CN211352214U - Command system simulation debugging and rapid detection equipment - Google Patents

Abstract

The utility model discloses a command system simulation debugging and rapid detection device, which comprises a back frame and a detection device host which is detachably arranged on the back frame; the back frame comprises a back frame body, braces arranged on the front side of the back frame body, a supporting plate and an accessory bag, wherein the supporting plate and the accessory bag are arranged on the rear side of the back frame body; the supporting plate is positioned above the accessory bag; the detection equipment host is fixedly arranged on the supporting plate through butterfly screws; the accessory bag is internally provided with a test cable and accessories; the detection equipment host and the tested equipment are interconnected through a test cable; the utility model discloses a command system simulation debugging and short-term test equipment can debug and the field operations simulation network deployment that detects, realizes the functional performance detection of monomer equipment unit car, and intelligence is judged and is generated with the test report is automatic, and technical inspection and battlefield under the field operations environment salvage and detect.

Description

Command system simulation debugging and rapid detection equipment

Technical Field

The utility model relates to a command system simulation debugging and quick check out test set belongs to for military use equipment technical field.

Background

Aiming at the fact that a command system consists of military (teachers), traveling (groups/groups), camping and multi-stage multi-vehicle connection, when a single vehicle enters a repair place and a major repair factory for repair, networking communication and joint debugging joint test with the whole command system lack corresponding technical means; the command system equipment level communication and networking test relate to multiple communication modes and protocols, the traditional universal instrument and meter cannot complete the construction of the test environment, and the like, and the command system simulation debugging and rapid detection equipment needs to be researched and developed urgently, the command system multi-level communication and networking mode is simulated, the system test and joint debugging and fault detection are carried out, and the technical problem of repair of troops at all levels is solved.

The command information system is used as typical novel networked, systematized and informationized equipment and has the characteristics of more single equipment, various technical states, multiple communication networking means, various auxiliary test equipment and the like; in order to solve the problems of difficulty in guaranteeing the debugging and detecting equipment, high debugging and detecting work intensity, high debugging and detecting judgment difficulty and the like during simulation debugging, fault detection and technical state inspection of equipment, a command system simulation debugging and rapid detection device is urgently needed to be designed.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a command system simulation debugging and short-term test equipment can debug and detect field operations simulation network deployment, accomplishes the functional performance detection of monomer equipment unit car, realizes that intelligence is judged and technical inspection and battlefield rush-repair under the test report automatic generation and the field operations environment detect.

The utility model discloses a command system simulation debugging and quick detection device, including the back of the body frame, and can dismantle the main frame of the detection device installed on the back of the body frame, the back of the body frame is used for bearing and carrying, the main frame of the detection device is installed on the layer board of the back of the body frame through 5 butterfly screws, the installation, dismantle convenient, swift; the back frame comprises a back frame body, braces arranged on the front side of the back frame body, a supporting plate and an accessory bag, wherein the supporting plate and the accessory bag are arranged on the rear side of the back frame body; the supporting plate is positioned above the accessory bag; the detection equipment host is fixedly arranged on the supporting plate through butterfly screws; the accessory bag is internally provided with a test cable and accessories; the detection equipment host and the tested equipment (tested unit vehicle/single equipment) are interconnected through a test cable, and accessories comprise a connector, a junction box, a DuPont wire, a use and maintenance specification and the like;

the detection equipment host consists of a case, a power supply module, a display, a keyboard and a mouse, a hard disk, an indicator light and a detection board group; the display, the keyboard and the mouse and the detection plate group are respectively and electrically connected with the power supply module; the display, the keyboard and the mouse, the indicator light and the hard disk are electrically connected with the detection board set through the mother board respectively;

the case is formed by welding aluminum alloy materials and comprises a rear panel, a front panel and an upper panel, wherein the rear panel is used for mounting a mother board and is provided with a power supply, a switch and an interface socket, the front panel is used for mounting a lifting handle and a nameplate, and the upper panel is used for mounting a display screen, a keyboard, a mouse and an indicator light; the left part of the machine case is of a cage structure; the detection plate group is arranged in a cage structure of the chassis;

