CN109583636A - A kind of dangerous goods store isolating door selection method based on hesitation distance set - Google Patents

Abstract

The dangerous goods store isolating door selection method based on hesitation distance set that the present invention provides a kind of, for the dangerous material storage repository status that supply falls short of demand, using intercommunication warehouse as object, step: A, formulating isolating door and forklift using priciple；B, according to the service condition of total storage capacity and isolating door, more set dangerous material storage schemes are designed；C, optimum scheme comparison decision index system；D, comprehensive ratio choosing, and optimum scheme comparison are carried out to dangerous material storage scheme using hesitation distance set.By using the above method, the service efficiency of intercommunication dangerous goods store can be effectively improved, alleviates the pressure because of caused by dangerous material storage repository off-capacity.A kind of use decision-making technique of the intercommunication dangerous goods store isolating door based on hesitation distance set proposed through the invention, can be improved the service efficiency of dangerous goods store, can alleviate dangerous goods store to a certain extent supply falls short of demand problem.

Description

A kind of dangerous goods store isolating door selection method based on hesitation distance set

Technical field

For the dangerous material storage repository use situation that supply falls short of demand, for the service efficiency for improving dangerous material storage repository, Present invention introduces the concepts of the comprehensive relative distance collection of the hesitation with parameter, propose a kind of choosing of intercommunication dangerous goods store isolating door Plan method is selected, dangerous goods store management domain is belonged to.

Background technique

According to investigations, the domestic dangerous material storage market in general shows as that supply falls short of demand at present, and some city dangerous goods stores are remote It is not able to satisfy the market demand.For the reply storage status that supply falls short of demand, on the one hand, the construction dynamics of Ying Jia great dangerous goods store, The supply capacity for improving warehouse solves warehouse shortage problem from source；On the other hand, the storage in the existing warehouse of change should be passed through Structure, science promote the management level in warehouse, improve warehouse service efficiency.

In contrast, above-mentioned second method all has more no matter from establishing period angle, or from capital investment angle Advantage.In consideration of it, existing danger is being transformed the invention proposes a kind of use decision-making technique of intercommunication dangerous goods store isolating door Product close a position warehouse storage organization on the basis of, provided for the science of dangerous goods store, effective use and a series of improve decision-making party Method, to realize the efficient management of dangerous goods store.

Summary of the invention

For the service efficiency for improving dangerous goods store, the case where for dangerous goods store structure of modification, the invention proposes A kind of dangerous goods store isolating door based on hesitation distance set uses decision-making technique.By using this method, danger can be improved The service efficiency in product warehouse can alleviate dangerous goods store to a certain extent supply falls short of demand problem.

Technical solution of the present invention:

A kind of dangerous goods store isolating door selection method based on hesitation distance set, steps are as follows:

(A), isolating door and forklift using priciple are formulated；Wherein the using priciple of isolating door is as follows: when total storage capacity K >= 12, and when forklift quantity e >=1, isolating door could be used；The using priciple of forklift is as follows: forklift clockwise direction in warehouse By specified route, two forklifts cannot appear in same room simultaneously；

(B), according to the service condition of total storage capacity and isolating door, more set dangerous material storage schemes are designed；

When there are following situations, i.e. total storage capacity K >=12, and when forklift quantity e >=1, design a variety of dangerous material storages Scheme；Storage scheme is made of the different types of warehouse Duo Men, these warehouses Duo Men are main difference is that include different rooms Between number；

The design of the storage scheme is as follows: according to the standard of existing dangerous material storage repository, one t warehouse institutes The total position in storehouse number having is m (t)=4t+4, and wherein the door number in warehouse takes even number；Total storage capacity is different warehouse groups corresponding to K Storage scheme under closing uniformly is expressed from the next:

Wherein, a_h(t) quantity in t warehouses in scheme h is indicated, Δ (h) indicates that remaining position in storehouse number, Δ (h) are answered in scheme h Less than 12 bin levels；The value of k is related with K, and value is to meet the maximum even number of m (t)≤K condition；

Specifically, strategy parameter (a_h(2), a_h(4), a_h(k), Δ (h)) determination method it is as follows:

Firstly, calculating most warehouse gate number T corresponding to total storage capacity K, method is: calculating median B=int (0.25K-1), if B is even number, T=B, if B is odd number, T=B-1, wherein int (X) is indicated to the downward round numbers of X；

