Disclosure of Invention
The invention provides an intelligent order arranging method based on a leasing system, which adopts the following technical scheme:
an intelligent order arranging method based on a leasing system comprises the following steps:
the method comprises the steps that a leasing system receives leasing demand sheets of a plurality of reservation customers, wherein the leasing demand sheets comprise leasing time and leasing places of leasing instruments expected by the reservation customers;
screening the leasing demand sheets with the leasing time being preset time to form a first leasing demand sheet set;
counting instruments in the hands of the client, and screening out the instruments to be in an idle state in the preset time to form a first instrument set;
intelligently matching the first set of rental requisites and the first set of instruments to match instruments that are about to be in an idle state at the predetermined time to different ones of the first set of rental requisites;
and according to the matching result, the renting system sends first express information to the logistics company to inform the logistics company to arrange express personnel to use the customer to collect the instrument and send the instrument to the corresponding reservation customer.
Further, a specific method for intelligently matching the first rental requirement form set and the first instrument set by the rental system is as follows:
calculating the longitude and latitude of a leasing place corresponding to each leasing demand order in the first leasing demand order set;
calculating the longitude and latitude of the location of each instrument in the first instrument set;
and intelligently matching the first lease demand form set and the first instrument set according to the longitude and latitude of the lease place of each lease demand form and the longitude and latitude of the location of each instrument through an intelligent algorithm to obtain an optimal order arrangement result.
Further, the intelligent algorithm is a knapsack algorithm.
Further, the optimal ordering result is a shortest path matching result.
Further, the leasing system performs intelligent matching once a day to match the leasing demand sheet with the leasing time being the preset time.
Further, the leasing system performs intelligent matching every day to match the leasing demand sheets after the leasing time is 3 days.
Further, the instrument is a consumption instrument, and the lease requirement list further comprises the number of consumables;
and according to the matching result, the rental system also sends second express information to the logistics company to inform the logistics company to arrange express staff to the rental company to collect a specified number of consumables and send the consumables to corresponding reservation customers.
Further, the consumption instrument is a formaldehyde detector.
Further, the leasing system receives detection data which are uploaded by a customer and are generated by detection through a formaldehyde detector;
and the leasing company analyzes the detection data uploaded by the user customer acquired from the leasing system and sends the analysis result to the corresponding user customer through the leasing system.
Further, the leasing company judges whether the formaldehyde detector of the customer is in a normal state or not according to the detection data.
The intelligent ordering method based on the leasing system has the advantages that the intelligent ordering method based on the leasing system can regularly arrange orders for the leasing requirement order set in a certain preset time, the order arrangement result is optimized, the time consumed by instruments in the transportation process is reduced, and meanwhile, the logistics cost paid by a leasing company is also reduced.
Detailed Description
The invention is described in detail below with reference to the figures and the embodiments.
The invention discloses a leasing system, which can be used for leasing instruments by a reservation client. Specifically, the reservation client reserves the instrument and the rental time through the rental system, the rental company sends the instrument to the reservation client at the specified time after receiving the reservation information, and in order to provide the rental efficiency of the instrument, the rental company directly orders the instrument used in the other client to the reservation client when receiving the reservation order of the reservation client, and the logistics company sends the express personnel to fetch and send the instrument to the reservation client when the other client uses the instrument. Thus, time for the instrument to rent the company back and forth is eliminated. Fig. 1 shows an intelligent booking method based on a rental system, which is applied to the rental system, and specifically includes the following steps: and S1, the leasing system receives leasing requirement lists of a plurality of reservation customers, wherein the leasing requirement lists comprise leasing time and leasing places of leasing instruments expected by the reservation customers. S2, screening out the leasing demand sheets with the leasing time as the preset time to form a first leasing demand sheet set. And S3, counting the instruments in the hands of the client, and screening out the instruments which are about to be in an idle state at a preset time to form a first instrument set. At S4, intelligently matching the first set of rental requisites and the first set of instruments to match instruments that are about to be in an idle state at a predetermined time to different ones of the first set of rental requisites. And S5, according to the matching result, the rental system sends the first express information to the logistics company to inform the logistics company to arrange express personnel to use the customer to collect the instrument and send the instrument to the corresponding reservation customer. By the method, when the lease system arranges the order for the lease requirement order submitted by each reservation client, the order is arranged immediately instead of receiving one lease requirement order, and the order is uniformly arranged after a certain number of reservation orders are accumulated, so that the order arrangement result can be optimized. The above steps are specifically described below.
For step S1, the rental system receives rental requisition for a plurality of reservation customers, the rental requisition including rental time and rental location for which the reservation customer desires to rent instruments.
Firstly, when a customer needs to rent an instrument, the customer needs to register and log in an online leasing system of a leasing company, a leasing request, namely a leasing demand sheet, is issued in the leasing system, the leasing demand sheet comprises the time and the use place of the instrument that the customer wants to reserve, and the leasing company sends the instrument to the use place at the appointed time according to the leasing demand sheet. In step S1, the rental system receives rental demand sheets submitted by a plurality of reservation customers.
