KR20010111223A - Stock/supply/demand scheduling system and driving method the same - Google Patents

Abstract

The present invention relates to an inventory / supply scheduling system for providing stock information and information related to inventory prediction in response to a condition required by a user, and a driving method thereof.

The present invention provides a user terminal for providing logistics information transmitted by a ship, a truck, and a vehicle; A logistics information database in which logistics information provided from the user terminal is stored; A communication network for transmitting logistics information stored in the logistics information database; A monitoring server for comparing and extracting from the logistics information transmitted through the communication network to analyze information regarding coordinate decoding, location tracking and arrival of a place where the logistics are transmitted; A monitoring database that stores information on coordinate reading, location tracking, and receipt analyzed by the monitoring server and permits the user to view information through the user terminal; The place where the logistics are transmitted by comparing and analyzing the information about coordinate reading, location tracking and arrival and the predetermined basic information, which are connected to the monitoring server through the public communication network and analyzed and transmitted by the monitoring server. An information server for predicting coordinate prediction and arrival of logistics; A base information database in which the basic information is stored and a user is allowed to view the base information through the user terminal; A scheduling database for storing the coordinates and the arrival of the logistics predicted by the information server and allowing the user to view the information about the coordinates and the arrival of the logistics predicted to the user through the user terminal; In order to make a purchase decision, arrival decision, transportation decision, and future arrival prediction of logistics using information about the coordinates and arrival time of the logistics that are predicted and transmitted from the information server and connected to the information server and the public communication network. A user server; And a user database for storing the information determined by the user server and allowing reading of the information determined by the user through the user terminal.

The present invention can predict the future inventory situation by identifying and changing the pre-supply system of raw materials, materials and products in real time. In addition, the current inventory can be identified and the next inventory arrival point can be predicted to make a stock method or related decision. Furthermore, it is possible to predict the future stock situation and arrival point appropriately to enable the most efficient and economical purchasing business.

Description

Stock / Supply / Demand Scheduling System And Driving Method the Same}

The present invention relates to an inventory / supply scheduling system and a driving method thereof, and more particularly, to an inventory / supply scheduling system and a method of driving the inventory / supply scheduling system that provide information related to the stock information and inventory prediction in response to a user's request.

In general, in the large logistics equipment industry or distribution industry, the supply of raw materials, materials, and products is carried out based on the subjective judgment of the practitioner, through a warehouse, a series of logistics flows supplied to a demand or a manufacturer.

In other words, in the process of supplying raw materials to the final demand through intermediate logistics bases during the distribution of raw materials, materials, and products, various factors that determine the logical basis and demand for each intermediate logistics base are verified. Despite the fact that the minimum inventory at the logistics base is identified in real time and the stock is determined immediately, the business should be connected to the purchase immediately, but the decision is made by calculating and analyzing with Excel, a two-dimensional numerical calculation means. to be. In addition, in the supply of raw materials, materials and products, various situations in the operation replace various variable factors that may occur due to individual reasons. These problems not only require additional incurring logistics costs by delaying the immediate decision of the supply process, but also act as an obstacle to the smooth operation of inventory.

Therefore, there is a need for an information system capable of predicting and estimating factors affecting all inventory and supply and demand by means of basic logical algorithms to enable a decision-making system by scheduling in advance what may happen in the future.

Accordingly, an object of the present invention is to provide an inventory / supply scheduling system that can predict the future supply situation by identifying and changing the pre-supply system of raw materials, materials and products in real time.

It is another object of the present invention to provide a method of driving the inventory and supply and demand scheduling system for determining the current inventory, predicting the next stock entry point and making a decision or related decision.

It is still another object of the present invention to provide a recording medium having a stocking and supply and demand scheduling system that enables the most efficient and economical purchasing operation by properly predicting future stock situation and arrival point.

1 is a view showing in detail the network system to which the inventory / supply and demand scheduling system according to the present invention is applied.

Figure 2 is a flow chart showing the driving characteristics of the inventory / supply and demand scheduling system according to the present invention.

