CN114598678B - Warehouse voice transmission method based on switchboard - Google Patents

Abstract

The invention discloses a voice transmission method in a warehouse based on a switchboard, which relates to the technical field of voice transmission in the warehouse, and is used for establishing communication connection between two platforms through the switchboard, wherein a switch is also connected between a sending platform and the switchboard; the sending platform encapsulates voice data, adds a voice vlan Tag and a unique Tag in the interaction process with the switch, then the switch sends the voice vlan Tag and the unique Tag to the switchboard after adjusting transmission priority, carries out simulated voice analysis and virus scanning, generates respective IDs of the platforms, completes registration of the switchboard and the sending platform through the IDs, updates the Tag, and sends the data to the receiving platform. The invention establishes the data transmission between the platforms based on the switchboard, ensures the safety of the transmission and improves the transmission efficiency.

Description

Warehouse voice transmission method based on switchboard

Technical Field

The invention relates to the technical field of voice transmission in a logistics warehouse, in particular to a method for transmitting voice in a warehouse based on a switchboard.

Background

The method is characterized in that with the development of the logistics industry, the warehousing logistics industry faces the problem of business message overuse, and the current information data transmission mostly adopts a voice data transmission mode.

However, at present, in order to ensure transmission safety, when data transmission is performed between platforms, multiple interactive verification is often required to be performed for multiple times, so as to ensure the safety of voice data transmission packets, the multiple interactive verification during transmission can greatly reduce the data transmission efficiency, and for the warehouse logistics industry, the data volume of voice transmission during peak time is large, and the problem of high-efficiency data transmission to improve efficiency is faced.

Disclosure of Invention

In order to solve the problems, the invention provides a voice transmission method in a warehouse based on a switchboard, voice data transmission is established between platforms through a switchboard and the switchboard, communication is established between a sending platform and the switchboard, packaging, processing and sending of data packets are performed, connection is established between the switchboard and the switchboard, after priority adjustment, recognition, analysis, scanning, verification and registration are performed by the switchboard, communication connection between a sending platform and a receiving platform is established, abnormal scanning of the data packets is realized based on the switchboard, transmission flow is reduced, and transmission efficiency is improved under the condition of ensuring data safety.

The invention provides a method for transmitting voice in a warehouse based on a switchboard, which comprises the following specific technical scheme:

the method is used for establishing communication connection between platform terminals through a switchboard, wherein the platform terminals comprise a sending platform and a receiving platform, the switchboard is connected between the sending platform and the receiving platform, and the sending platform is also connected with the switchboard through a switchboard;

the method comprises the following steps:

s1: the sending platform encapsulates data information to obtain a first voice data transmission packet and sends the first voice data transmission packet to the switch;

s2: the sending platform generates a unique Tag after sending the first voice data transmission packet to the switch, wherein the unique Tag comprises a source address and a destination address;

s3: after receiving the first voice data transmission packet, the switch identifies, adds a voice vlan tag to the first voice data transmission packet, acquires a second voice data transmission packet, and sends the second voice data transmission packet to the sending platform;

s4: the sending platform adds the unique Tag to the second voice data transmission packet to obtain a third voice data transmission packet, and sends the third voice data transmission packet to the switch;

s5: the switch sends the third voice data transmission packet to the switchboard, the switchboard analyzes the analog voice data of the third voice data transmission packet to obtain a data file, and after the switchboard analyzes, a first ID and a second ID are generated;

s6: the switchboard sends the unique Tag and the first ID to the sending platform, the sending platform verifies the unique Tag after receiving the unique Tag, uses the first ID as the self ID after the unique Tag passes the verification, and feeds back the information of successful verification to the switchboard to finish registration;

s7: after the registration of the switchboard and the sending platform is completed, the source address in the third voice data transmission packet Tag is replaced by the first ID, and then the third voice data transmission packet, the replaced new Tag and the second ID are sent to the receiving platform through the switchboard.

Further, the first voice data transmission packet includes voice identification and transmission content information.

Further, after step S4, the switch identifies the unique Tag and the voice identifier, and then performs a transmission priority adjustment operation according to a data transmission packet type;

and discarding the data transmission packet which is not identified and feeding back the data transmission packet to the sending platform abnormality.

Further, the first ID and the second ID are generated by a registration code on the switchboard.

Further, in step S5, a simulation platform set in the switchboard is used to analyze the simulated voice data, and after the data file is obtained, a virus scanning operation is performed on the data file;

if the abnormality exists, discarding and feeding back the abnormality of the sending platform.

Further, the first Tag further includes a random character and a time stamp.

The beneficial effects of the invention are as follows:

1. based on the inter-platform transmission of the switchboard, after the switchboard completes the simulation analysis of the data packet, the generated ID is sent to the sending platform to complete registration, and the ID is not regenerated for registration during secondary transmission, so that the flow is reduced, and the transmission efficiency is improved.

2. The switchboard is provided with a simulation platform, after the simulation voice data analysis is carried out on the data packet, virus scanning operation can be carried out on the obtained data file, and the safety of the transmission link before the switchboard is improved.

3. The registration code in the switchboard is used for generating an ID to replace the source address in the original data packet, the data packet is safer, and the receiving platform can request the switchboard to obtain the source request address according to the source ID after receiving the data packet.

Drawings

FIG. 1 is a schematic diagram of an inter-platform architecture and a communication transmission flow according to the present invention.