Then, the relevant parameter of numerical procedure one.Calculate warehouse quantity a corresponding to most warehouse gate number T₁(T)=int [K/m (T)] calculates the required amount of storage S after deducting T warehouse storage capacities₁(T)=K-a₁(T) * m (T), compares S₁(T) with The size of T-2 warehouse capacity m (T-2), if S₁(T) >=m (T-2), then the quantity a in T-2 warehouses needed for calculating₁(T-2)= int[S₁(T)/m (T-2)], calculate the required amount of storage S after deducting T-2 warehouse amount of storage₁(T-2)=S₁(T)-a₁(T-2)* m(T-2)；If S₁(T) < m (T-2), then successively compare S₁(T) with m (T-4), m (T-6) ..., m (2), and successively determine a₁(T- 4)、a₁(T-6)、…、a₁(2) and remaining amount of storage S₁(2).At this point, the parameter of scheme one is (a₁(2)+1, a₁(4) ..., a₁ (T), Δ (1)), wherein Δ (1)=12-S₁(2)。

Finally, successively determining scheme i=1,2,3,4 ... relevant parameter.If the quantity in most warehouses in scheme i-1 Greater than 2, then the quantity in most warehouses is reduced by one, and the quantity as door warehouses most in scheme i；If scheme i-1 In at most door warehouse quantity be 1, then using 2 warehouses fewer than the most numbers as the most warehouses of scheme i, and calculate The warehouse quantity.Using previous step the method, successively determine that more most than the program warehouses are 2 few, 4,6 ... storehouses Library quantity and remaining amount of storage S₂(2), and determine scheme i relevant parameter.

Above-mentioned steps are repeated, until there was only 2 warehouse compositions in scheme.

(C), optimum scheme comparison decision index system；Decision index system includes time cost, space cost, economic cost and safety Degree；

The time cost c_thIncluding forklift runing time and external truck traveling time, calculating formula are as follows:

Wherein, e_hForklift quantity in expression scheme h, v₁For the forklift speed of service, v₂For the container truck speed of service, l (C,p_i) indicate storage container truck from the C of position to storage point p_iActual range, l (C_i,C_j) indicate container truck by Position C_iPlace is moved to position C_jThe path length at place；

The space cost c_sphBy the quantity in warehouse room and the product representation of storage charges, calculating formula is as follows:

c_sph=bt_h

Wherein, t_hFor room number in warehouse used in scheme h, b indicates the storage charges in single warehouse；

The economic cost c_ehIt is related with forklift operating path total length and current oil price:

Wherein, f indicates same day vehicle fuel price；

The degree of safety c_sahRefer to that the similarity degree between forklift working line, circular are as follows:

Wherein, abs (l (C, p_i)-l(C,p_j)) indicate to take l (C, p_i)-l(C,p_j) absolute value；

Optimal case refers to overall cost minimum, is further converted to solve the maximum side of synthesized attribute relative distance value Case；

(D), dangerous material storage scheme is carried out comprehensive than choosing, optimum scheme comparison；

Including the following steps:

(D1), the value for assuming oil price is f=(f₁,f₂,…,f₅), the value of storage charges is b=(b₁,b₂,…,b₅), lead to Cross the hesitation decision set that practical investigation determines storage scheme collection:

Wherein, m indicates scheme total amount, c_tmRepresent the time cost of m-th of scheme, { c_spm1,…,c_spm5Represent m-th The value of the space cost of scheme, { c_em1,…,c_em5Represent m-th of scheme economic cost value, c_samRepresent m-th of side The degree of safety of case；

(D2), the Negative ideal point in hesitation decision set is determined

If ideal point is C_max=(c_t′,(c_s′_pi1,c_s′_pi2,…,c_s′_pi5),(c_e′_m1,c_e′_m2,…,c_e′_m5), c_s′_am), Each component is determined by following formula:

Wherein, k=1,2,3,4,5, q=1,2,3,4,5；

(D3), each decision scheme and Negative ideal point distance are calculated；Negative ideal point distance in "what if" i is D_i=[d_ti {d_spi1,d_spi2,…,d_spi5}{d_ei1,d_ei2,…,d_ei5}d_sai], each component is determined by following formula:

Wherein, k=1,2,3,4,5, q=1,2,3,4,5；

Same mode determines the relative distance matrix of m scheme:

(D4), it is ranked up according to relative distance collection of the comparative approach of hesitation distance set to four kinds of schemes, is belonged to comprehensive Relative distance value is maximum is determined as optimal case for property.

A kind of beneficial effects of the present invention: the intercommunication dangerous goods store based on hesitation distance set proposed through the invention The use decision-making technique of isolating door, can be improved the service efficiency of dangerous goods store, can alleviate dangerous goods store to a certain extent Problem that supply falls short of demand.

Detailed description of the invention

Fig. 1 (a)~(d) is that the comprehensive distance value between different schemes compares figure.

Fig. 2 is flow chart of the invention.

