CN117768811A - Optical transmission device, method and network system - Google Patents

Abstract

The invention provides an optical transmission device, an optical transmission method and a network system, and relates to the technical field of communication. The optical transmission device comprises receiving equipment, a storage unit, a distribution unit and a quantifying unit, wherein the receiving equipment comprises an interface 1, an interface 2 and an interface n, the distribution unit comprises a distribution outlet 1, a distribution outlet 2 and a distribution outlet n, and the receiving unit further comprises an optical access point module. The transmission device can form light into electric pulses, can freely distribute the light during electric pulse distribution, does not need specific access points to be communicated for use, can freely distribute the light during the fault of one access point, and can be automatically supplemented by other access points more or less during the distribution.

Description

Optical transmission device, method and network system

Technical Field

The invention relates to the technical field of communication, in particular to an optical transmission device, an optical transmission method and a network system.

Background

Optical transmission is a technique of transmitting in the form of an optical signal between a sender and a receiver. Optical transmission devices are devices that convert a variety of signals into optical signals for transmission over optical fibers, and therefore optical fibers are commonly used in modern optical transmission devices.

However, when the distribution is sent out, different access points cannot be used in a communicating way, so that when a certain distribution point fails during the distribution, the transmission is down, and the whole transmission system is damaged and cannot normally operate. Accordingly, a person skilled in the art provides an optical transmission device, an optical transmission method and a network system to solve the above-mentioned problems.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides an optical transmission device, an optical transmission method and a network system, which can form optical into electric pulses, can perform free distribution when the electric pulses are distributed, do not need to be communicated with a specific access point for use, can perform free distribution when one access point fails, can perform more or less self-supplement through another access point when the access point is distributed, and solve the problems that the failure of one access point cannot operate when the existing optical transmission is transmitted to different access points, the continuous transmission cannot be performed, and the more or less free supplement of one access point cannot be performed.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: an optical transmission device, a method and a network system comprise an optical transmission device, a control module, a distribution access system, a distribution partition system and a distribution self-supplementing module, wherein the optical transmission device comprises a receiving device, a storage unit, a distribution unit and a quantifying unit, the receiving device comprises an interface 1, an interface 2 and an interface n, the distribution unit comprises a distribution outlet 1, a distribution outlet 2 and a distribution outlet n, the receiving unit further comprises an optical access point module, the optical access point module comprises an optical classification module, the optical classification module is used for detecting the optical access point module, the optical classification module is used for providing an optical integration module after detection, the storage unit further comprises a classification module, and the distribution unit comprises a transmission module.

Through the technical scheme, the composition of the whole optical transmission device is determined, each level of differentiation is carried out on the receiving equipment, the storage unit, the distribution unit and the quantifying unit, a plurality of optical interfaces and a plurality of distribution outlets are provided, meanwhile, the distribution of light into electric pulses can be conveniently carried out, and the electric pulses can be ensured to be provided during distribution by integrating the light into the electric pulses according to detection before the distribution.

Preferably, the allocation access system comprises an allocation access point 1, an allocation access point 2, an allocation access point 3, an allocation access point 4, an allocation access point 5 and an allocation access point n, wherein the allocation access point 1 can be used in communication with the allocation access point 2, the allocation access point 3, the allocation access point 4, the allocation access point 5 and the allocation access point n, the allocation access point can be used in communication with the allocation access point 1, the allocation access point 3, the allocation access point 4, the allocation access point 5 and the allocation access point n, the allocation access point 3 can be used in communication with the allocation access point 1, the allocation access point 2, the allocation access point 4, the allocation access point 5 and the allocation access point n, and the allocation access point 4 can be used in communication with the allocation access point 1, the allocation access point 2, the allocation access point 3 and the allocation access point n, and the allocation access point 4 can be used in communication with the allocation access point 1, the allocation access point 2, the allocation access point 3 and the allocation access point 4;

through the technical scheme, the distribution access points 1, 2, 3, 4, 5 and n can still achieve the purpose of mutual communication under the condition that a plurality of distribution access points and distribution access points are positioned at different positions, so that the distribution access points can be used continuously and more conveniently.

Preferably, the allocation partition system comprises an allocation access point 1, an allocation access point 3, an allocation access point 4, an allocation access point n and an access terminal fault, wherein when the access terminal fault of the allocation access point exists, the allocation access point can avoid the access terminal fault point to be communicated with other allocation access points for use;

through the technical scheme, when the distribution point faults occur among the distribution access points, the network system can directly avoid the distribution fault points to continuously distribute to the distribution access points which normally run, so that the whole transmission system can continuously run all the time, the occurrence of downtime is avoided, and the network system is more practical.