the power supply module comprises a power supply board, and a direct-current power supply, a rechargeable lithium battery and an alternating-current power supply which are electrically connected with the power supply board; the alternating current power supply is electrically connected with the power panel through the power adapter; the rechargeable lithium battery is arranged on the right side inside the case;

the detection board group comprises an A8 mainboard for providing control and data channels for each analog detection unit, a networking simulation board for simulating various communication networking modes of the joint tactical communication system, a first interface detection board for realizing HDSL remote transmission, SDSL remote transmission, wired remote transmission, V.35/V.28 interface, optical port/connection detection, a second interface detection board for realizing telephone port, voice port, CAN bus and FDDI network port detection, a connectivity detection board for realizing A port, K port, E1 port and Ethernet port connectivity detection, a radio station transmission driving board for driving radio station transmission through data and audio, detecting radio station radio frequency signals and generating radio station signals, driving the radio station to receive, detecting radio station data and audio, realizing performance index test of the radio station, and a radio station detection board for generating and receiving 600M-5 GHz radio frequency signals, the radio station detection board is used for testing to realize the high-frequency wireless detection board for testing the functional performance of the wireless local area network vehicle-mounted platform and the servomotor;

the A8 mainboard, the networking simulation board, the first interface detection board, the second interface detection board, the connectivity detection board and the radio station detection board are respectively connected with the motherboard; the high-frequency wireless detection board is electrically connected with the radio station detection board.

A detection system is arranged in the detection plate set; the detection system comprises a networking configuration module for configuring the networking test of a remote transmission group path, an A port group path, an ultra-short wave radio station (K port), a high-speed radio station (E1) and the like; the network test module is used for finishing the test parameter settings of the host address query and setting of the detection equipment, the detection address type, the address data query and setting, the test delay, the test times, the test mode and the like, the test result calculation and display, and the test starting and stopping control; and an interface parameter configuration module for configuring interface mode and rate during interface detection and setting detected data port and parameters during data port detection; the interface detection module is used for generating a detection command according to the detection object and the interface parameters, sending the detection command to the corresponding interface detection board and calculating interface detection result data; the wireless parameter configuration module is used for setting detection objects and related parameters when the radio station, the wireless local area network vehicle-mounted platform and the relay machine are detected, the wireless detection module is used for generating detection commands according to the detection objects and the parameters, sending the detection commands to the radio station detection board and the high-frequency wireless detection board, calculating detection result data and realizing the detection of the functional performance of the radio station, the wireless local area network vehicle-mounted platform and the relay machine, and the power control module is used for managing and controlling the power supplies of all unit boards, acquiring and displaying electric quantity and practicing electric quantity alarm; the technical inspection module is used for calling modules such as networking test, network test, interface test, wireless test and the like for detection according to the detection mode associated with the nodes of the flow chart, generating a detection record and calculating the technical state of the equipment; and the flow chart editing module is used for editing the technical inspection flow chart according to the technical characteristics and the technical service requirements of the equipment, editing the detection parameters and the technical requirements of the detection mode of the association of each flow chart node, downloading, transmitting and uploading the flow chart in a file form, and realizing mutual transmission and use.

Furthermore, the A8 mainboard is provided with an analog network, an Ethernet port, a serial port and a USB port; the A8 mainboard is connected with a display, a mouse and a keyboard through a motherboard.

Further, the upper panel is hinged with a sun visor; the movable cover of the sun shield is arranged above the display screen.

Furthermore, the left side surface, the right side surface and the front panel of the case are respectively provided with a heat dissipation groove.

As a preferred embodiment, the wrap angles are fixed at the top corners of the case, and the wrap angles are installed at the 8 top corners of the case, so that the case has a vibration-proof effect and is convenient to place.

Furthermore, the detection board group is inserted into a slot of the motherboard through a guide rail, and signals between the boards are connected and exchanged on the motherboard.

