CN105867174A - Low altitude security laser control system capable of realizing remote control - Google Patents

Abstract

The invention discloses a low altitude security laser control system capable of realizing remote control. The system comprises a command decision making layer and a local control layer. The command decision making layer comprises a command management unit, an operation panel and a first network optical transmitter and receiver. The command management unit is connected to the operation panel. The command management unit is connected to the first network optical transmitter and receiver through an Ethernet. The local control layer comprises a second network optical transmitter and receiver and a fire control unit. The first network optical transmitter and receiver is connected to the second network optical transmitter and receiver through an optical fiber. The second network optical transmitter and receiver is connected to the fire control unit through the Ethernet. In the invention, a split-type system control system is realized; an optical fiber transmission mode is used, a data transmission bandwidth is guaranteed and simultaneously a transmission distance is expanded to a km magnitude so that disadvantages that an existing control system is not easy to deploy flexibly and a remote control scope is small are well overcome.

Description

Realize the low latitude security protection laser control system of remote control

Technical field

The present invention relates to laser control system, be specifically related to a kind of low latitude security protection laser control system realizing remote control.

Background technology

Due to factors impacts such as the complexity of laser system internal structure, safeties, laser control system is typically deployed in the same area with other subsystem such as light source, thermal control and is spaced a distance, and is placed on the position specified.The all devices such as control computer, hardware control and guidance panel in laser control system, all unification are integrated on rack, control computer and hardware control completes the control to each subsystem by Ethernet and client cables respectively.Operator is controlled operation directly facing the computer on rack and guidance panel.Certain large scale laser instrument is due in large scale, set up between special control, laser control system is deployed between control, and major control equipment all installs concentratedly in this, implement to control to each subsystem by Ethernet, achieve the long-range control in the range of certain distance, but complicated owing to controlling cable, and it is the most limited that it disposes motility.

Summary of the invention

Instant invention overcomes the deficiencies in the prior art, it is provided that a kind of low latitude security protection laser control system realizing remote control.

Security protection laser system in low latitude is changeable due to its application scenarios, and its system deployment mode is the most also by many impacts such as landform/place, manipulation demands, and manipulation seat may be deployed in arrangement adjacent, it is also possible to be deployed in several kilometers even outside dozens of kilometres.According to prior art, concentrate due to control system and dispose, and conventional control cable transmission is apart from limited, is extremely difficult to remotely control the purpose of flexible deployment.Present invention aim at designing one and can meet laser system demand for control, again can the new control system framework of long-range flexible deployment, thus adapt to the deployment requirements of low latitude security protection laser system.

For solving above-mentioned technical problem, the present invention by the following technical solutions:

A kind of low latitude security protection laser control system realizing remote control, including commanding and decision-making layer and local key-course；Described commanding and decision-making layer includes: command and management unit, guidance panel and first network optical transmitter and receiver；Described command and management unit connects described guidance panel, and described command and management unit connects described first network optical transmitter and receiver by Ethernet；Described local key-course includes: the second network optical transmitter and receiver and firepower control unit；Described first network optical transmitter and receiver is connected with described second network optical transmitter and receiver by optical fiber, and described second network optical transmitter and receiver is connected with described firepower control unit by Ethernet.

Further technical scheme is that the integration of equipments of commander decision-making level is on console.

Further technical scheme is that the deployed with devices of local key-course is in launch site.

Further technical scheme is that commander's administrative unit includes: battle state display module, state monitoring module, Fire Unit control module, target are to attack alarm module and data and logger module.

Further technical scheme is that firepower control unit includes: working-flow control module, emission control module, safety interlocking control module and subsystem unit control module.

Further technical scheme is that firepower control unit connects subsystem by controlling cable.

Compared with prior art, the invention has the beneficial effects as follows: present invention achieves the system control sytsem of a kind of separate type, use fiber-optic transfer mode, while ensureing data transfer bandwidth, transmission range is extended to km magnitude, solves the shortcoming that existing control system is difficult to flexible deployment, long-range span of control is less well.

Accompanying drawing explanation

Fig. 1 is the system architecture diagram of one embodiment of the invention.

Detailed description of the invention

All features disclosed in this specification, or disclosed all methods or during step, in addition to mutually exclusive feature and/or step, all can combine by any way.

Any feature disclosed in this specification (including any accessory claim, summary and accompanying drawing), unless specifically stated otherwise, all can be by other equivalences or there is the alternative features of similar purpose replaced.I.e., unless specifically stated otherwise, an example during each feature is a series of equivalence or similar characteristics.

Below in conjunction with the accompanying drawings and the detailed description of the invention of the present invention is described in detail by embodiment.

As it is shown in figure 1, according to one embodiment of present invention, the present embodiment realizes the low latitude security protection laser control system of remote control, and it includes commanding and decision-making layer and local key-course；Described commanding and decision-making layer includes: command and management unit, guidance panel and first network optical transmitter and receiver；Command and management unit passes through emission control client cables attended operation panel, and command and management unit connects described first network optical transmitter and receiver by Ethernet；Local key-course includes: the second network optical transmitter and receiver and firepower control unit；First network optical transmitter and receiver is connected by optical fiber and the second network optical transmitter and receiver, and the second network optical transmitter and receiver is connected with firepower control unit by Ethernet.

