CN106709688A - Vehicle pooling method of freight vehicle-pooling platform - Google Patents
Vehicle pooling method of freight vehicle-pooling platform Download PDFInfo
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- CN106709688A CN106709688A CN201710001629.1A CN201710001629A CN106709688A CN 106709688 A CN106709688 A CN 106709688A CN 201710001629 A CN201710001629 A CN 201710001629A CN 106709688 A CN106709688 A CN 106709688A
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Abstract
The invention discloses a vehicle pooling method of a freight vehicle-pooling platform. The method comprises the following steps: 1) carrying out freight owner vehicle-pooling information issuing and checking; 2) extracting freight owner vehicle-pooling information on the platform and carrying out classification on the freight owner vehicle-pooling information; 3) dividing each piece of vehicle-pooling information into fixed information and floating information; 4) extracting vehicle owner information from a platform database and carrying out classification on the information; 5) dividing each piece of vehicle owner information into fixed information and floating information; 6) intelligently matching an appropriate vehicle-pooling freight owner according to the fixed information and the floating information in the vehicle-pooling information and determining an optimal vehicle-pooling scheme; 7) intelligently pushing to the vehicle-pooling scheme determined in the step 6) to a vehicle owner meeting screening conditions; 8) calculating vehicle-pooling cost of each freight owner; and 9) if vehicle-pooling is successful, starting vehicle pooling. The method not only can ensure efficient vehicle pooling and save transport cost of each freight owner, but also can improve loading rate of each driver.
Description
Technical field
The invention belongs to big data information analysis techniques field, more particularly to a kind of shipping share-car side of share-car platform
Method.
Background technology
With the development of information network technique, shipping collection gradually replaces traditional with e-commerce platform by service high-quality
Transport power transaction form, solves the problems, such as no-load ratio high to a certain extent, but existing platform is directed to carload freight, fortune mostly
Defeated efficiency also has great progress space, and for part-load traffic, although existing platform ensure that to find and be adapted to matching vehicle, but
Freight shipments efficiency can not be improved, the cost of the owner of cargo can not be reduced.Therefore, logistics shipping platform needs a kind of intelligent goods
Fortune share-car method, improves conevying efficiency, reduces owner of cargo's cost of transportation.
The content of the invention
Goal of the invention:For problems of the prior art, the present invention provides one kind and can either ensure high efficiency share-car
And the freight of the owner of cargo is saved, the shipping share-car method of share-car platform of the charging ratio of driver can be improved again.
Technical scheme:In order to solve the above technical problems, the present invention provides a kind of share-car method of shipping share-car platform, bag
Include following steps:
Step one:The issue verification of owner of cargo's share-car information, share-car information includes:Description of Goods, cargo type, goods number
Amount, weight, volume, vehicle requirement, vehicle commander requires that start shipment ground, destination when loading and is received the time;
Step 2:Owner of cargo's share-car information on platform is extracted, and owner of cargo's share-car information is classified;
Step 3:Every share-car information is divided into fix information and floating information;
Step 4:Owner information in platform database is extracted, and information is classified;
Step 5:Every owner information is divided into fix information and floating information;
Step 6:The suitable share-car owner of cargo of fix information and floating information intelligent Matching in share-car information, it is determined that
Optimal share-car scheme;
Step 7:The share-car scheme intelligently pushing that will be determined in step 6 is to meeting screening conditions car owner;
Step 8:Calculate each owner of cargo's share-car expense;
Step 9:Share-car success, starts share-car.
Further, platform owner of cargo's share-car information and concretely comprising the following steps of being classified are extracted in the step 2:It is divided into
Three category informations, type I information is goods information, including Description of Goods, type of merchandize, quantity of goods and weight, the second category information
Be vehicle requirement and vehicle commander require, the 3rd category information be movement requirement, including loading time, requirement reach the time, start shipment and
Destination.
Further, include that vehicle demand, load-carrying demand, vehicle commander's demand, delivery availability are needed by every in the step 3
Ask, time demand of receiving, start shipment ground demand and this kind of share-car information of destination demand information, be divided into fix information and float and believe
Breath, wherein fix information includes:Type of merchandize, goods weight, the requirement to vehicle, start shipment ground, destination;Floating information bag
Include:Laytime.