The detection device comprises a detection device main machine, a pull rod type rotational molding packaging box, a back frame and an accessory area, wherein the detection device main machine is arranged in the detection device main machine; the detection equipment host is arranged on the back frame and is integrally placed into the packing box, various accessories are placed in the accessory bag of the back frame, and various cables and junction boxes are placed in the accessory area; before a task is performed, necessary cables and junction boxes are placed in a backpack according to the detected object and the task requirement, and the backpack is carried to perform the task.

Compared with the prior art, the utility model discloses a command system simulation debugging and quick check out test set, (1) for repairing the mechanism at all levels and developing the fault recurrence before the maintenance, debugging and detecting in the maintenance, detecting after the maintenance and accepting and provide the technological means, need not dispose special frock equipment, reduce cost, raise the efficiency to be the effective tool that supports the maintenance, patrols and examines and repair; (2) the system simulation networking and test diagnosis means are provided for equipment to use teams to carry out daily maintenance and technical service inspection, and especially in the major training, exercise and operation of the army, the equipment state is rapidly determined before the war, battlefield first-aid repair detection is carried out during the war, equipment state recovery detection is carried out after the war, and equipment technical support is provided for the army to carry out training; (3) the system provides informatization, networking and intelligent means for field inspection and acceptance of military representatives and army units of the undertaking units, reduces the configuration of field inspection and inspection tooling equipment, and improves the efficiency and quality of field inspection and acceptance; (4) the device provides effective means and tools for technical support teams of equipment bearing units to carry out technical services such as equipment inspection, patrol and repair and the like, and the technical inspection, fault location and maintenance of the equipment are realized by using the detection and inspection equipment.

Drawings

Fig. 1 is a schematic view of the installation structure of the host and the back frame of the detection device in the back carrying state of the utility model.

Fig. 2 is a schematic view of the installation structure of the host and the back frame of the detection device in the working state of the present invention.

Fig. 3 is a schematic diagram of the principle of the host computer of the detection device of the present invention.

Fig. 4 is the external structure schematic diagram of the host of the detection device of the present invention.

Fig. 5 is a schematic diagram of the principle of the inspection system of the present invention.

Fig. 6 is a flow of maintenance, inspection and application of the present invention.

Fig. 7 is the utility model discloses a combat training uses and detects application flow.

Fig. 8 is a flow of the troubleshooting inspection operation of the present invention.

FIG. 9 is the utility model discloses a battlefield is salvageed and is detected application flow

FIG. 10 is a task sub-item logical relationship diagram of the present invention.

The parts in the drawings are marked as follows: 1-back frame, 11-back frame body, 12-back belt, 13-supporting plate, 14-accessory bag, 2-detection equipment host, 21-case, 212-front panel, 213-upper panel, 22-power module, 221-power panel, 222-rechargeable lithium battery, 223-power adapter, 23-display, 24-keyboard mouse, 25-hard disk, 26-indicator light, 27-detection panel group, 271-A8 main board, 272-networking simulation board, 273-first interface detection board, 274-second interface detection board, 275-connectivity detection board, 276-radio detection board, 277-high frequency wireless detection board, 28-mother board, 3-sunshading board, 4-radiating groove and 5-wrap angle.

Detailed Description

The command system simulation debugging and rapid detection device shown in fig. 1 to 5 comprises a back frame 1 and a detection device host 2 detachably mounted on the back frame 1; the back frame 1 comprises a back frame body 11, braces 12 arranged on the front side of the back frame body 11, a supporting plate 13 and an accessory bag 14 arranged on the rear side of the back frame body 11; the pallet 13 is positioned above the accessory bag 14; the detection equipment main machine 2 is fixedly arranged on the supporting plate 13 through butterfly screws 3; the accessory bag 14 is internally provided with a test cable and accessories; the detection equipment host 2 is connected with the tested equipment through a test cable;