Concrete, command and management unit is the main window of operator and system interaction, the core component of Shi Hui decision-making level, provides concentration aobvious control interface for operator.Guidance panel provides Laser emission to control associated button and condition prompting for operator, and by emission control client cables, manipulation information is sent to command and management unit.Task and operation relevant information are sent to first network optical transmitter and receiver by command and management unit by Ethernet, by first network optical transmitter and receiver, the control signal of telecommunication is converted to optical signal, the second network optical transmitter and receiver of this locality it is sent to again by optical fiber optical signal, transfer back to network telecommunication number the most again, received by firepower control unit and carry out logical process, controlling cable finally by each subsystem and realize the control to each subsystem.

Commanding and decision-making layer has lightweight, simplicity feature, and it does not comprise any function relating to subsystem function and Row control, it is provided that operation and aid decision interface, all devices of this layer is all integrated on console；Local key-course has intellectuality, security features, the function such as Row control, subsystem duty and state modulator when offer system is run, unattended operation, the all devices of this layer is all deployed in scene, it is positioned at the same area with each subsystem, different subsystem can be met and equipment controls sequential and controls the requirement of interface.The all of performance element of laser control system is all in this locality, and far-end only realizes interactive function is monitored and controlled.The control framework using separate type achieves system centralized Control and shows separated with system interaction so that console is lightweight and easy to dispose, and enhances and adapts to the motility that different application scene is disposed.

Each state of field control equipment and subsystem by network optical transmitter and receiver, is reached console through optical fiber by the firepower control unit of local key-course, it is achieved remote status monitors.Remote control information also passes through network-optical transmitter and receiver-optical fiber-optical transmitter and receiver-network and further in accordance with instruction execution task and feeds back execution state to local key-course, local key-course.Console interacts with local key-course, and completion system status monitoring, goal directed, combat duty are assigned and perform interception task.

In the present embodiment, operator passes through command and management unit object observing motion time-space relationship, and assigns interception task.Mission bit stream is sent to firepower control unit by Ethernet-> first network optical transmitter and receiver-> optical fiber-> the second network optical transmitter and receiver-> Ethernet, starts flow of task, and controls each subsystem completion system preparation flow process.After meeting and optical condition, firing button on operator's trigger action panel, launch signal emitted control client cables and be sent to firepower control unit by command and management unit, firepower control unit starting laser instrument go out light and stop light, thus completing this subtask.

Preferably, command and management unit, mainly include that battle state display, multiple target aid decision, status monitoring, Fire Unit control, target attacks warning and the function such as data and log recording, provides the centralized Control interface of low latitude security protection laser system for system.

Firepower control unit, mainly includes the functions such as system workflow process control, emission control, safety interlocking control, subsystem unit control.

" embodiment ", " another embodiment ", " embodiment " spoken of in this manual etc., the specific features, structure or the feature that refer to combine the description of this embodiment are included at least one embodiment that the application generality describes.The most multiple local appearance statement of the same race is not necessarily to refer to same embodiment.Furthermore, it is understood that combine any one embodiment when describing a specific features, structure or feature, to be advocated is to combine other embodiments also to fall within the scope of the present invention to realize this feature, structure or feature.

Although reference be made herein to invention has been described for the multiple explanatory embodiment invented, but, it should be understood that those skilled in the art can be designed that a lot of other amendments and embodiment, these amendments and embodiment will fall within spirit disclosed in the present application and spirit.More specifically, in the range of disclosure claim, the building block of theme composite configuration and/or layout can be carried out multiple modification and improvement.In addition to the modification carrying out building block and/or layout and improvement, to those skilled in the art, other purposes also will be apparent from.

Claims (6)

1. the low latitude security protection laser control system realizing remote control, it is characterised in that: include commanding and decision-making Layer and local key-course；Described commanding and decision-making layer includes: command and management unit, guidance panel and first Network optical transmitter and receiver；Described command and management unit connects described guidance panel, and described command and management unit leads to Cross Ethernet and connect described first network optical transmitter and receiver；Described local key-course includes: the second network light end Machine and firepower control unit；Described first network optical transmitter and receiver is by optical fiber and described second network optical transmitter and receiver Connecting, described second network optical transmitter and receiver is connected with described firepower control unit by Ethernet.

The low latitude security protection laser control system realizing remote control the most according to claim 1, its feature exists In the integration of equipments of described commanding and decision-making layer on console.

The low latitude security protection laser control system realizing remote control the most according to claim 1, its feature exists In the deployed with devices of described local key-course in launch site.

The low latitude security protection laser control system realizing remote control the most according to claim 1, its feature exists Include in described command and management unit: battle state display module, state monitoring module, Fire Unit control Molding block, target attack alarm module and data and logger module.

The low latitude security protection laser control system realizing remote control the most according to claim 1, its feature exists Include in described firepower control unit: working-flow control module, emission control module, peace Full interlink control module and subsystem unit control module.

The low latitude security protection laser control system realizing remote control the most according to claim 1, its feature exists Subsystem is connected by controlling cable in described firepower control unit.