Further, to concretely comprising the following steps that the owner information in platform database is classified in the step 4:Point
It is three classes, the first kind is that vehicle essential information includes type of vehicle, compartment length, width and height, payload ratings, the purchase car date, pulls wheel
Axle, Motor Number and vehicle photo;Equations of The Second Kind is car owner's individual's essential information, including contact method, identity information and driver's license
Information;3rd category information includes the information that car owner can be set in platform, including route or travel by vehicle and remaining load-carrying.
Further, owner information is divided into fix information and floating information in the step 5, and wherein fix information includes:
Vehicle essential information, car owner's personal information;Floating information includes:The information such as route or travel by vehicle, vehicle residue load-carrying.
Further, the specific method of intelligent Matching is as follows in the step 6:
Step 6.1:The non-share-car success owner of cargo is constituted into collection to be matched;
Step 6.2:First owner of cargo is chosen from collection to be matched be made whether that being adapted to share-car judges;If truckload is t
Whether ton, judge first owner of cargo's goods weight more than t tons, if it exceeds being then not suitable for share-car collection, enters if no more than if
Step 6.3;
Step 6.3:To first owner of cargo and second type of merchandize of the owner of cargo, vehicle requirement, start shipment and destination be
It is no consistent, and whether loading is on the same day with unloading time and whether goods t and goods B gross weights are more than t tons, if it exceeds then
Collect and reenter step 6.2 into be matched, be judged as being adapted to share-car if being no more than, and enter step 6.4;
Step 6.4:Add share-car successfully to collect, then successfully collect for share-car in information carry out the life of N kind share-car schemes
Into.
Further, the computational methods of each owner of cargo's share-car expense are as follows in the step 8:Platform according to historical data and
Habit of transaction determines that the freight charges of car owner are F, WiIt is the goods weight of goods i, then the computing formula of each owner of cargo's share-car expense is:
Compared with prior art, the present invention causes logistics cost to occupy high-leveled and difficult lower problem for current shipping no-load ratio high,
Take into full account under the multinomial key factor of influence success share-car, the share-car model of science is set up, for shipping share-car provides section
Learn efficient method.The present invention is according to there is starting shipment ground, destination, cargo type, weight, needing to reach mesh for the share-car wish owner of cargo
The relevant information such as time on ground, in the case where system optimal constraints is met, match optimal share-car collection, ensureing every goods
On the premise of main interests, optimization distribution is realized, find the fee calculation procedure for making owner of cargo's cost of each share-car minimum.This hair
It is bright to ensure high efficiency share-car and save the freight of the owner of cargo, the charging ratio of driver can be improved again.
Brief description of the drawings
Fig. 1 is flow chart of the method for the present invention;
Fig. 2 is that intelligent Matching share-car scheme realizes flow chart in Fig. 1.
Specific embodiment
With reference to the accompanying drawings and detailed description, the present invention is furture elucidated.
As shown in Fig. 1 to 2, the present invention comprises the following steps
Step one:The issue verification of owner of cargo's share-car information;
The share-car information of owner of cargo's Online release must typically include:Description of Goods, cargo type, quantity of goods, weight, body
Product, vehicle requirement, vehicle commander's requirement, with starting shipment, and destination, when loading, time of receiving etc..
Step 2:Platform owner of cargo's share-car information extraction, and information is classified;
Extract platform owner of cargo's share-car information simultaneously to be classified, type I information is goods information, including Description of Goods, goods
Species, quantity of goods, weight, the second category information are that vehicle is required, the information such as vehicle commander's requirement, and the 3rd category information is movement requirement,
The time is reached including loading time, requirement, start shipment the information such as ground, destination.
The embodiment owner of cargo's share-car information table of table 1
Step 3:Fix information and floating information are determined based on share-car information;
One share-car information include the vehicle demand for determining, load-carrying demand, vehicle commander's demand, delivery availability demand, when receiving
Between demand, start shipment ground demand and destination demand series information, but some information are fixed, and some information are that have floating space
, fix information includes:Type of merchandize, goods weight, the requirement to vehicle, start shipment ground, destination;Floating information includes:Dress
Unloading time.