the detection equipment host 2 consists of a case 21, a power supply module 22, a display 23, a keyboard and a mouse 24, a hard disk 25, an indicator lamp 26 and a detection plate group 27; the display 23, the keyboard and the mouse 24 and the detection plate group 27 are respectively electrically connected with the power supply module 22; the display 23, the keyboard and the mouse 24, the indicator lamp 26 and the hard disk 25 are respectively and electrically connected with the detection plate group 27 through a mother board 28;

the case 21 is welded by aluminum alloy materials and comprises a rear panel (not shown) for mounting a mother board and providing a power supply, a switch and an interface socket, a front panel 212 for mounting a handle and a nameplate, and an upper panel 213 for mounting a display screen, a keyboard, a mouse and an indicator light; the left part of the case 21 is of a cage structure; the detection plate group 27 is arranged in a cage structure of the case 21;

the power module 22 comprises a power panel 221, and a direct current power supply, a rechargeable lithium battery 222 and an alternating current power supply which are electrically connected with the power panel 221; the alternating current power supply is electrically connected with the power panel 221 through the power adapter 223; the rechargeable lithium battery 222 is arranged on the right side inside the case 21;

the detection board set 27 comprises an A8 mainboard 271 for providing control and data channels for each analog detection unit, a networking simulation board 272 for simulating various communication networking modes of the joint tactical communication system, a first interface detection board 273 for realizing HDSL remote transmission, SDSL remote transmission, wired remote transmission, V.35/V.28 interface, optical port/connection detection, a second interface detection board 274 for realizing telephone port, voice port, CAN bus and FDDI network port detection, a connectivity test board 275 for realizing A port, K port, E1 port and Ethernet port connectivity detection, a radio station 276 for driving radio station transmission through data and audio, detecting radio station signals, generating radio station radio frequency signals, driving reception, detecting radio station data and audio, realizing performance index test of the radio station, and a radio station 276 for generating and receiving 600M-5 GHz radio frequency signals, a radio station detection board is handed to a high-frequency wireless detection board 277 for testing the functional performance of the wireless local area network vehicle-mounted platform and the servomotor;

the A8 main board 271, the networking simulation board 272, the first interface detection board 273, the second interface detection board 274, the connectivity detection board 275 and the radio station detection board 276 are respectively connected with the motherboard 28; the high frequency radio detection board 277 is electrically connected to the station detection board 276.

A detection system is arranged in the detection plate group 27; the detection system comprises a networking configuration module for configuring the networking test of a remote transmission group path, an A port group path, an ultra-short wave radio station (K port), a high-speed radio station (E1) and the like; the network test module is used for finishing the test parameter settings of the host address query and setting of the detection equipment, the detection address type, the address data query and setting, the test delay, the test times, the test mode and the like, the test result calculation and display, and the test starting and stopping control; and an interface parameter configuration module for configuring interface mode and rate during interface detection and setting detected data port and parameters during data port detection; the interface detection module is used for generating a detection command according to the detection object and the interface parameters, sending the detection command to the corresponding interface detection board and calculating interface detection result data; the wireless parameter configuration module is used for setting detection objects and related parameters when the radio station, the wireless local area network vehicle-mounted platform and the relay machine are detected, the wireless detection module is used for generating detection commands according to the detection objects and the parameters, sending the detection commands to the radio station detection board and the high-frequency wireless detection board, calculating detection result data and realizing the detection of the functional performance of the radio station, the wireless local area network vehicle-mounted platform and the relay machine, and the power control module is used for managing and controlling the power supplies of all unit boards, acquiring and displaying electric quantity and practicing electric quantity alarm; the technical inspection module is used for calling modules such as networking test, network test, interface test, wireless test and the like for detection according to the detection mode associated with the nodes of the flow chart, generating a detection record and calculating the technical state of the equipment; and the flow chart editing module is used for editing the technical inspection flow chart according to the technical characteristics and the technical service requirements of the equipment, editing the detection parameters and the technical requirements of the detection mode of the association of each flow chart node, downloading, transmitting and uploading the flow chart in a file form, and realizing mutual transmission and use.