<Description of Symbols for Main Parts of Drawings>

11: Arrival Info 15: PSTN

16: monitoring server, 17, 22, 32: terminal

18: monitoring database 21: scheduler server

23: basic information database 24: scheduling database

31: user server 33: user database

Inventory / supply scheduling system according to the present invention to achieve the above object is a user terminal for providing logistics information transmitted by ships, trucks, and transportation means;

A logistics information database in which logistics information provided from the user terminal is stored; A communication network for transmitting logistics information stored in the logistics information database; A monitoring server for comparing and extracting from the logistics information transmitted through the communication network to analyze information regarding coordinate decoding, location tracking and arrival of a place where the logistics are transmitted; A monitoring database that stores information on coordinate reading, location tracking, and receipt analyzed by the monitoring server and permits the user to view information through the user terminal; The place where the logistics are transmitted by comparing and analyzing the information about coordinate reading, location tracking and arrival and the predetermined basic information, which are connected to the monitoring server through the public communication network and analyzed and transmitted by the monitoring server. An information server for predicting coordinate prediction and arrival of logistics; A base information database in which the basic information is stored and a user is allowed to view the base information through the user terminal; A scheduling database for storing the coordinates and the arrival of the logistics predicted by the information server and allowing the user to view the information about the coordinates and the arrival of the logistics predicted to the user through the user terminal; In order to make a purchase decision, arrival decision, transportation decision, and future arrival prediction of logistics using information about the coordinates and arrival of the logistics that are predicted and transmitted from the information server and connected to the information server and the public communication network. A user server; And a user database for storing the information determined by the user server and allowing reading of the information determined by the user through the user terminal.

The present invention includes the steps of storing the arrival information of the logistics using the ship, truck, railroad and other means of transport in the logistics information database through the user terminal; Transmitting the logistics information stored in the logistics information database to a monitoring server through a communication network, a dedicated line and a public communication network; Retrieving the logistics information transmitted to the monitoring server and analyzing the information on coordinate decoding, location tracking and arrival of the place where the logistics are transmitted; Storing information about coordinate reading, location tracking and receipt analyzed by the monitoring server in a monitoring database to provide the information so that the user can view the information through the user terminal and transmit the information to the information server; Coordinate reading, location tracking and arrival information analyzed at the monitoring server and sent to the information server, and the amount of usage, safety inventory, basic inventory, loading amount, transportation means, shipment, loading and unloading, Transmitting to the roofing system together with basic information including information on a brand used, a purchase plan, and a use plan; Determining whether an inventory scale is a basic stock, a safety stock, or a maximum stock by using the analyzed information and the logistics information and the basic information transmitted to the roofing system; Determining whether to use a vehicle, such as a shelf, a truck, or a railroad, for the transport of logistics when the inventory scale is determined; Determining a place of loading and unloading of raw materials or materials or products if the vehicle is determined; Determining final inventory when the loading and unloading locations are determined; Determining a distribution schedule when the final inventory is determined and divided by decision steps; Transmitting the determined logistics schedule to the user server through the public communication network when the logistics schedule is determined; Determining, by the user server, a short and long term purchase plan and a transport plan by performing a purchase process using the sent out logistics schedule; The determined purchase process is stored in the user database and provided to the user via the user terminal and a public communication network; The user confirming the determined purchase procedure by confirming the receipt; The received data is transmitted to the base second information database connected to the information server and stored.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 1 and 2.

1 is a diagram illustrating in detail a communication network system to which an inventory and supply and demand scheduling system according to the present invention is applied.