Step 4:Platform database owner information is extracted, and information is classified;
Platform database is extracted on owner information, three classes are divided into, the first kind is that vehicle essential information includes vehicle
Type, compartment length, width and height, payload ratings, purchase the car date, pull the vehicle essential informations such as wheel shaft, Motor Number, vehicle photo;The
Two classes are car owner's individual's essential informations, including contact method, identity information, driver's license information etc.;3rd category information includes car owner
The information that can be set in platform, the information such as including route or travel by vehicle, remaining load-carrying.
The embodiment owner information table of table 2
Car owner | Vehicle | Remaining load-carrying | Real time position | Plan destination |
Car owner 1 | Flat car | 32 | Bangbu | Shanghai |
Car owner 2 | Height wooden handcart | 32 | Suzhou | Shanghai |
Step 5:Fix information and floating information are determined based on owner information;
The fix information of car owner includes:Vehicle essential information, car owner's personal information;Floating information includes:Vehicle travels road
The information such as line, vehicle residue load-carrying.
Step 6:Intelligent Matching, determines optimal share-car scheme;
According to the fix information and floating information of share-car, intelligent Matching is adapted to the owner of cargo of share-car, the realization of intelligent Matching
Journey is as follows:Each owner of cargo is counted for xi, it is assumed that a load-carrying for lorry is 32 tons.
6.1:First determine whether whether the goods of the owner of cargo 1 exceedes more than 32 tons, 10<32 go to next step, then will more than 32 tons
The owner of cargo 1 is deposited to being not suitable for share-car collection;
6.2:Whether the contrast owner of cargo 1 is consistent to vehicle requirement with the goods of the owner of cargo 2, and the owner of cargo 1 requires flat car, and the owner of cargo 2 requires
Height wooden handcart, it is desirable to inconsistent, so the owner of cargo 1 and the discomfort of the owner of cargo 2 are merged, the owner of cargo 2 is deposited to set to be matched;
6.3:Whether the contrast owner of cargo 1 is consistent to vehicle requirement with the owner of cargo 3, and the owner of cargo 1 requires flat car, and the owner of cargo 3 requires flat board
Car, it is desirable to consistent, into next step;
6.4:The contrast owner of cargo 1 and the type of merchandize of the owner of cargo 3, if consistent, the goods of the owner of cargo 1 and the owner of cargo 3 is all steel, goods
Type is consistent, into next step;
6.5:Judge the owner of cargo 1 and the goods weight of the owner of cargo 3 whether more than 32 tons, 10+10<32, into next step;
6.6:Judge that the owner of cargo 1 starts shipment whether ground destination is consistent with the owner of cargo 3, the owner of cargo's 1 is respectively with starting shipment with destination:
Bangbu Shanghai, the owner of cargo 2 start shipment and destination be also Bangbu Shanghai, it is consistent to start shipment ground destination, into next step;
6.7:The loading time for judging the owner of cargo 1 and the owner of cargo 3 and time of receiving whether on the same day, through judging it is in same
Time, then the owner of cargo 1 and the owner of cargo 3 are adapted to share-car;
The owner of cargo 1 and the owner of cargo 3 constitute the share-car collection that succeeded, and the composition of the owner of cargo 2 is not suitable for share-car collection, the owner of cargo 4, the owner of cargo 5, the owner of cargo 6,
The owner of cargo 7, the owner of cargo 8, constitute collection to be matched.Continue to judge that collection to be matched is appropriate for the share-car of the owner of cargo 1.Continue subsequent cycle to sentence
It is disconnected.
A whether () first determines whether the goods weight of the owner of cargo 4 more than 32 tons, 10<50, into next step;
B () judges whether the type of merchandize of the owner of cargo 1 and the owner of cargo 4 is identical, whether vehicle requirement is consistent, and starting shipment ground destination is
No identical, whether the lay day is on the same day, and the goods weight summation of the owner of cargo 1, the owner of cargo 3 and the owner of cargo 4 is 10+5+10=
25,25<32, so being adapted to share-car.