The A8 main board 271 is provided with an analog network, an Ethernet port, a serial port and a USB port; the A8 main board 271 is connected with the display 23, the mouse and the keyboard 24 through the motherboard 28.

The upper panel 213 is hinged with a sun visor 3; the sun shield 3 is movably covered above the display screen 23.

The left and right side faces and the front panel of the case 21 are respectively provided with a heat dissipation groove 4.

And a wrap angle 5 is fixed at the top corner of the case 21.

The detection board group 27 is inserted into a slot of the motherboard 28 through a guide rail, and signals between boards are exchanged on the motherboard 28.

The detection device also comprises a pull rod type rotational molding packing box (not shown), and a back frame provided with a detection device main machine is placed in the pull rod type rotational molding packing box.

The utility model discloses a command system simulation debugging and quick check out test set, the check out test set host computer is the core of entire system, for communication network deployment, interface link provide channel control, accomplish signal, data format conversion etc.; the wireless communication networking test is realized by connecting the interface with a tested unit vehicle/subsystem and single equipment and simulating various communication networking modes; simulating various interface signals, and performing data and control signal interaction with the interfaces of the single equipment/unit vehicle to be tested to realize comprehensive detection of the single equipment/unit vehicle; driving wireless equipment (a radio station, a wireless local area network vehicle-mounted station and a servomotor) to transmit by using data and audio, and detecting a radio frequency signal of the wireless equipment; radio frequency signals of various frequency bands are generated, wireless equipment is driven to receive the radio frequency signals, and data and audio of the radio frequency signals are detected, so that various performance indexes of the radio station are detected.

The utility model discloses a command system simulation debugging and rapid detection equipment detection application process, which comprises the steps of equipment maintenance, war training use, fault repair, battlefield first-aid repair and the like in a command information system, and equipment detection; as shown in fig. 6, during maintenance, the technical status is mainly checked, and faults are found and eliminated in time to ensure that the equipment is always in a good state; as shown in fig. 7, before the battle training is used, the equipment is subjected to technical state inspection and evaluation, and a basis is provided for equipment use; as shown in fig. 8, before the fault is repaired, the equipment is subjected to technical state inspection and fault detection positioning; in the maintenance process, debugging detection is carried out on the equipment and the effectiveness of maintenance is verified; after the maintenance is finished, checking and detecting the equipment; as shown in fig. 9, battlefield emergency repair detection emphasizes rapid detection and positioning of faults, and has outstanding requirements on field adaptive capacity and comprehensive detection capacity of detection equipment.

The utility model discloses an its key technology of command system simulation debugging and short-term test equipment includes:

the simulation networking technology comprises the following steps:

the composition and various types of command information system equipment composition structures, technical systems, networking modes, interface compositions and other aspects of the weapons have obvious differences; in the networking mode, a remote transmission group path, an A port group path, a short-wave radio station, an ultra-short-wave radio station, a high-speed data radio station, an optical fiber, an Ethernet, serial port communication and the like are provided; the networking object is provided with a command vehicle internal local area network and a command workshop interconnection network; in the information flow, external information is received to a command terminal and needs to pass through 10 devices and dozens of information nodes, and the interface types, the technical systems, the data formats and the line sequence definitions of the nodes are different; when the command information system is used as typical system-level equipped informatization equipment and carries out networking test on a system level, a unit vehicle/subsystem and single equipment, various communication networking modes need to be provided externally, and network detection environments are provided for various types of command information systems; therefore, according to the test requirements, based on the communication protocol of the command system, the duplex communication networking process of the tested object is simulated, and command vehicles, gun carriage interface equipment, reconnaissance interface equipment, after-loading interface equipment and the like at all levels are configured in a simulated manner, so that a communication networking working environment is provided for the tested object; the utility model discloses a check out test set utilizes networking simulation board and connectivity pick-up plate, has adopted various networking modes timesharing to use, and the same interface uses different standard program to adapt to multiple networking modes, uses the buffer technique to guarantee interface speed, and wireless adoption dress and simulation combined mode are established the communication link, have effectively realized the construction of multiple simulation networking modes; the A8 mainboard integrates the functions of I/O control, data channel, analog network and switch, constructs various communication networking channels under the control of the system, and establishes an analog network system; the simulation network is isolated from the master control network and the switch network, the master control network and the switch network are in a relationship between a terminal and the network, the problem of circulation among the networks is solved, the master control network, the detected equipment, the local area network of the simulation network and the internet are flexibly constructed, and effective network circulation is provided for networking test; in addition, the design of the detection system realizes that different site address parameters are configured according to different tested objects, different communication protocols are matched, signal excitation and driving are provided, a working environment of network communication is provided for the tested objects, technical state data acquisition is carried out, and performance testing and fault diagnosis are completed;

