x_ij=1 indicates task τ_iDistribute to user u_j, x_ij =0 indicates not by task τ_iDistribute to user u_j, δ expression participation task τ_iThe sum of the remuneration of all users and task master budget Difference, Unspent budget after indicating the previous task distribution of platform, is a positive real number, η ∈ (0,1) table Show the utilization rate of unspent budget；

(5) it according to task allocation result, calculates and pays user's remuneration r_j。

2. the intelligent perception method for allocating tasks according to claim 1 based on allocation of budget, it is characterised in that: it is described Step (3) user u_jComplete task τ_iCost c_ij,

c_ij=f (Q_i,q_j) (2)

In formula, q_jFor user u_jCredit rating, function f (Q_i,q_j) it is one non-negative with q_jMonotonically increasing function；The use Family u_jComplete task τ_iIncome w_ij,

w_ij=g (Q_i,q_j) (3)

Function g (Q_i,q_j) it is one non-negative with q_jMonotonically increasing function.

3. the intelligent perception method for allocating tasks according to claim 1 based on allocation of budget, it is characterised in that described Formula (1) in step (4) is an integer programming problem, in order to efficiently solve the problems, such as that this is allocated by the following method:

S1: order set Γ ' is set of tasks to be allocated, Γ '=Γ when initial, for any task τ_i, τ_i∈ Γ ', enables Q '_i Indicate task τ_iRemaining quality requirement value, B '_iIndicate task τ_iResidual,After indicating the previous task distribution of platform Unspent budget, Q ' when initial_i=Q_i, B '_i=B_i,Enable setFor remaining user set, set U' is optional User set, when initialSetExpression can execute task τ_iUser set, initially

S2: judgement setIt is whether true, if so, according to the following formula

Find out a particular task τ_i*, particular task τ_i*It is specific initial for the task that the quality requirement in unit budget is minimum Be engaged in τ_i*Quality requirement value Q '_i*=Q_i*, particular task τ_i*Residual B '_i*=B_i*, particular task τ_i*Available user SetOtherwise, stop；

S3: one is found out according to the following formula closest to particular task τ_i*The user u of quality requirement_j*,

In formula, c_i*jIndicate user u_jExecute distributed particular task τ_i*When the cost paid, w_i*jIndicate user u_jExecution divides The particular task τ matched_i*When brought net earnings if can find turn to step S4；Otherwise, it is deleted in set of tasks Γ This task, and enable y_i*=0, i.e. particular task τ_i*Distribution failure, turns again to step S2；

S4: judge user u_j*Execute particular task τ_i*Remuneration and particular task τ_i*Whether difference, that is, following formula of budget is true,

(c_i*j*+w_i*j*)-B_i'_*≤δ (6)

C in formula_i*j*Indicate user u_j*Execute distributed particular task τ_i*When the total cost paid, w_i*j*Indicate user u_j*It executes Distributed particular task τ_i*When bring net earnings, if set up if turn to step S5；Otherwise, in available user's set U' Delete user u_j*, turn again to step S3 and find new user；

S5: judge whether platform can utilize unspent budgetTo help particular task τ_i*Complete distribution, i.e., whether following formula is true,

If so, then user u_j*Addition meets task τ_i*The user of quality requirement gathersIn, turn to step S6；Otherwise, It should be user u_j*It is deleted from available user's set U', turns again to step S3 and find new user；

S6: by user u_j*It is deleted from available user's set U', according to formula Q '_i*=Q_i*'-q_j*With formula B '_i*=B ′_i*-(c_i*j*+w_i*j*) update Q '_i*With B '_i*Value, then judge task τ_i*Quality requirement whether it is satisfied, i.e. formula Q '_i*≤ 0 is No establishment, if so, turn to step S7；If not, it turns to step S3 and continually looks for user；

S7: user's setAs execute task τ_i*A feasible user set, enable y_i*=1, i.e. particular task τ_i*At The distribution of work enables x_i*j*=1, i.e., by task τ_iDistribute to user u_j*,Calculate unspent budgetIt enables Γ '=Γ '-{ τ_i*,The lower task of step S2 is turned again to be allocated.

4. the intelligent perception method for allocating tasks according to claim 3 based on allocation of budget, it is characterised in that: it is described For executing particular task τ in step (5)_i*User u_j*The remuneration r of acquisition_j*,

As user u_j*Complete particular task τ_i*And after obtaining remuneration, by all x_i*j*Value be set as 0,τ_i*∈ Γ, And by user u_j*It is added in user's set U.

5. the intelligent perception method for allocating tasks according to claim 1 based on allocation of budget, it is characterised in that: it is described In step (1) when being collected into the new perception task that task requester is submitted, new task is increased in set Γ；When one A allocated task is completed, then removes it from set Γ.

6. the intelligent perception method for allocating tasks according to claim 1 based on allocation of budget, it is characterised in that: it is described In step (2) when detecting that user leaves system, which is deleted from set U；When being collected into new user, by this User increases in set U.