CN114066256A - Solution for supporting operation system operation strategy under supply and demand scheduling - Google Patents

Abstract

The patent relates to a solution for supporting an operation strategy of an operation system under supply and demand scheduling. The invention discloses a solution for supporting an operation strategy of an operation system under supply and demand scheduling. The scheme is dedicated to the scheduling strategy under the extreme conditions that more orders are sent and fewer orders are sent. And when more orders are sent and less orders are sent, the regional orders are sorted according to the order price value from high to low according to the order price value evaluation. The ordered sequence number represents the scheduling priority. The number of dispatch orders is determined by the number of available surrounding flashed drivers. And when the orders are few and the number of the flash deliverers is large, evaluating according to the distribution density of the flash deliverers, and performing diffusion scheduling on the available flash deliverers according to the range of 1 km. Thereby improving overall scheduling efficiency.

Description

Solution for supporting operation system operation strategy under supply and demand scheduling

Technical Field

The patent relates to a solution for supporting an operation system operation strategy under supply and demand scheduling, and belongs to the field of internet operation strategies.

Background

The operation strategy of the lower support operation system in the supply and demand dispatch refers to some special strategies which need to be carried out when the supply and demand relationship between orders and flash deliverers is unbalanced, so as to relieve various negative effects caused by the imbalance of the supply and demand. The stability, the high efficiency and the like of the whole system are improved.

The purpose of the operation strategy implementation process of the lower support operation system in supply and demand scheduling needs to be clarified, and the relation and conflict between each main body and each main body in the system are modeled through the decomposition of the target. And then a model which aims at the optimal relationship among all the main bodies is found through the calculation of data, namely, the operation strategy of the lower support operation system is scheduled for supply and demand.

Disclosure of Invention

The invention mainly aims to provide a solution for supporting an operation strategy of an operation system under supply and demand scheduling.

The invention adopts the following operation scheme: the extreme cases are divided into the cases that orders are more in flash delivery and orders are less in flash delivery. When more orders are sent and fewer orders are sent, the order scheduling time is processed according to the order price value, and the optimal overall scheduling efficiency is guaranteed. When the number of orders is small and the number of flash senders is large, different scheduling strategies are carried out through different flash sender density distributions, and the optimal overall scheduling efficiency is guaranteed.

Drawings

FIG. 1: solution scheme for supporting operation system operation strategy under supply and demand scheduling

FIG. 2: order price value diagram

FIG. 3: map of flash member distribution density

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention. All other embodiments obtained by a person skilled in the art without making any inventive step are within the scope of protection of the present invention.

The invention provides a solution for supporting an operation strategy of an operation system under supply and demand scheduling.

The solution for supporting the operation strategy of the operation system under supply and demand dispatch as shown in fig. 1 mainly consists of two extreme situations. A policy with more orders and fewer orders.

One is a more-order-to-flash-send-less strategy. The strategy takes the order value as a core to carry out scheduling. The order price values are shown in FIG. 2 and include an order maker hierarchy, a delivery distance, an item weight, an item type, an item size, an order price premium, an order discount, etc. When regional scheduling is carried out, orders are evaluated according to order price values, high order price values indicate high-quality orders, and low order price values indicate low-quality orders. And sequencing the order list of the region from high quality to low quality, and scheduling the high quality orders in a scheduling process. And then improve the holistic dispatch efficiency of platform.

Second, the order is few and the number of the deliverers is large. The strategy takes the distribution density of the flash senders as the core for scheduling. The distribution density of the number of the flash players is shown in fig. 3, and includes the number of the flash players distributed within a predetermined range and the order taking willingness in the search area. When regional scheduling is carried out, different scheduling strategies are carried out according to the distribution density of the flash deliverers around the order. When the distribution density of the flash deliverers is large, the flash deliverers push from a small range to a large range. And then improve the holistic dispatch efficiency of platform.

The embodiments of the present invention have been described above, but the embodiments of the present invention are not limited to the above-described embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be regarded as equivalent replacements within the scope of the present invention.

Claims (3)

1. A solution for supporting an operation strategy of an operation system under supply and demand dispatch, comprising:

scheduling policy with more orders and fewer orders. Since there are many orders and few people, orders need to be scheduled with different priorities to ensure that orders can be picked up and completed more quickly. The platform order completion rate is improved by improving the use efficiency of a flash operator. While improving the satisfaction of the value order user and the revenue of the courier.

Scheduling policy for orders with few mountains and many people flashing. Since the order is few and the number of the order is large, the scheduling policy needs to be determined according to the distribution of the order around the order. The satisfaction degree of the user is improved, the integral sense organ satisfaction degree of the flash transmitter is improved, and the anxiety and the like caused by the fact that the flash transmitter carries on or not carries the flash transmitter are reduced.

2. The under-support-and-demand dispatch operating architecture operating strategy of claim 1 has two forms. A scheduling policy with more orders and fewer orders.

The orders are more and fewer in flash delivery, and are sorted mainly by evaluating the value scores of the orders so as to determine the scheduling sequence. And if the order price value is high, scheduling is prioritized.

The number of orders of the flash deliverers is small, the flash deliverers are mainly evaluated through the distribution density of the flash deliverers, and the flash deliverers to be dispatched are determined through the control of a dispatching range.

3. The core element of claim 2 that influences the operation policy of the under-support-and-demand-dispatch system has a subscription price value and a distribution density of the flash senders. The method comprises the following specific steps:

the order price value mainly refers to the order price value calculated by comprehensively scoring through the layering of the placing person of the order, the delivery distance, the weight of the article, the type of the article, the size of the article, the price of the order overflow, the discount of the order and the like. The higher the order price value, the more optimal the order, and the lower the order price value, the worse the order.

The distribution density of the flash deliverers mainly refers to the product of the distribution number of the flash deliverers around the order and the order taking willingness of the flash deliverers. The number of people flashing around the order, as the name implies, refers to the number of people flashing within a specified range from the order. The area order taking willingness refers to the ratio of order pushing and feedback receiving of the area.

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