(II) a wireless detection and excitation technology, which comprises the following specific steps:

(1) the frequency combination and frequency division technology is adopted, the problems of high-frequency radio frequency signal detection and excitation are solved, the high-frequency radio frequency signal is decomposed, and sampling detection is carried out on the high-frequency radio frequency signal; synthesizing a high-frequency radio-frequency signal by using a plurality of low-frequency radio-frequency signal channels, and driving the wireless equipment to detect; (2) radio frequency signals of various wireless devices are generated and input to a radio frequency port of the tested device to detect data and audio of the tested device, so that the problem that the data and audio detection needs to be driven by the radio frequency signals is solved, the problem that standards of radio frequency signals of various radio stations are inconsistent is solved, the radio frequency receiving test is realized, and the universality is good; (3) testing various wireless equipment parameters of the army in active service, determining a normal state judgment value by combining corresponding parameter technical requirements, and using the normal state judgment value for wireless equipment test judgment; (4) through various wireless device data ports, wireless device parameters are inquired, and the detection of the wireless device data ports is realized; the K port and the E1 port adopt an interface detection mode; the audio parameter test of the wireless equipment is combined with the interface detection of the audio port of the wireless equipment, so that the fault can be further positioned;

(III) dynamic command relationship construction technology:

the utility model analyzes the use establishment, the actual configuration, the command relationship and the technical system of the command system equipment with various models, in particular to the analysis of the configuration and the command relationship of the command control equipment army which is comprehensively integrated by a plurality of group military information systems; analyzing and summarizing all possible command relations of each detection object, and extracting the relation between the simulation identity and the networking mode and the networking parameters of the simulation identity; in the function setting of the detection system, a special message bus responding to the composite operation and the associated operation of a user is defined, the control and the data option are dynamically configured, various command relations can be dynamically constructed, and the misoperation can be avoided; under the condition of a complex information flow, the setting of networking modes, networking parameters, networking mode and networking parameter control networking simulation channels and interface parameters is controlled by establishing a command relationship, so that the effective conversion of each node data and the effective control of each hardware unit are realized.

(IV) field operation environment adaptation technology:

the detection equipment of the utility model is applied to repair mechanisms and equipment at all levels for use, has various use modes and environments such as indoor use, vehicle-mounted use, portable use, field operation use and the like, and has strong field operation adaptability; the utility model provides a plurality of field networking capabilities, and can be networked with the command car in a mode of A port group path, remote transmission group path, short wave radio station, ultra-short wave radio station, high speed data radio station, Ethernet and the like, and the networking distance is basically the same as that of the equipment; the utility model discloses taken three kinds of power supply modes of external 220V interchange, 10 ~ 32V direct current and built-in battery, battery powered continuous operation time can reach 8 hours, and automatic charging to the battery during external power supply can directly use the power on the command car.