Referring to FIG. 1, first, the inventory and supply and demand scheduling system according to the present invention includes a user terminal 10 providing logistic information transmitted by a ship, a truck, and other transportation means, and a logistics provided by the user terminal 10. A logistics information database 11 storing information, a communication network, a dedicated line and a public communication network (PSTN) 15 for transmitting the logistics information stored in the logistics information database 11, the communication network, A monitoring server 16 for searching the logistics information transmitted through the dedicated line and the public communication network 15 to analyze information on coordinate decoding, location tracking and arrival of the place where the logistics are transmitted, and the monitoring server 16 In addition to the information on the coordinate decoding, location tracking and receipt of the data analyzed in the), the user terminal (eg, distributors and mass inventory management) through the user terminal 10 I) connected to the monitoring database 18, the monitoring server 16 and the public communication network 15 to read the information, and decoded coordinates analyzed and transmitted from the monitoring server 16, An information server 21 for predicting the coordinates of the place where the logistics are to be transmitted and the arrival of the logistics by comparing and analyzing the information regarding the position tracking and the arrival and the predetermined base information, and storing the base information. In addition, the user can view the base information through the user terminal 10 and the base information database 23, the information server 21 stores the coordinates and arrival of the logistic predicted by the user and the user A scheduling database 24 for viewing the coordinates and the arrival time of the predicted logistics through the terminal 10, and the information book It is connected to the server 21 and the public communication network 15, and using the information on the coordinates and arrival of the logistics predicted and transmitted from the information server 21, the purchase decision of the logistics, the arrival decision, the determination of the transportation means The user database 33 stores the information determined by the user server 31 and the user database 33 to allow the user to view the determined information through the user terminal 10. It is provided. The user terminal 10 receives information on logistics such as transportation means, transportation location, transportation time, inventory amount of logistics at the transportation location, transportation volume, etc. from the user and transmits the information to the logistics information database 11 and transmits the various information. It is composed of a monitor, a keyboard, and a modem so as to be connected to a server through the public communication network so as to view information stored in the various servers. The logistics information database 11 stores logistics information transmitted from the user terminal 10 and provides logistics information to the monitoring server 16 through the public communication network. A communication network, a dedicated line, and a public switched telephone network (PSTN) 15 are communication means for providing the monitoring server 16 with information stored in the logistics information database 11. The monitoring server 16 tracks the movement path of the logistics using the logistics information transmitted through the communication network, the dedicated line and the public communication network 15, and also coordinates and tracks the location of the movement and tracks the arrival of the logistics. The data is analyzed and transmitted to the information server 21 through the monitoring database 18 and the public communication network 15. In addition, the monitoring server 16 is provided with a man machine 19 and a browser 20 for connecting to and communicating with the communication means. The monitoring database 18 stores the logistics information analyzed by the monitoring server 16 so that a user can view the logistics information through the user terminal 10. The information server 21 is connected to the monitoring server 16 through the communication network, the dedicated line and the public communication network 15, and is stored in the logistic information transmitted from the monitoring server 16 and the base information database 23. By comparing and analyzing predetermined information, the coordinates and arrival time of the place where the logistics are transmitted are predicted and transmitted to the scheduling database 24 and the user server 31. In addition, the information server 21 includes a looping system (not shown) based on a knowledge base, a base engine 25, a protocol controller 26, a city engine 27, and an intra. A builder 28. In addition, the information server 21 is provided with a man machine 29 and a browser 30 connected to the public communication network 15 for transmitting and receiving logistics information. The roofing system performs a function of predicting moving coordinates and arrival of logistics. The city engine 27 is composed of a program made of pure Java. The protocol controller 26 provides a program bank according to the operations of the base engine 25 and the city engine 27 including the intrabuilder 28. In addition, the protocol controller 26 performs the access and work of the user terminal 10 using the intrabuilder 28. To this end, the protocol controller 26 communicates with the user using the HTTP protocol. The intra bilter 28 is relayed by the city engine 27 which is driven by the protocol controller 26 to be connected through the base engine 25. The base information database 23 stores information about logistics information determined by the user server 31. In detail, logistics information such as logistics usage, safety stock, basic stock, stock, transport specification, shipping / unloading support, use brand, purchase plan, use plan, etc. are stored, and the logistic information includes user logistic information and the Updated from time to time by the user server 31. The scheduling database 24 compares and analyzes the logistics information stored in the base information database 23 and the logistics information analyzed by comparing and analyzing the logistics information transmitted from the monitoring server 16 through the public communication network 15. Save the contents. The user server 31 is connected to the information server 21 through the public communication network 15, and using the scheduling logistics information in the information server 21, the purchase decision of the logistics, the arrival decision, the transportation means determination, A future arrival prediction is made and stored in the user database 33. In addition, the user server 31 transmits the determined logistics information back to the public communication network 15 to the information server 21, and the transmitted logistics information is stored in the base information database 23. At this time, all the logistics information stored in the existing base information database 23 is updated with new logistics information data. In addition, the user server 31 is provided with a man machine 34 and a browser 35 to connect with the public communication network 15 and to exchange information with the user. The user database 33 is configured to store the logistics information determined by the user server 31 and to be viewed by the user.

