CN111144824A - Logistics management system based on two-stage logistics - Google Patents

Abstract

The invention relates to a logistics management system, in particular to a logistics management system based on two-stage logistics, which comprises a server, a first regional server arranged in each county and a second regional server arranged in each village, wherein the server is connected with a logistics information acquisition module used for collecting related logistics information, the server is connected with a receiving address judgment module used for acquiring a receiving address in the logistics information, the server is connected with a distribution path optimization unit used for optimizing a distribution line according to the receiving address, and the server sends the optimal distribution path selected by the distribution path optimization unit to a logistics vehicle through a wireless communication module; the technical scheme provided by the invention can effectively overcome the defects that the two-stage logistics in the prior art easily cause article loss and relatively long distribution time.

Description

Logistics management system based on two-stage logistics

Technical Field

The invention relates to a logistics management system, in particular to a logistics management system based on two-stage logistics.

Background

Logistics distribution is a non-single business form in logistics activities, is closely combined with commodity flow, logistics and fund flow, mainly comprises the commodity flow activities, the logistics activities and the fund flow activities, and can be said to be a business form comprising most necessary factors in the logistics activities. In the prior art, the logistics configuration includes the following processes: stock, storage, sorting and distribution, assembly, transportation, and delivery. Starting from stock, the goods are stored and assembled until the final delivery, and each step is free from the closing of professional logistics talents.

The second-stage logistics are mainly used for serving villages and remote areas, and are inconvenient to directly deliver, so that transfer needs to be carried out in the upper-stage administrative district, the second-stage logistics are prone to causing article loss, and due to road conditions and weather factors, the time required by the second-stage logistics for delivering articles is longer than that of ordinary logistics.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects in the prior art, the invention provides a logistics management system based on two-stage logistics, which can effectively overcome the defects that the two-stage logistics in the prior art easily causes article loss and relatively long distribution time.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

a logistics management system based on two-stage logistics comprises a server, a first regional server and a second regional server, wherein the first regional server is arranged in each county, the second regional server is arranged in each village, the server is connected with a logistics information acquisition module used for collecting related logistics information, the server is connected with a receiving address judgment module used for acquiring a receiving address in the logistics information, the server is connected with a distribution path optimization unit which optimizes distribution lines according to the receiving address, and the server sends the optimal distribution path selected by the distribution path optimization unit to a logistics vehicle through a wireless communication module;

the server is connected with a goods sorting module for sorting the logistics articles according to the receiving address, and the server is connected with an RFID label generating module for generating RFID labels containing logistics information;

the first area server is connected with a first logistics information checking module which is used for checking logistics information contained in an RFID tag of an arriving article with a logistics information list;

the second area server is connected with a second logistics information checking module used for checking logistics information contained in the RFID tags of the arriving articles with the logistics information list, and the second area server is connected with a goods taking information recording module used for recording consignees and goods taking time.

Preferably, the distribution path optimization unit includes a logistics node judgment module that judges a logistics node passing through the logistics node according to the positions of the logistics center and the receiving address, a distribution path screening module that screens the distribution path according to the passing logistics node, a distribution distance statistics module that is used for counting the distance of each screened distribution path, a weather information collection module that is used for collecting the weather condition of each screened distribution path, and a distribution path formulation module that is used for selecting the optimal distribution path in consideration of the distribution path distance and the distribution path weather condition.

Preferably, the distribution path optimizing unit further includes a traffic information collecting module for collecting traffic conditions of the adjacent logistics nodes, and a road condition information collecting module for collecting road conditions of the adjacent logistics nodes, and the distribution path formulating module adds the traffic conditions of the adjacent logistics nodes and the road conditions of the adjacent logistics nodes for comprehensive consideration.

Preferably, the server sends the optimal distribution path selected by the distribution path optimization unit to the first area server and the second area server through a network.

Preferably, the server is connected with a vehicle-mounted positioning module which is installed on the logistics vehicle and used for positioning, and the server is connected with a logistics track checking module which is used for comparing the driving track of the logistics vehicle with the optimal distribution path.

Preferably, when the logistics track checking module determines that the difference between the logistics vehicle driving track and the optimal distribution path is too large, the server performs alarm reminding through the alarm module.