The utility model discloses a short-term test equipment adopts the construction of dynamic command model, and it specifically as follows: the combat units with different systems, different construction systems and different tasks have different command flows and are completed by different information flows; different requirements of various force compositions, various types of equipment, various mission tasks and various regions and scenes are fully considered, the field detection equipment is required to dynamically construct a command model as required, and the flexible construction of command relations, command flows and information flows is realized so as to realize the optimal matching between a command control organization scheme and a mission environment; the detection equipment utilizes a dynamic command model construction technology to construct command relations and simulate actual combat operation processes, and mainly comprises the following steps:

the mission task modeling is to determine a combat target according to a combat mission and a combat task given by a superior, and further decompose the mission task into a plurality of task sub-items based on a real battlefield environment and a battlefield situation, wherein the granularity of the task sub-items is matched with available command and control resources; the concrete contents of mission task modeling include: analyzing the logical relationship and the data relationship of the task sub-items, time constraint of the task sub-items, resource constraint of the task sub-items and the like, and evaluating the feasibility, complexity and rationality of the mission task; the logical and data relationships of the task sub-items can be represented by directed adjacency graphs in graph theory, as shown in FIG. 10, then the adjacency matrix of task sub-item 1 through task sub-item 6 can be represented as follows:

the time constraint and the resource constraint can also be expressed by a matrix;

secondly, the modeling of the command resources is carried out, and the command resources need to show own functions and performances so as to embody the communication networking capability of the command resources, namely communication objects and communication contents (such as command information, investigation information, geographic information and the like); the performance is mainly the time and other resource requirements needed for completing tasks within the scope of the performance; the time performance of the time-sensitive task needs to be reflected because the time-sensitive task corresponds to the time-sensitive task; the granularity of the command and control resource modeling can be adjusted according to the combat requirement, for example, the command vehicle can be modeled, a certain device on the command vehicle can also be modeled, a specific function of a certain device can also be modeled, and the model matrix is irrelevant to the modeling granularity;

thirdly, matching task resources, wherein the problem of task resource matching refers to selecting proper resources from available resources based on certain principles and rules according to the requirement of mission tasks and defining the data and information interaction relationship; the resource optimization problem is analyzed from the aspect of operational research; assuming that its optimization objective is E (which may be the shortest communication time or the smallest communication data), its available resources are R, and the constraints of the various aspects are T, the optimization problem may be denoted as minE,

sub.R,T，

wherein the content of the first and second substances,

R＝{R₁,R₂,…,R_n}，

T={T₁,T₂,…,T_m}，

multiple resources and multiple constraints are represented; and optimizing the task resource matching by using a genetic algorithm, so as to realize resource optimization and avoid redundancy.

The above-mentioned embodiment is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles of the present invention are included in the claims of the present invention.

Claims (8)

1. The utility model provides a command system simulation debugging and quick check out test set which characterized in that: comprises a back frame and a detection equipment host which is detachably arranged on the back frame; the back frame comprises a back frame body, braces arranged on the front side of the back frame body, a supporting plate and an accessory bag, wherein the supporting plate and the accessory bag are arranged on the rear side of the back frame body; the supporting plate is positioned above the accessory bag; the detection equipment host is fixedly arranged on the supporting plate through butterfly screws; the accessory bag is internally provided with a test cable and accessories; the detection equipment host and the tested equipment are interconnected through a test cable;

the detection equipment host consists of a case, a power supply module, a display, a keyboard and a mouse, a hard disk, an indicator light and a detection board group; the display, the keyboard and the mouse and the detection plate group are respectively and electrically connected with the power supply module; the display, the keyboard and the mouse, the indicator light and the hard disk are electrically connected with the detection board set through the mother board respectively;

the case is formed by welding aluminum alloy materials and comprises a rear panel, a front panel and an upper panel, wherein the rear panel is used for mounting a mother board and is provided with a power supply, a switch and an interface socket, the front panel is used for mounting a lifting handle and a nameplate, and the upper panel is used for mounting a display screen, a keyboard, a mouse and an indicator light; the left part of the machine case is of a cage structure; the detection plate group is arranged in a cage structure of the chassis;

the power supply module comprises a power supply board, and a direct-current power supply, a rechargeable lithium battery and an alternating-current power supply which are electrically connected with the power supply board; the alternating current power supply is electrically connected with the power panel through the power adapter; the rechargeable lithium battery is arranged on the right side inside the case;