The owner of cargo 1, the owner of cargo 3 and the owner of cargo 4 composition are adapted to share-car collection, and the composition of the owner of cargo 2 is not suitable for share-car collection, the owner of cargo 5, the owner of cargo 6, goods
Main 7, the owner of cargo 8, constitutes collection to be matched.Continue to judge that collection to be matched is appropriate for the share-car of the owner of cargo 1.Continue subsequent cycle to judge.
A whether () first determines whether the goods weight of the owner of cargo 5 more than 32 tons, 10<32, into next step;
B () judges whether the type of merchandize of the owner of cargo 1 and the owner of cargo 5 is identical, whether vehicle requirement is consistent, and starting shipment ground destination is
No identical, the lay day, whether on the same day, by judging, the vehicle requirement of the owner of cargo 5 and the owner of cargo 1 was inconsistent, so uncomfortable
It is merged car.
The owner of cargo 1, the owner of cargo 3 and the owner of cargo 4 composition are adapted to share-car collection, and the owner of cargo 2, the composition of the owner of cargo 5 are not suitable for share-car collection, the owner of cargo 6, goods
Main 7, the owner of cargo 8, constitutes collection to be matched.Continue to judge that collection to be matched is appropriate for the share-car of the owner of cargo 1.Continue subsequent cycle to judge.
Judge whether the type of merchandize of the owner of cargo 1 and the owner of cargo 6 is identical, whether vehicle requirement is consistent, whether start shipment ground destination
Identical, the lay day, whether on the same day, by judging, the vehicle requirement of the owner of cargo 6 and the owner of cargo 1 was inconsistent, so being not suitable for
Share-car.
The owner of cargo 1, the owner of cargo 3 and the owner of cargo 4 composition are adapted to share-car collection, and the owner of cargo 2, the owner of cargo 5, the composition of the owner of cargo 6 are not suitable for share-car collection, goods
Main 7, the owner of cargo 8, constitutes collection to be matched.Continue to judge that collection to be matched is appropriate for the share-car of the owner of cargo 1.Continue subsequent cycle to judge.
Judge whether the type of merchandize of the owner of cargo 1 and the owner of cargo 7 is identical, whether vehicle requirement is consistent, whether start shipment ground destination
Identical, whether the lay day is all consistent with the requirements above of the owner of cargo 1 by judging the owner of cargo 7 on the same day, and the owner of cargo 1, owner of cargo
3rd, the goods gross weight of the owner of cargo 4 and the owner of cargo 7 is 32 tons, so being adapted to share-car.
To sum up, the owner of cargo 1, the owner of cargo 3, the owner of cargo 4 and the share-car set of the owner of cargo 7 has been expired, and constitutes a success share-car information.The owner of cargo 2,
The owner of cargo 5 and the owner of cargo 8 constitute and treat share-car collection, then start to judge the owner of cargo 2, the owner of cargo 5 and the owner of cargo 8 if appropriate for share-car.Continue next
Cycle criterion.
A () first determines whether whether the goods of the owner of cargo 2 exceedes more than 32 tons, 10<32 go to step (b);
B () contrast whether the owner of cargo 2 is consistent to vehicle requirement with the goods of the owner of cargo 5, and whether cargo type is consistent, starts shipment ground purpose
Whether ground is consistent, and the laytime, whether on the same day, by judging, requirements above was all consistent, and goods 2 and goods 5
Gross weight is 10+10=20 tons, less than 32 tons, is adapted to share-car.
The owner of cargo 2 and the composition of the owner of cargo 5 are adapted to share-car collection, and the owner of cargo 6, the owner of cargo 8 constitute collection to be matched.Continue to judge collection to be matched
It is appropriate for the share-car of the owner of cargo 2.Continue subsequent cycle to judge.
Whether the contrast owner of cargo 2 is consistent to vehicle requirement with the goods of the owner of cargo 6, and whether cargo type is consistent, starts shipment ground destination
Whether consistent, the laytime, whether on the same day, by judging, requirements above was all consistent, and goods 2, goods 5 and goods
6 gross weight is 28 tons, less than 32 tons, is adapted to share-car.