Preferably, the vehicle-mounted positioning module comprises a GPS positioning module and an LBS positioning module, and when a satellite signal of the GPS positioning module is weak or no satellite signal exists, the LBS positioning module is triggered to start and position the logistics vehicle.

Preferably, the LBS location module work location comprises the following steps:

s1, the LBS positioning module establishes communication with the adjacent base station, acquires the ID of the base station, and sends a position service request to a position service provider through the base station;

s2, the location service provider receives the location service request, determines the longitude and latitude information of the LBS positioning module, and feeds back the information to the LBS positioning module through the base station;

and S3, the LBS positioning module sends the latitude and longitude information to the server through the wireless communication device.

Preferably, the logistics information contained in the RFID tag of the arriving article is scanned and acquired by an RFID reader, when the RFID reader scans the RFID tag, that is, the time when the article arrives at each county or each village, the RFID reader uploads the time to the server.

Preferably, the logistics information collection module collects related logistics information including item name, item specification, item quantity, delivery time, delivery address, sender, receiving address, and receiver.

(III) advantageous effects

Compared with the prior art, the logistics management system based on the two-stage logistics, provided by the invention, has the following beneficial effects:

1. the logistics information collection module collects relevant logistics information, the goods receiving address judgment module collects goods receiving addresses in the logistics information, the goods sorting module sorts logistics articles according to the goods receiving addresses, the RFID tag generation module generates RFID tags containing the logistics information, a first region server arranged in each county and a second region server arranged in each village receive logistics information lists sent by the servers through a first information collection terminal and a second information collection terminal respectively, and check logistics information contained in RFID tags of arriving articles and the logistics information lists through a first logistics information check module and a second logistics information check module respectively, and check step by step, so that the loss of the goods can be effectively prevented, and the condition of delivery of wrong goods can be avoided;

2. the distribution route optimizing unit optimizes distribution lines according to the goods receiving address, the server sends the optimal distribution route selected by the distribution route optimizing unit to the logistics vehicle through the wireless communication module, the vehicle-mounted positioning module is mounted on the logistics vehicle and used for positioning, the logistics track checking module compares the driving track of the logistics vehicle with the optimal distribution route, on one hand, distribution time can be shortened as far as possible through optimizing the distribution route, on the other hand, the situation of goods positions can be timely mastered through monitoring the driving track of the logistics vehicle, and similarly, goods can be effectively prevented from being lost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic diagram of the system of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A logistics management system based on two-stage logistics is disclosed, as shown in figure 1, and comprises a server, a first regional server arranged in each county and a second regional server arranged in each village, wherein the server is connected with a logistics information acquisition module used for collecting related logistics information, the server is connected with a receiving address judgment module used for acquiring a receiving address in the logistics information, the server is connected with a distribution path optimization unit used for optimizing distribution lines according to the receiving address, and the server sends the optimal distribution path selected by the distribution path optimization unit to a logistics vehicle through a wireless communication module;

the server is connected with a goods sorting module for sorting the logistics articles according to the receiving address, and the server is connected with an RFID tag generation module for generating RFID tags containing logistics information;

the system comprises a first area server and a first information acquisition terminal, wherein the first area server is used for receiving a logistics information list sent by the server, and is connected with a first logistics information checking module used for checking logistics information contained in an RFID tag of an arriving article with the logistics information list;

the second area server is connected with a second logistics information checking module used for checking logistics information contained in the RFID tag of the arriving article with the logistics information list, and the second area server is connected with a goods taking information recording module used for recording the consignee and the goods taking time.

The distribution path optimization unit comprises a logistics node judgment module for judging the positions of the logistics center and the receiving address to pass through the logistics node, a distribution path screening module for screening distribution paths according to the passing logistics node, a distribution distance counting module for counting the distances of the screened distribution paths, a weather information collecting module for collecting weather conditions of the screened distribution paths, and a distribution path making module for comprehensively considering the distances of the distribution paths and the weather conditions of the distribution paths to select the optimal distribution path.

The distribution path optimizing unit further comprises a traffic information collecting module for collecting traffic conditions of the adjacent logistics nodes and a road condition information collecting module for collecting road conditions of the adjacent logistics nodes, and the distribution path formulating module is used for adding the traffic conditions of the adjacent logistics nodes and the road conditions of the adjacent logistics nodes into comprehensive consideration.

And the server sends the optimal distribution path selected by the distribution path optimization unit to the first area server and the second area server through the network.