the detection board group comprises an A8 mainboard for providing control and data channels for each analog detection unit, a networking simulation board for simulating the communication networking mode of the joint tactical communication system, a first interface detection board for realizing HDSL remote transmission, SDSL remote transmission, wired remote transmission, V.35/V.28 interface, optical port/connection detection, a second interface detection board for realizing telephone port, voice port, CAN bus and FDDI network port detection, a connectivity detection board for realizing A port, K port, E1 port and Ethernet port connectivity detection, a radio station detection board for driving the radio station to transmit through data and audio, detecting radio station radio frequency signals, generating radio station radio frequency signals, driving the radio station to receive, detecting radio station data and audio, realizing the performance index test of the radio station, and a radio station detection board for generating and receiving 600M-5 GHz radio frequency signals, the radio station detection board is used for testing to realize the high-frequency wireless detection board for testing the functional performance of the wireless local area network vehicle-mounted platform and the servomotor;

the A8 mainboard, the networking simulation board, the first interface detection board, the second interface detection board, the connectivity detection board and the radio station detection board are respectively connected with the motherboard; the high-frequency wireless detection board is electrically connected with the radio station detection board.

2. The command system simulation debugging and rapid detection device of claim 1, wherein: a detection system is arranged in the detection plate set; the detection system comprises a networking configuration module for configuring during networking tests of a remote transmission group path, an A port group path, an ultra-short wave radio station, a high-speed radio station and the like; the network test module is used for finishing the test parameter settings of the host address query and setting of the detection equipment, the detection address type, the address data query and setting, the test delay, the test times, the test mode and the like, the test result calculation and display, and the test starting and stopping control; and an interface parameter configuration module for configuring interface mode and rate during interface detection and setting detected data port and parameters during data port detection; the interface detection module is used for generating a detection command according to the detection object and the interface parameters, sending the detection command to the corresponding interface detection board and calculating interface detection result data; the wireless parameter configuration module is used for setting detection objects and related parameters when the radio station, the wireless local area network vehicle-mounted platform and the relay machine are detected, the wireless detection module is used for generating detection commands according to the detection objects and the parameters, sending the detection commands to the radio station detection board and the high-frequency wireless detection board, calculating detection result data and realizing the detection of the functional performance of the radio station, the wireless local area network vehicle-mounted platform and the relay machine, and the power control module is used for managing and controlling the power supplies of all unit boards, acquiring and displaying electric quantity and practicing electric quantity alarm; the technical inspection module is used for calling modules such as networking test, network test, interface test, wireless test and the like for detection according to the detection mode associated with the nodes of the flow chart, generating a detection record and calculating the technical state of the equipment; and the flow chart editing module is used for editing the technical inspection flow chart according to the technical characteristics and the technical service requirements of the equipment, editing the detection parameters and the technical requirements of the detection mode of the association of each flow chart node, downloading, transmitting and uploading the flow chart in a file form, and realizing mutual transmission and use.

3. The command system simulation debugging and rapid detection device of claim 1, wherein: the A8 mainboard is provided with an analog network, an Ethernet port, a serial port and a USB port; the A8 mainboard is connected with a display, a mouse and a keyboard through a motherboard.

4. The command system simulation debugging and rapid detection device of claim 1, wherein: the upper panel is hinged with a sun shield; the movable cover of the sun shield is arranged above the display screen.

5. The command system simulation debugging and rapid detection device of claim 1, wherein: the left side surface, the right side surface and the front panel of the case are respectively provided with a heat dissipation groove.

6. The command system simulation debugging and rapid detection device of claim 1, wherein: and a wrap angle is fixed at the vertex angle of the case.

7. The command system simulation debugging and rapid detection device of claim 1, wherein: the detection plate group is inserted into a slot of the motherboard through a guide rail, and signals between the plates are connected and exchanged on the motherboard.

8. The command system simulation debugging and rapid detection device of claim 1, wherein: the detection device is characterized by further comprising a pull rod type rotational molding packaging box, and a back frame provided with a detection device main machine is placed in the pull rod type rotational molding packaging box.

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