The owner of cargo 2, the owner of cargo 5 and the owner of cargo 6 composition are adapted to share-car collection, and the owner of cargo 8, constitute collection to be matched.Continue to judge collection to be matched
It is appropriate for the share-car of the owner of cargo 2.Continue subsequent cycle to judge.
Whether the contrast owner of cargo 2 is consistent to vehicle requirement with the goods of the owner of cargo 8, and whether cargo type is consistent, starts shipment ground destination
Whether consistent, the laytime, whether on the same day, by judging, requirements above was all consistent, and goods 2, goods 5, goods 6
It is 32 tons with the gross weight of goods 8, is adapted to share-car.
To sum up, the owner of cargo 1, the owner of cargo 3, the owner of cargo 4 and the share-car set of the owner of cargo 7 has been expired, and constitutes a success share-car information.To sum up,
The owner of cargo 2, the owner of cargo 5, the owner of cargo 6 and the share-car set of the owner of cargo 8 have been expired, and constitute a success share-car information.
The embodiment share-car scheme of table 3
(7) share-car scheme collection intelligently pushing is to meeting screening conditions car owner;
The share-car scheme of table 3 is matched with car owner, share-car scheme information eligible car owner is pushed into, while platform
Freight quotation will be started share-car success according to historical data to car owner, after car owner's order.The reality that share-car scheme is matched with car owner
Existing mode is as follows:According to the content of table 3, according to vehicle requirement, type of merchandize, goods weight, ground, destination are started shipment to the car owner of table 2
Information is contrasted, eligible then Auto-matching.Platform is 5000 yuan for the freight quotation that first share-car scheme is reported,
The freight quotation of Article 2 share-car scheme is 4000 yuan.
By screening, the owner of cargo 1 matches with first share-car scheme, and the owner of cargo 2 matches with Article 2 share-car scheme.
(8) each owner of cargo's share-car expense is calculated;Platform determines that the freight charges of car owner are F, W according to historical data and habit of transactioni
It is the goods weight of goods i, then the computing formula of each owner of cargo's share-car expense is:
First each owner of cargo of share-car scheme deals with freight charges and is:X1=(10*5000)/32=1562.5, X3=(5*5000)/
32=781.25, X4=(10*5000)/32=1562.5, X7=(7*5000)/32=1093.75;
Second each owner of cargo of share-car scheme deals with freight charges and is:X2=(10*5000)/32=1562.5, X5=(10*
5000)/32=1562.5, X6=(8*5000)/32=1250, X8=(4*5000)/32=625;
(9) share-car is started
Embodiments of the invention is the foregoing is only, is not intended to limit the invention.It is all in principle of the invention
Within, the equivalent made should be included within the scope of the present invention.The content category that the present invention is not elaborated
In prior art known to this professional domain technical staff.
Claims (7)
1. a kind of shipping share-car method of share-car platform, it is characterised in that comprise the following steps:
Step one:The issue verification of owner of cargo's share-car information, share-car information includes:Description of Goods, cargo type, quantity of goods, weight
Amount, volume, vehicle requirement, vehicle commander requires that start shipment ground, destination when loading and is received the time;
Step 2:Owner of cargo's share-car information on platform is extracted, and owner of cargo's share-car information is classified;
Step 3:Every share-car information is divided into fix information and floating information;
Step 4:Owner information in platform database is extracted, and information is classified;
Step 5:Every owner information is divided into fix information and floating information;
Step 6:The suitable share-car owner of cargo of fix information and floating information intelligent Matching in share-car information, determines optimal
Share-car scheme;
Step 7:The share-car scheme intelligently pushing that will be determined in step 6 is to meeting screening conditions car owner;
Step 8:Calculate each owner of cargo's share-car expense;
Step 9:Share-car success, starts share-car.
2. a kind of shipping according to claim 1 share-car method of share-car platform, it is characterised in that in the step 2
Extract platform owner of cargo's share-car information and concretely comprising the following steps of being classified:Be divided three classes information, and type I information is goods information,
Including Description of Goods, type of merchandize, quantity of goods and weight, the second category information is that vehicle requirement and vehicle commander require, the 3rd class letter
It is movement requirement to cease, including loading time, requirement reach the time, start shipment and destination.