Specific embodiment

Below with reference to attached drawing, technical solution of the present invention is described in detail

As shown in Fig. 2, the use of the present invention provides a kind of intercommunication dangerous goods store isolating door based on hesitation distance set Decision-making technique includes the following steps:

Step A formulates isolating door and forklift using priciple.

In this step, when total storage capacity K >=12, and when forklift quantity e >=1, isolating door could be used；The forklift Using priciple is as follows: forklift is in warehouse clockwise by specified route；Two forklifts cannot appear in together simultaneously In one room.The using priciple of the forklift is as follows: forklift is in warehouse clockwise by specified route；Two Forklift cannot appear in same room simultaneously.

Step B designs more set dangerous material storage schemes according to the service condition of isolating door.

In this step, it is assumed that K=34, total position in storehouse number possessed by one t warehouses is m (t)=4t+4, wherein warehouse Door number t=2,4,6,8, therefore, the storage scheme such as following table institute under different warehouses combinations corresponding to total storage capacity K=34 Show:

Conceptual design under table 1K=34

Step C determines ATTRIBUTE INDEX and multiple attribute decision making (MADM) target.

In the step C, ATTRIBUTE INDEX includes time cost, space cost, economic cost and degree of safety.Optimal case is Refer to that overall cost is minimum, is further converted to solve the maximum scheme of synthesized attribute relative distance value.Each scheme is given to be used Forklift quantity be e₁=1, e₁=2, e₁=3, e₁=4, in addition there is a forklift to wait storage always outside warehouse.By reality Border investigates to obtain Shanghai 0# diesel oil rises 6.88 yuan/liter now, and diesel-fuel price and international oil price integrate with and changing at any time, according to Every kilometer of 0.68 yuan of meter.It is assumed that each room daily rate is 420 yuan, when each room is averaged 10 heap positions, then each heap position 42 yuan of daily rate, if average 12 heap positions, each heap position daily rate 35.The forklift speed of service and the truck speed of service Respectively v₁=5km/h, v₂=15km/h.

Step D carries out dangerous material storage scheme comprehensive than choosing, optimum scheme comparison；

In the step D, including the following steps:

(D1) warehouse is (0.2,0.3,0.4,0.1) to the selection indicators weight vectors of four schemes, gives each room Cost value is (400,410,420,430,440), and the value of oil price is (4.8,5.4,6,6.6,7.2), and obtained hesitation is determined Plan collection is

(D2), the Negative ideal point in solution hesitation decision set is

C '=(0.176, { 1600,1640,1680,1720,1760 }, 0.784,0.882,0.979,1.077, 1.743},0.6188)。

(D3), each decision scheme is calculated at a distance from Negative ideal point, and obtaining relative distance matrix is

(D4), by the comparative approach of hesitation distance set to (D₂,D₄), (D₂,D₃), (D₁,D₃) be compared, it obtainsTherefore the comprehensive distance of this four schemes is ordered as D₃> D₁> D₄> D₂.According to comparing result, it is determined as optimal case for synthesized attribute relative distance value is maximum.Therefore scheme three is Optimal case.Specific comparison result is as shown in Figure 1.

Claims (2)

1. a kind of dangerous goods store isolating door selection method based on hesitation distance set, which is characterized in that steps are as follows:

(A), isolating door and forklift using priciple are formulated；Wherein the using priciple of isolating door is as follows: when total storage capacity K >=12, and When forklift quantity e >=1, isolating door could be used；The using priciple of forklift is as follows: forklift is in warehouse clockwise by specified Route, two forklifts cannot appear in same room simultaneously；

(B), according to the service condition of total storage capacity and isolating door, more set dangerous material storage schemes are designed；

When there are following situations, i.e. total storage capacity K >=12, and when forklift quantity e >=1, design a variety of dangerous material storage schemes； Storage scheme is made of the different types of warehouse Duo Men, these warehouses Duo Men are main difference is that include different room numbers；

The design of the storage scheme is as follows: according to the standard of existing dangerous material storage repository, one t warehouses are had Total position in storehouse number be m (t)=4t+4, wherein the door number in warehouse takes even number；Total storage capacity is under different warehouse combinations corresponding to K Storage scheme be uniformly expressed from the next:

Wherein, a_h(t) quantity in t warehouses in scheme h is indicated, Δ (h) indicates that remaining position in storehouse number, Δ (h) should be less than in scheme h 12 bin levels；The value of k is related with K, and value is to meet the maximum even number of m (t)≤K condition；

(C), optimum scheme comparison decision index system；Decision index system includes time cost, space cost, economic cost and degree of safety；

The time cost c_thIncluding forklift runing time and external truck traveling time, calculating formula are as follows:

Wherein, e_hForklift quantity in expression scheme h, v₁For the forklift speed of service, v₂For the container truck speed of service, l (C, p_i) Indicate storage container truck from the C of position to storage point p_iActual range, l (C_i,C_j) indicate container truck by position C_i Place is moved to position C_jThe path length at place；

The space cost c_sphBy the quantity in warehouse room and the product representation of storage charges, calculating formula is as follows:

c_sph=bt_h

Wherein, t_hFor room number in warehouse used in scheme h, b indicates the storage charges in single warehouse；

The economic cost c_ehIt is related with forklift operating path total length and current oil price:

Wherein, f indicates same day vehicle fuel price；

The degree of safety c_sahRefer to that the similarity degree between forklift working line, circular are as follows:

Wherein, abs (l (C, p_i)-l(C,p_j)) indicate to take l (C, p_i)-l(C,p_j) absolute value；

Optimal case refers to overall cost minimum, is further converted to solve synthesized attribute relative distance value maximum scheme；

(D), dangerous material storage scheme is carried out comprehensive than choosing, optimum scheme comparison；

Including the following steps:

(D1), the value for assuming oil price is f=(f₁,f₂,…,f₅), the value of storage charges is b=(b₁,b₂,…,b₅), pass through reality Investigate the hesitation decision set for determining storage scheme collection in border:

Wherein, m indicates scheme total amount, c_tmRepresent the time cost of m-th of scheme, { c_spm1,…,c_spm5Represent m-th of scheme The value of space cost, { c_em1,…,c_em5Represent m-th of scheme economic cost value, c_samRepresent the peace of m-th of scheme Whole step；

(D2), the Negative ideal point in hesitation decision set is determined

If ideal point is C_max=(c '_t,(c′_spi1,c′_spi2,…,c′_spi5),(c′_em1,c′_em2,…,c′_em5), c '_sam), each component It is determined by following formula:

Wherein, k=1,2,3,4,5, q=1,2,3,4,5；

(D3), each decision scheme and Negative ideal point distance are calculated；Negative ideal point distance in "what if" i is D_i=[d_ti{d_spi1, d_spi2,…,d_spi5}{d_ei1,d_ei2,…,d_ei5}d_sai], each component is determined by following formula:

Wherein, k=1,2,3,4,5, q=1,2,3,4,5；

Same mode determines the relative distance matrix of m scheme:

(D4), it is ranked up according to relative distance collection of the comparative approach of hesitation distance set to four kinds of schemes, by synthesized attribute phase It adjusts the distance to be worth and maximum is determined as optimal case.

2. the dangerous goods store isolating door selection method according to claim 1 based on hesitation distance set, which is characterized in that Strategy parameter a_h(2), a_h(4), a_h(k), the determination method of Δ (h) is as follows:

Firstly, calculating most warehouse gate number T corresponding to total storage capacity K, method is: it calculates median B=int (0.25K-1), If B is even number, T=B, if B is odd number, T=B-1, wherein int (X) is indicated to the downward round numbers of X；

Then, the relevant parameter of numerical procedure one；Calculate warehouse quantity a corresponding to most warehouse gate number T₁(T)=int [K/m (T)] the required amount of storage S after deducting T warehouse storage capacities, is calculated₁(T)=K-a₁(T) * m (T), compares S₁(T) with T-2 The size of warehouse capacity m (T-2), if S₁(T) >=m (T-2), then the quantity a in T-2 warehouses needed for calculating₁(T-2)=int [S₁ (T)/m (T-2)], calculate the required amount of storage S after deducting T-2 warehouse amount of storage₁(T-2)=S₁(T)-a₁(T-2)*m(T- 2)；If S₁(T) < m (T-2), then successively compare S₁(T) with m (T-4), m (T-6) ..., m (2), and successively determine a₁(T-4)、a₁ (T-6)、…、a₁(2) and remaining amount of storage S₁(2)；At this point, the parameter of scheme one is (a₁(2)+1, a₁(4) ..., a₁(T), Δ (1)), wherein Δ (1)=12-S₁(2)；

Finally, successively determining scheme i=1,2,3,4 ... relevant parameter；If the quantity in most warehouses in scheme i-1 is greater than 2, then the quantity in most warehouses is reduced by one, and the quantity as door warehouses most in scheme i；If in scheme i-1 most The warehouse Duo Men quantity is 1, then using 2 warehouses fewer than the most numbers as the most warehouses of scheme i, and calculates the storehouse Library quantity；Using previous step the method, successively determine that more most than the program warehouses are 2 few, 4,6 ... warehouse numbers Amount and remaining amount of storage S₂(2), and determine scheme i relevant parameter；

Above-mentioned steps are repeated, until there was only 2 warehouse compositions in scheme.