2 is a flowchart illustrating step by step a noisy base using a looping system in an information server.

1 and 2, the driving method of the inventory / supply scheduling system according to the present invention will be described.

1 and 2, the user stores the arrival information of the logistics using a ship, a truck, a railroad, and other transportation means in the logistics information database 11 through the user terminal 10. The information stored in the logistics information database 11 is transmitted by a monitoring server 16 administrator to a public network such as a communication network or a dedicated line or the Internet via the GPS 11, the communication satellite 13, and the Geumsan earth station (Korea Telecom) 14. It is transmitted to the monitoring server 16 via the communication network (15). Using the logistics information transmitted to the monitoring server 16 analyzes the movement route, coordinates, location, arrival of logistics. The analyzed logistic information is stored in the monitoring database 18 and the logistic information stored in the monitoring database 18 is configured so that a user can read it at any time through the user terminal 10. On the other hand, the movement path, coordinates, location, arrival of the logistics analyzed by the monitoring server 16 is transmitted to the information server 21 through the public communication network (15). The information server 21 is a logistic usage, safety inventory, basic inventory, stock, stored in the transport information and the base information database 23, transport means, shipping / unloading destination, use brand, purchase plan, use plan Comparing and analyzing logistics information, etc., and setting the logistics schedule accordingly. In detail, as shown in FIG. 2, the user stores the logistics information in the logistics information database 11 through the user terminal 10 and also transmits the logistics information stored in the logistics information database 11 to the monitoring server 16 again. The data is analyzed and transmitted to the information server 21 at the same time. The logistics information transmitted to the information server 21 includes information for estimating estimated time of arrival (ETA), stowage plan and current coordinates of the logistics. The logistic information is basic information stored in the base information database 23 including information on usage, safety inventory, basic inventory, stock, transportation means, shipment, loading and unloading, original brand, purchase plan, and use plan. (S1, S2, S3) The logistics information and the basic information transmitted to the roofing system are compared and analyzed with each other, and the inventory scale is the basic stock or the safety stock using the analyzed information. (S4) Once the inventory scale is determined, it is determined whether the transportation means for transporting the logistics is to use a shelf, a truck or a railroad. (S5) When the transportation means is determined, raw materials are determined. Alternatively, determine the place of loading and unloading of the material or product (S6). At this time, the place of loading and unloading will make the most appropriate choice by means of transportation. When the shipment location and the unloading location are determined, the final inventory is determined. (S7) When the final inventory is determined, the logistics schedule is determined according to the decision stage. (S8) At this time, the logistics schedule uses a GUI (Graphic User Interface). When the logistics schedule is determined, the information server 21 transmits the determined logistics schedule to the user server 31 through the public communication network 15. The user server 31 proceeds with the purchase process using the sent out logistics schedule to determine the short and long term purchase plan and transport plan. (S9) The determined purchase process is stored in the user database 33 and the user is It is provided to the user via the user terminal 10 and the public communication network 15. At this time, the user confirms the determined purchase procedure and confirms the arrival. (S10) The confirmed arrival data is transmitted to and stored in the base second information database 23 connected to the information server again.