3. a kind of shipping according to claim 1 share-car method of share-car platform, it is characterised in that in the step 3
Include vehicle demand, load-carrying demand by every, vehicle commander's demand, delivery availability demand, time demand of receiving, start shipment ground demand and mesh
This kind of share-car information of ground demand information, be divided into fix information and floating information, wherein fix information includes:Type of merchandize, goods
Thing weight, the requirement to vehicle, start shipment ground, destination;Floating information includes:Laytime.
4. a kind of shipping according to claim 1 share-car method of share-car platform, it is characterised in that in the step 4
To concretely comprising the following steps that the owner information in platform database is classified:It is divided three classes, the first kind is vehicle essential information bag
Include type of vehicle, compartment length, width and height, payload ratings, purchase the car date, pull wheel shaft, Motor Number and vehicle photo;Equations of The Second Kind is
Car owner's individual's essential information, including contact method, identity information and driver's license information;3rd category information includes that car owner can be flat
The information that platform is set, including route or travel by vehicle and remaining load-carrying.
5. a kind of shipping according to claim 1 share-car method of share-car platform, it is characterised in that in the step 5
Owner information is divided into fix information and floating information, and wherein fix information includes:Vehicle essential information, car owner's personal information;It is floating
Dynamic information includes:The information such as route or travel by vehicle, vehicle residue load-carrying.
6. a kind of shipping according to claim 1 share-car method of share-car platform, it is characterised in that in the step 6
The specific method of intelligent Matching is as follows:
Step 6.1:The non-share-car success owner of cargo is constituted into collection to be matched;
Step 6.2:First owner of cargo is chosen from collection to be matched be made whether that being adapted to share-car judges;If truckload is t tons, sentence
Whether first owner of cargo's goods weight break more than t tons, if it exceeds being then not suitable for share-car collection, step is entered if being no more than
6.3;
Step 6.3:Type of merchandize, vehicle requirement to first owner of cargo and second owner of cargo, start shipment and destination whether one
Cause, and whether loading is on the same day with unloading time and whether goods t and goods B gross weights are more than t tons, if it exceeds then entering
Collection to be matched simultaneously reenters step 6.2, is judged as being adapted to share-car if being no more than, and enter step 6.4;
Step 6.4:Add share-car successfully to collect, then successfully collect for share-car in information carry out the generation of N kind share-car schemes.
7. a kind of shipping according to claim 1 share-car method of share-car platform, it is characterised in that in the step 8
The computational methods of each owner of cargo's share-car expense are as follows:Platform determines that the freight charges of car owner are F, W according to historical data and habit of transactioniFor
The goods weight of goods i, then the computing formula of each owner of cargo's share-car expense be:
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2504460A (en) * | 2012-06-12 | 2014-02-05 | Michael Colin Edwards | Colour mixing luminaire |
US20140279858A1 (en) * | 2013-03-15 | 2014-09-18 | Cory J. Stephanson | Biometric database collaborator |
CN105761032A (en) * | 2015-12-25 | 2016-07-13 | 芜湖众创物流投资中心(有限合伙) | Large-scale vehicle-goods real-time intelligent matching system |
CN106022693A (en) * | 2016-05-27 | 2016-10-12 | 成都嗒嗒创客信息科技有限公司 | Goods source and vehicle source dynamic intelligent matching realization method |
-
2017
- 2017-01-03 CN CN201710001629.1A patent/CN106709688A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2504460A (en) * | 2012-06-12 | 2014-02-05 | Michael Colin Edwards | Colour mixing luminaire |
US20140279858A1 (en) * | 2013-03-15 | 2014-09-18 | Cory J. Stephanson | Biometric database collaborator |
CN105761032A (en) * | 2015-12-25 | 2016-07-13 | 芜湖众创物流投资中心(有限合伙) | Large-scale vehicle-goods real-time intelligent matching system |
CN106022693A (en) * | 2016-05-27 | 2016-10-12 | 成都嗒嗒创客信息科技有限公司 | Goods source and vehicle source dynamic intelligent matching realization method |
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