Detailed Description

In the following description, the technical solutions of the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The embodiment 1 of the invention discloses a voice transmission method in a warehouse based on a switchboard, which is shown in fig. 1, wherein the method is used between platform terminals which are in communication connection through the switchboard, the platform terminals comprise a sending platform and a receiving platform, the switchboard is connected between the sending platform and the receiving platform, and the sending platform is also connected with the switchboard through a switchboard;

the method comprises the following steps:

s1: the sending platform encapsulates data information to obtain a first voice data transmission packet and sends the first voice data transmission packet to the switch;

the first voice data transmission packet comprises voice identification and transmission content information.

S2: the sending platform generates a unique Tag after sending the first voice data transmission packet to the switch, wherein the unique Tag comprises a source address, a destination address, a random character and a time stamp;

s3: after receiving the first voice data transmission packet, the switch recognizes a voice identifier in the first voice data transmission packet, adds a voice vlan tag to the first voice data transmission packet, acquires a second voice data transmission packet, and sends the second voice data transmission packet to the sending platform;

s4: after receiving the second voice data transmission packet, the sending platform adds the unique Tag to the second voice data transmission packet to obtain a third voice data transmission packet, and sends the third voice data transmission packet to the switch;

the switch identifies the third voice data transmission packet, identifies the unique Tag and the voice identifier, carries out transmission priority adjustment operation according to the type of the data transmission packet, and judges that the voice data transmission is voice data transmission if the voice identifier is identified, and the switch preferentially processes the voice data when simultaneously processing the voice data and the non-voice data;

and discarding the data transmission packet which is not identified and feeding back the data transmission packet to the sending platform abnormality.

S5: the switch sends the third voice data transmission packet to the switchboard, the switchboard analyzes the analog voice data of the third voice data transmission packet to obtain a data file, and after the switchboard analyzes, a first ID and a second ID are generated;

the first ID and the second ID are generated by registration codes on the switchboard;

the voice data packet carries out simulated voice data analysis through a simulation platform arranged in the telephone exchange, and after the data file is obtained through analysis, virus scanning operation is carried out on the data file through the simulation platform;

if the abnormality exists, namely the virus file is scanned, discarding is carried out, and the abnormality is fed back to the sending platform; if no abnormality exists, step S6 is performed.

S6: and the switchboard sends the unique Tag and the first ID to the sending platform, the sending platform verifies the unique Tag after receiving the unique Tag, uses the first ID as the self ID after the unique Tag passes the verification, and feeds back the information successfully verified to the switchboard to finish the registration of the switchboard and the sending platform.

S7: after the registration of the switchboard and the sending platform is completed, the source address in the third voice data transmission packet Tag is replaced by the first ID, and then the third voice data transmission packet, the replaced new Tag and the second ID are sent to the receiving platform through the switchboard, so that voice transmission is completed.

The invention is not limited to the specific embodiments described above. The invention extends to any novel one, or any novel combination, of the features disclosed in this specification, as well as to any novel one, or any novel combination, of the steps of the method or process disclosed.

Claims (5)

1. The method is characterized in that the method is used between platform terminals which are in communication connection through a switchboard, the platform terminals comprise a sending platform and a receiving platform, the switchboard is connected between the sending platform and the receiving platform, and the sending platform is also connected with the switchboard through a switchboard;

the method comprises the following steps:

s1: the sending platform encapsulates data information to obtain a first voice data transmission packet, and sends the first voice data transmission packet to the switch, wherein the first voice data transmission packet comprises a voice identifier and transmission content information;

s2: the sending platform generates a unique Tag after sending the first voice data transmission packet to the switch, wherein the unique Tag comprises a source address and a destination address;

s3: after receiving the first voice data transmission packet, the switch identifies, adds a voice vlan tag to the first voice data transmission packet, acquires a second voice data transmission packet, and sends the second voice data transmission packet to the sending platform;

s4: the sending platform adds the unique Tag to the second voice data transmission packet to obtain a third voice data transmission packet, and sends the third voice data transmission packet to the switch;

s5: the switch sends the third voice data transmission packet to the switchboard, the switchboard analyzes the analog voice data of the third voice data transmission packet to obtain a data file, and after the switchboard analyzes, a first ID and a second ID are generated;

s6: the switchboard sends the unique Tag and the first ID to the sending platform, the sending platform verifies the unique Tag after receiving the unique Tag, uses the first ID as the self ID after the unique Tag passes the verification, and feeds back the information of successful verification to the switchboard to finish registration;

s7: after the registration of the switchboard and the sending platform is completed, the source address in the third voice data transmission packet Tag is used as a first ID, and then the third voice data transmission packet, the replaced new Tag and the second ID are sent to the receiving platform through the switchboard.

2. The method for voice transmission in a warehouse based on a switchboard according to claim 1, characterized in that after step S4, said exchange recognizes said unique Tag and said voice identifier, and then performs a transmission priority adjustment operation according to the type of data transmission packet;

and discarding the data transmission packet which is not identified and feeding back the data transmission packet to the sending platform abnormality.

3. The switchboard-based in-warehouse voice transmission method according to claim 1, characterized in that said first ID and said second ID are generated by registration codes on said switchboard.

4. The method for transmitting voice in a warehouse based on a switchboard according to any one of claims 1-3, characterized in that in step S5, simulation voice data analysis is performed through a simulation platform set inside the switchboard, and after the data file is obtained, virus scanning operation is performed on the data file;

if the abnormality exists, discarding and feeding back the abnormality of the sending platform.

5. The method of claim 1, wherein the unique Tag further comprises a random character and a time stamp.