Preferably, the self-replenishment module for dispensing volume comprises dispensing volume 1, dispensing volume 2 and dispensing volume n, wherein when the light replenishment is insufficient at dispensing volume 1, the self-replenishment can be performed through dispensing volume 2 and dispensing volume n, wherein when the light replenishment is insufficient at dispensing volume 2, the self-replenishment can be performed through dispensing volume 1 and dispensing volume n, and wherein when the light replenishment is insufficient at dispensing volume n, the self-replenishment can be performed through dispensing volume 1 and dispensing volume 2;

through the technical scheme, when the distribution access points are more or less caused by uneven distribution during transmission, the distribution access points can be complemented by other distribution access points through the distribution quantity 1, the distribution quantity 2 and the distribution quantity n, and each distribution access point can be kept to have enough and proper electric pulse by using a self-supplementing method.

Working principle: the optical transmission device, the method and the network system method are as follows:

s1, controlling the whole light ending and discharging process by a control module;

s2, during the beginning period, light needs to be received through a plurality of interfaces;

s3, classifying the light received by the interfaces respectively;

s4, providing enough light detectors for simultaneous detection according to the light received by the interfaces;

s5, after detecting the light received by the interfaces, integrating the detected light;

s6, uniformly storing the detected light to form electric pulses;

s7, classifying again according to specific distribution positions and contents during the electric pulse generation;

and S8, continuously transmitting the distributed electric pulse until the distributed electric pulse is ended.

(III) beneficial effects

The invention provides an optical transmission device, an optical transmission method and a network system. The beneficial effects are as follows:

compared with the existing optical transmission device, the optical transmission device can perform free distribution when the optical transmission device optically forms the electric pulse, a specific access point is not required to be used in a communicating mode, meanwhile, when one access point fails, the distribution can be performed freely, when the distribution is performed, one access point is more or less, self-supplement can be performed through another access point, the waste of light is reduced, and the optical transmission device has certain protection performance and high practicability.

Drawings

FIG. 1 is a system flow diagram of an optical transmission apparatus, method and network system according to the present invention;

FIG. 2 is a system flow diagram of an optical transmission apparatus, method and network system according to the present invention;

FIG. 3 is a flowchart showing an optical transmission apparatus, method and network system distribution access system according to the present invention;

FIG. 4 is a flow chart of an embodiment of an optical transmission apparatus, method and network system distribution partition system according to the present invention;

FIG. 5 is a flow chart showing the self-replenishment of the distribution amount of an optical transmission device, method and network system according to the present invention;

fig. 6 is a flowchart of an operation system of an optical transmission device, an optical transmission method and a network system according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described 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:

as shown in fig. 1 to 6, the embodiment of the present invention provides an optical transmission device, a method and a network system, including an optical transmission device, a control module, a distribution access system, a distribution partition system and a distribution self-replenishing module, where the optical transmission device includes a receiving apparatus, a storage unit, a distribution unit and a quantifying unit, where the receiving apparatus includes an interface 1, an interface 2 and an interface n, the distribution unit includes a distribution outlet 1, a distribution outlet 2 and a distribution outlet n, the receiving unit further includes an optical access point module, the optical access point module includes an optical classification module, the optical classification module detects the optical access point, and an optical integration module is provided after the detection, and the storage unit further includes a classification module, where the distribution unit includes a transmission module, determines a composition of the entire optical transmission device, and performs differentiation for the receiving apparatus, the storage unit, the distribution unit and the quantifying unit, and a plurality of distribution outlets are provided, and may facilitate distribution of light into electrical pulses, and may be ensured that a required electrical pulse may be provided when the distribution is performed according to detection.

The distribution access system comprises a distribution access point 1, a distribution access point 2, a distribution access point 3, a distribution access point 4, a distribution access point 5 and a distribution access point n, wherein the distribution access point 1 can be communicated with the distribution access point 2, the distribution access point 3, the distribution access point 4, the distribution access point 5 and the distribution access point n, the distribution access point can be communicated with the distribution access point 1, the distribution access point 3, the distribution access point 4, the distribution access point 5 and the distribution access point n, the distribution access point 3 can be communicated with the distribution access point 1, the distribution access point 2, the distribution access point 4, the distribution access point 5 and the distribution access point n, the distribution access point 4 can be communicated with the distribution access point 1, the distribution access point 2, the distribution access point 3 and the distribution access point n, the distribution access point 5 can be communicated with the distribution access point 1, the distribution access point 2, the distribution access point 3, the distribution access point 4 and the distribution access point n, the distribution access point 3 and the distribution access point 5 can be communicated with the distribution access point 1, the distribution access point 2, the distribution access point 3 and the distribution access point n can be communicated with the distribution access point 4, the distribution access point 1, the distribution access point 2 and the distribution access point 4 can be communicated with the distribution access point 4, the distribution access point 1 and the distribution access point 4 can be communicated with the distribution access point 1, the distribution access point 4 and the distribution access point 4 can be communicated with the distribution access point 1 and the distribution access point 4 and the distribution access point n can be communicated with the distribution access point 1, when a distribution point fault occurs among a plurality of distribution access points, the network system can directly avoid the distribution fault point to continuously distribute to the distribution access points which normally operate, the whole transmission system can be continuously maintained, the condition that downtime occurs is avoided, the distribution self-supplementing module comprises a distribution amount 1, a distribution amount 2 and a distribution amount n, wherein when the light supplementation is insufficient at the distribution amount 1, the distribution amount 2 and the distribution amount n can be used for self-supplementing, when the light supplementation is insufficient at the distribution amount 2, the distribution amount 1 and the distribution amount n can be used for self-supplementing, when the light supplementation is insufficient at the distribution amount n, the distribution 1, the distribution amount 2 and the distribution amount n can be used for supplementing when the distribution access points are more or less caused by the occurrence of distribution non-uniformity during transmission, and the distribution access points can be kept to have enough and proper electric pulses by using a self-supplementing method.