For step S2, the rental requirement lists with the rental time as the predetermined time are screened out to form a first rental requirement list set.
According to the intelligent order arranging method based on the leasing system, after a plurality of leasing demand orders are received, the order is not arranged for each leasing demand order, but the order is arranged for the leasing demand orders with the leasing time being preset time in the leasing demand orders, and when the order is arranged, the leasing system firstly counts the leasing demand orders meeting the conditions to form a first leasing demand order set.
For example, the rental system performs intelligent matching to match the rental demand after the rental time is n days. Here, n is generally 3 to 5 days, in the present invention, n is 3, specifically, each time the rental system lists the next day, for example, today, 2019, month 5, month 18, the rental system lists the rental requirement list with the rental time of 2019, month 5, month 21, and so on. Preferably, the rental system intelligently arranges the bills at 23 to 24 points per day.
It will be appreciated that the time interval and the time of the intelligent daily ordering may be adjusted to suit the circumstances.
For step S3, instruments in the customer' S hands are statistically used, and the instruments that will be in an idle state for a predetermined time are selected to form a first instrument set.
After the first rental requirement list set required to be listed is obtained in step S2, instruments that are in an idle state at a predetermined time are screened out in step S3 to form a first instrument set, and these instruments are currently in use by different users, but are in an idle state at a predetermined time and wait to be mobilized.
For step S4, the intelligence matches the first set of rental requisites and the first set of instruments to match instruments that are about to be in an idle state at a predetermined time to different ones of the first set of rental requisites.
And according to the first screened rental requirement list set and the first screened instrument set, performing unified ordering on the rental requirement lists.
The specific method for intelligently matching the first rental demand sheet set and the first instrument set by the rental system comprises the following steps: and calculating the longitude and latitude of a leasing place corresponding to each leasing demand order in the first leasing demand order set. And calculating the longitude and latitude of the position of each instrument in the first instrument set. And intelligently matching the first lease demand form set and the first instrument set according to the longitude and latitude of the lease place of each lease demand form and the longitude and latitude of the location of each instrument through an intelligent algorithm to obtain an optimal order arrangement result.
In the invention, the intelligent algorithm can be a knapsack algorithm, the optimal list arrangement result obtained according to the knapsack algorithm is a shortest path matching result, and the total path of all instrument transportation can be shortest by automatically arranging the list through the knapsack algorithm, so that the time of the instrument in the transportation path is reduced, and the logistics cost can be reduced.
For step S5, according to the matching result, the rental system sends the first express information to the logistics company to inform the logistics company to arrange express staffs to use the customer to collect the instrument and send the instrument to the corresponding reservation customer.
After matching is completed through an intelligent algorithm, the leasing system sends first express information to the logistics company, the first express information comprises a plurality of express orders, and the courier receives used instruments from the clients at the time appointed by the orders according to each express order and then sends the instruments to the corresponding reservation clients.
As a preferred embodiment, the rental system performs intelligent matching once a day to match rental demand sheets for a predetermined time of rental.
Specifically, the period of the rental system billing can be determined according to actual conditions, and in the invention, the period is one day.
In a preferred embodiment, the instrument is a consumable instrument, and the rental requirement list further includes the number of consumables. And according to the matching result, the rental system also sends second express information to the logistics company to inform the logistics company to arrange express staff to the rental company to collect a specified number of consumables and send the consumables to corresponding reservation customers.
It can be understood that the rented instrument can be used in various options, such as a mobile phone, a computer and the like which can be directly used, and can also be an instrument which needs to consume consumables, such as a printer and the like. When the customer makes a reservation for the consumable instruments, the customer needs to independently dispatch the consumable materials and the instruments according to the quantity of the consumable materials required to be reserved for use by the customer, and the consumable materials are directly dispatched from the leasing company to the reservation customer.
In a preferred embodiment, the consumable instrument is a formaldehyde detector. And the leasing system receives detection data which is uploaded by a customer and is generated by detection through a formaldehyde detector.
It can be understood that the consumption instrument is a formaldehyde detector, the customer uses the formaldehyde detector to detect and then uploads the detection data to the system, and the professional of the leasing company analyzes the detection data and sends the analysis result to the corresponding user through the leasing system.
In a preferred embodiment, the leasing company judges whether the formaldehyde detector of the customer is in a normal state according to the detection data.
It can be understood that, because the formaldehyde detector passes between different users, in order to avoid formaldehyde detector production problem and can't confirm the person of responsibility, before express delivery personnel collected the formaldehyde detector, rental company checked whether the formaldehyde detector is in normal condition. In the invention, the leasing company judges whether the formaldehyde detector of the customer is in a normal state or not according to the detection data. When the formaldehyde detector is in an abnormal state, the detected data of the formaldehyde detector is greatly different from the normal state, and technicians of the leasing company judge the state of the formaldehyde detector by analyzing the detected data sent by the user.
The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.