The server is connected with a vehicle-mounted positioning module which is arranged on the logistics vehicle and used for positioning, and the server is connected with a logistics track checking module which is used for comparing the driving track of the logistics vehicle with the optimal distribution path.

When the logistics track checking module judges that the difference between the logistics vehicle running track and the optimal distribution path is too large, the server gives an alarm through the alarm module.

The vehicle-mounted positioning module comprises a GPS positioning module and an LBS positioning module, and when the satellite signal of the GPS positioning module is weak or no satellite signal exists, the LBS positioning module is triggered to start and positions the logistics vehicle.

The LBS positioning module comprises the following steps:

s1, the LBS positioning module establishes communication with the adjacent base station, acquires the ID of the base station, and sends a position service request to a position service provider through the base station;

s2, the location service provider receives the location service request, determines the longitude and latitude information of the LBS positioning module, and feeds back the information to the LBS positioning module through the base station;

and S3, the LBS positioning module sends the latitude and longitude information to the server through the wireless communication device.

The logistics information contained in the RFID label of the arriving article is scanned and obtained through the RFID card reader, when the RFID card reader scans the RFID label, the time that the article arrives at each county or each village is obtained, and the RFID card reader uploads the time to the server.

The logistics information collection module collects relevant logistics information including item names, item specifications, item quantity, delivery time, delivery addresses, deliverers, receiving addresses and receivers.

The logistics information collection module collects relevant logistics information, the goods receiving address judgment module collects the goods receiving address in the logistics information, the goods sorting module sorts logistics articles according to the goods receiving address, the RFID tag generation module generates RFID tags containing the logistics information, a first region server is arranged in each county, a second region server is arranged in each village and respectively receives logistics information lists sent by the servers through a first information collection terminal and a second information collection terminal, the logistics information lists contained in the RFID tags of the arriving articles are respectively checked through the first logistics information checking module and the second logistics information checking module, checking and checking are performed step by step, the goods can be effectively prevented from being lost, and meanwhile the situation of delivery of wrong goods can be avoided.

The logistics information contained in the RFID label of the arriving article is scanned and obtained through the RFID card reader, when the RFID card reader scans the RFID label, the time that the article arrives at each county or each village is obtained, and the RFID card reader uploads the time to the server.

The logistics information collection module collects relevant logistics information including item names, item specifications, item quantity, delivery time, delivery addresses, deliverers, receiving addresses and receivers.

The distribution route optimizing unit optimizes distribution lines according to the goods receiving address, the server sends the optimal distribution route selected by the distribution route optimizing unit to the logistics vehicle through the wireless communication module, the vehicle-mounted positioning module is mounted on the logistics vehicle and used for positioning, the logistics track checking module compares the driving track of the logistics vehicle with the optimal distribution route, on one hand, distribution time can be shortened as far as possible through optimizing the distribution route, on the other hand, the situation of goods positions can be timely mastered through monitoring the driving track of the logistics vehicle, and similarly, goods can be effectively prevented from being lost.

And the server sends the optimal distribution path selected by the distribution path optimization unit to the first area server and the second area server through the network.

The distribution path optimization unit comprises a logistics node judgment module for judging the positions of the logistics center and the receiving address to pass through the logistics node, a distribution path screening module for screening distribution paths according to the passing logistics node, a distribution distance counting module for counting the distances of the screened distribution paths, a weather information collecting module for collecting weather conditions of the screened distribution paths, and a distribution path making module for comprehensively considering the distances of the distribution paths and the weather conditions of the distribution paths to select the optimal distribution path.

The distribution path optimizing unit further comprises a traffic information collecting module for collecting traffic conditions of the adjacent logistics nodes and a road condition information collecting module for collecting road conditions of the adjacent logistics nodes, and the distribution path formulating module is used for adding the traffic conditions of the adjacent logistics nodes and the road conditions of the adjacent logistics nodes into comprehensive consideration.

When the logistics track checking module judges that the difference between the logistics vehicle running track and the optimal distribution path is too large, the server gives an alarm through the alarm module.

The vehicle-mounted positioning module comprises a GPS positioning module and an LBS positioning module, and when the satellite signal of the GPS positioning module is weak or no satellite signal exists, the LBS positioning module is triggered to start and positions the logistics vehicle.