The optical transmission device, the method and the network system method are as follows:

s1, controlling the whole light ending and discharging process by a control module;

s2, during the beginning period, light needs to be received through a plurality of interfaces;

s3, classifying the light received by the interfaces respectively;

s4, providing enough light detectors for simultaneous detection according to the light received by the interfaces;

s5, after detecting the light received by the interfaces, integrating the detected light;

s6, uniformly storing the detected light to form electric pulses;

s7, classifying again according to specific distribution positions and contents during the electric pulse generation;

and S8, continuously transmitting the distributed electric pulse until the distributed electric pulse is ended.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. An optical transmission device, a method and a network system, comprising an optical transmission device, a control module, a distribution access system, a distribution partition system and a distribution self-supplementing module, and is characterized in that: the light transmission device comprises a receiving device, a storage unit, a distribution unit and a quantification unit, wherein the receiving device comprises an interface 1, an interface 2 and an interface n, the distribution unit comprises a distribution outlet 1, a distribution outlet 2 and a distribution outlet n, the receiving unit further comprises a light access point module, the light access point module comprises a light classification module, the light classification module is detected by a detection module, the light classification module is used for detecting the light, and a light integration module is provided after the detection, the storage unit further comprises a classification module, and the distribution unit further comprises a transmission module.

2. The optical transmission apparatus, method and network system according to claim 1, wherein: the allocation access system comprises an allocation access point 1, an allocation access point 2, an allocation access point 3, an allocation access point 4, an allocation access point 5 and an allocation access point n, wherein the allocation access point 1 can be used in communication with the allocation access point 2, the allocation access point 3, the allocation access point 4, the allocation access point 5 and the allocation access point n, the allocation access point can be used in communication with the allocation access point 1, the allocation access point 3, the allocation access point 4, the allocation access point 5 and the allocation access point n, the allocation access point 3 can be used in communication with the allocation access point 1, the allocation access point 2, the allocation access point 4, the allocation access point 5 and the allocation access point n, the allocation access point 5 can be used in communication with the allocation access point 1, the allocation access point 2, the allocation access point 3 and the allocation access point n, and the allocation access point 4 can be used in communication with the allocation access point 1, the allocation access point 2, the allocation access point 3 and the allocation access point 4.

3. The optical transmission apparatus, method and network system according to claim 1, wherein: the distribution partition system comprises a distribution access point 1, a distribution access point 3, a distribution access point 4, a distribution access point n and an access terminal fault, wherein when the access terminal fault of the distribution access point exists, the distribution access point can avoid the access terminal fault point to be communicated with other distribution access points for use.

4. The optical transmission apparatus, method and network system according to claim 1, wherein: the self-replenishing module for the dispensing quantity comprises a dispensing quantity 1, a dispensing quantity 2 and a dispensing quantity n, wherein when the light replenishing at the dispensing quantity 1 is insufficient, the self-replenishing can be carried out through the dispensing quantity 2 and the dispensing quantity n, wherein when the light replenishing at the dispensing quantity 2 is insufficient, the self-replenishing can be carried out through the dispensing quantity 1 and the dispensing quantity n, and when the light replenishing at the dispensing quantity n is insufficient, the self-replenishing can be carried out through the dispensing quantity 1 and the dispensing quantity 2.

5. The optical transmission apparatus, method and network system according to claim 1, wherein: the optical transmission device, the method and the network system method are as follows:

s1, controlling the whole light ending and discharging process by a control module;

s2, during the beginning period, light needs to be received through a plurality of interfaces;

s3, classifying the light received by the interfaces respectively;

s4, providing enough light detectors for simultaneous detection according to the light received by the interfaces;

s5, after detecting the light received by the interfaces, integrating the detected light;

s6, uniformly storing the detected light to form electric pulses;

s7, classifying again according to specific distribution positions and contents during the electric pulse generation;

and S8, continuously transmitting the distributed electric pulse until the distributed electric pulse is ended.