As described above, the inventory / supply scheduling system and its driving method according to the present invention can predict the future stock situation by identifying and changing the pre-supply system of raw materials, materials and products in real time. In addition, the current inventory can be identified and the next inventory arrival point can be predicted to make a stock method or related decision. Furthermore, it is possible to properly predict the future stock situation and arrival point, etc. to enable the most efficient and economical purchasing business. Various changes without departing from the technical spirit of the present invention by those skilled in the art through the above description. And modifications are possible. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (3)

A user terminal for providing logistics information transmitted by a ship, a truck, and a vehicle; A logistics information database in which logistics information provided from the user terminal is stored; A communication network for transmitting logistics information stored in the logistics information database; A monitoring server for comparing and extracting from the logistics information transmitted through the communication network to analyze information regarding coordinate decoding, location tracking and arrival of a place where the logistics are transmitted; A monitoring database that stores information on coordinate reading, location tracking, and receipt analyzed by the monitoring server and permits the user to view information through the user terminal; The place where the logistics are transmitted by comparing and analyzing the information about coordinate reading, location tracking and arrival and the predetermined basic information, which are connected to the monitoring server through the public communication network and analyzed and transmitted by the monitoring server. An information server for predicting coordinate prediction and arrival of logistics; A base information database in which the basic information is stored and a user is allowed to view the base information through the user terminal; A scheduling database for storing the coordinates and the arrival of the logistics predicted by the information server and allowing the user to view the information about the coordinates and the arrival of the logistics predicted to the user through the user terminal; In order to make a purchase decision, arrival decision, transportation decision, and future arrival prediction of logistics using information about the coordinates and arrival of the logistics that are predicted and transmitted from the information server and connected to the information server and the public communication network. A user server; And a user database for storing the information determined by the user server and allowing reading of the information determined by the user through the user terminal. The method of claim 1, The user terminal has a monitor, a keyboard and a modem; The monitoring server comprises a browser for accessing the public communication network and a man machine for receiving and receiving the user's command as well as transmitting and receiving the logistics information such as text and numerical data from the user through the user terminal. The information server includes a looping system for predicting moving coordinates and arrival of logistics, a protocol controller and a city engine for communicating with a user, an intra builder for modifying and processing the logistics information transmitted to the information server, and the logistics information. Storing the data in the database and supplying / receiving the logistic information such as text and numerical data from the user through a base engine for supplying the intrabuilder, a browser for connecting to the public communication network, and the user terminal, Consists of a man machine to receive commands from, The logistics information database, monitoring database, base information database, scheduling database and user database is composed of any one of magnetic recording tape, optical disk, hard disk, RAM (Random Access Memory) and ROM (Read Only Memory), The user server comprises a browser for accessing the public communication network and a man machine for receiving and receiving the user's command as well as transmitting and receiving the logistics information such as text and numerical data from the user through the user terminal. Inventory supply / demand scheduling system. Storing arrival information of logistics using a ship, a truck, a railroad, and other transportation means in a logistics information database through a user terminal; Transmitting the logistics information stored in the logistics information database to a monitoring server through a communication network, a dedicated line and a public communication network; Retrieving the logistics information transmitted to the monitoring server and analyzing the information on coordinate decoding, location tracking and arrival of the place where the logistics are transmitted; Storing information about coordinate reading, location tracking and receipt analyzed by the monitoring server in a monitoring database to provide the information so that the user can view the information through the user terminal and transmit the information to the information server; Coordinate reading, location tracking and arrival information analyzed at the monitoring server and sent to the information server, and the amount of usage, safety inventory, basic inventory, loading amount, transportation means, shipment, loading and unloading, Transmitting to the roofing system together with basic information including information on a brand used, a purchase plan, and a use plan; Determining whether an inventory scale is a basic stock, a safety stock, or a maximum stock by using the analyzed information and the logistics information and the basic information transmitted to the roofing system; Determining whether to use a vehicle, such as a shelf, a truck, or a railroad, for the transport of logistics when the inventory scale is determined; Determining a place of loading and unloading of raw materials or materials or products if the vehicle is determined; Determining final inventory when the loading and unloading locations are determined; Determining a distribution schedule when the final inventory is determined and divided by decision steps; Transmitting the determined logistics schedule to the user server through the public communication network when the logistics schedule is determined; Determining, by the user server, a short and long term purchase plan and a transport plan by performing a purchase process using the sent out logistics schedule; The determined purchase process is stored in the user database and provided to the user via the user terminal and a public communication network; The user confirming the determined purchase procedure by confirming the receipt; And the received data is transmitted to and stored in the base second information database connected to the information server again.