The LBS positioning module comprises the following steps:

s1, the LBS positioning module establishes communication with the adjacent base station, acquires the ID of the base station, and sends a position service request to a position service provider through the base station;

s2, the location service provider receives the location service request, determines the longitude and latitude information of the LBS positioning module, and feeds back the information to the LBS positioning module through the base station;

and S3, the LBS positioning module sends the latitude and longitude information to the server through the wireless communication device.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A logistics management system based on two-stage logistics is characterized in that: the system comprises a server, a first regional server arranged in each county and a second regional server arranged in each village, wherein the server is connected with a logistics information acquisition module used for collecting related logistics information, the server is connected with a receiving address judgment module used for acquiring a receiving address in the logistics information, the server is connected with a distribution path optimization unit used for optimizing a distribution line according to the receiving address, and the server sends the optimal distribution path selected by the distribution path optimization unit to a logistics vehicle through a wireless communication module;

the server is connected with a goods sorting module for sorting the logistics articles according to the receiving address, and the server is connected with an RFID label generating module for generating RFID labels containing logistics information;

the first area server is connected with a first logistics information checking module which is used for checking logistics information contained in an RFID tag of an arriving article with a logistics information list;

the second area server is connected with a second logistics information checking module used for checking logistics information contained in the RFID tags of the arriving articles with the logistics information list, and the second area server is connected with a goods taking information recording module used for recording consignees and goods taking time.

2. The two-stage logistics based logistics management system of claim 1, wherein: the distribution path optimization unit comprises a logistics node judgment module for judging the positions of the logistics center and the receiving address to pass through the logistics node, a distribution path screening module for screening distribution paths according to the passing logistics node, a distribution distance counting module for counting the distances of the screened distribution paths, a weather information collecting module for collecting weather conditions of the screened distribution paths, and a distribution path formulation module for comprehensively considering the distances of the distribution paths and the weather conditions of the distribution paths to select the optimal distribution path.

3. The two-stage logistics based logistics management system of claim 2, wherein: the distribution path optimizing unit further comprises a traffic information collecting module for collecting traffic conditions of the adjacent logistics nodes and a road condition information collecting module for collecting road conditions of the adjacent logistics nodes, and the distribution path formulating module is used for adding the traffic conditions of the adjacent logistics nodes and the road conditions of the adjacent logistics nodes into comprehensive consideration.

4. The two-stage logistics based logistics management system of claim 1, wherein: and the server sends the optimal distribution path selected by the distribution path optimization unit to the first area server and the second area server through a network.

5. The two-stage logistics based logistics management system of claim 1, wherein: the server is connected with a vehicle-mounted positioning module which is arranged on the logistics vehicle and used for positioning, and the server is connected with a logistics track checking module which is used for comparing the driving track of the logistics vehicle with the optimal distribution path.

6. The two-stage stream-based logistics management system of claim 5, wherein: and when the logistics track checking module judges that the difference between the logistics vehicle running track and the optimal distribution path is too large, the server gives an alarm through the alarm module.

7. The two-stage stream-based logistics management system of claim 5, wherein: the vehicle-mounted positioning module comprises a GPS positioning module and an LBS positioning module, and when the satellite signal of the GPS positioning module is weak or no satellite signal exists, the LBS positioning module is triggered to start and positions the logistics vehicle.

8. The two-stage stream-based logistics management system of claim 7, wherein: the LBS positioning module comprises the following steps:

s1, the LBS positioning module establishes communication with the adjacent base station, acquires the ID of the base station, and sends a position service request to a position service provider through the base station;

s2, the location service provider receives the location service request, determines the longitude and latitude information of the LBS positioning module, and feeds back the information to the LBS positioning module through the base station;

and S3, the LBS positioning module sends the latitude and longitude information to the server through the wireless communication device.

9. The two-stage logistics based logistics management system of claim 1, wherein: the logistics information contained in the RFID tag of the arriving article is scanned and obtained through an RFID card reader, when the RFID card reader scans the RFID tag, the time is the time when the article arrives at each county or each village, and the RFID card reader uploads the time to the server.

10. The two-stage logistics based logistics management system of claim 1, wherein: the logistics information collection module collects relevant logistics information including item names, item specifications, item quantity, delivery time, delivery addresses, delivery persons, delivery addresses and delivery persons.

Images