CN217467690U - Distributed maintenance support site selection system for military Internet of things - Google Patents

Abstract

The utility model belongs to the technical field of the equipment maintenance support, especially, relate to a distributed maintenance support site selection system towards for military use thing networking. The utility model discloses a low orbit satellite thing networking of 5G mobile communication technology system, the satellite observes and controls feeder link, satellite AMF SMF UPF, low-power consumption wireless wide area network, gNB basic station, carries the power module of car, field operations maintenance shelter, distributed maintenance guarantee addressing service end, each equipment and module. The system can receive remote instruction information of the distributed maintenance support site selection server through the operation vehicle and the field operation maintenance shelter, sense and match the information according to requirements, and return a matching result to the distributed maintenance support site selection server. The distributed maintenance support site selection information acquisition, transmission and interaction oriented to the military Internet of things are realized.

Description

Distributed maintenance support site selection system for military Internet of things

Technical Field

The utility model belongs to the technical field of equipment maintenance support technique and specifically relates to a distributed maintenance support site selection system towards for military use thing networking is related to.

Background

Currently, the internet of things is growing strongly. The most priority and core problem of military application of the internet of things is how to integrate the internet of things into a combined operation and guarantee system thereof on the premise of meeting military requirements, so that the operation capacity and the guarantee efficiency are effectively improved. Demand traction is the prime power of various new technology developments, and with the potential application of the Internet of things in the military field, especially strong traction required by the combined operation of the information battlefield makes the construction of the Internet of things increasingly urgent. The core of the military Internet of things focuses on factors such as battlefield situation perception, intelligent analysis and judgment, action process control and the like, so that the system can effectively operate in an all-around, full-time-domain and full-spectrum mode, and the system operational capacity based on the information system is comprehensively improved. The maintenance support facing the military Internet of things realizes the battlefield accurate sensing from a sensor to maintenance support resources, namely, the comprehensive Internet of things of the whole elements and the whole process of battlefield dynamic sensing, data acquisition and transmission, optimization decision, support resource allocation and scheduling is established.

Under modern high-technology conditions, the war has strong burstiness, the battlefield situation changes rapidly, the battle stage gap is small, the time is a key factor for winning the war, and the ante-branching requirements of the maintenance support system can be met only by constructing a distributed maintenance support system facing the military Internet of things, so that rapid and quick response is realized, and the survival rate is improved. Whether the equipment maintenance support resource allocation position is reasonable or not is directly related to whether the equipment autonomous maintenance support system can provide support for the requirements within the available time range or not, and the level and the efficiency of the provided support service are high and low. The problems that the maintenance support system is configured where and cannot be configured are solved for the military Internet of things, and the efficiency of the maintenance support system is directly influenced.

For military use thing networking, distributed maintenance support system can effectively improve viability and reaction rate, but under the field environment of transregional joint combat, for military use thing networking, current equipment maintenance support system is at following problem:

1. each distributed maintenance support point of the maintenance system needs to be temporarily selected and set according to the overall demand of the support task, whether the land area and the topographic characteristics of the maintenance support point to be set meet the requirements of the field operation maintenance equipment and the implementation of maintenance activities needs to be quickly matched and detected before the site selection is set, and meanwhile, certain environmental conditions including temperature, humidity and dust content cannot be met by the existing equipment maintenance support system.

2. The distributed maintenance support site selection system can improve the survival capability and shorten the response time by arranging the support points in front of and in a scattered way, but the distance between the support points is long, the span is large, and the information path is limited.

3. After the portable maintenance resources are consumed, the resource consumption and the task demand change cannot be automatically sensed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: a distributed maintenance support site selection system for military Internet of things is used for carrying out maintenance support site selection according to the requirements of distributed maintenance support, carrying out requirement superposition judgment according to the land area and the topographic characteristics of maintenance support points, carrying out requirement judgment according to a maintenance environment and sensing the consumption of portable maintenance resources under the requirements of special environments with poor mobile state, poor field communication capacity and long communication distance.

In order to solve the technical problem, the utility model provides a distributed maintenance support site selection system towards for military use thing networking, include low orbit satellite thing networking (1) of 5G mobile communication technical system, satellite measurement and control feeder link (2), satellite AMF SMF UPF (3), low-power consumption wireless wide area network (4), gNB base station (5), carry car (6), field operations maintenance shelter (7), distributed maintenance support site selection service end (8), power module (9) of each equipment and module, field operations maintenance shelter (7) include on-vehicle laser three-dimensional radar (10), environmental monitoring module (11), electronic tags read write line (12), big dipper orientation module (13), edge calculation box (14), on-vehicle laser three-dimensional radar (10), environmental monitoring module (11), electronic tags read write line (12), The Beidou positioning module (13) is connected with the edge computing box (14) through a communication link, the laser three-dimensional radar (10) is arranged at the top of the field maintenance shelter (7), the environment monitoring module (11) is arranged outside the field maintenance shelter (7), and the electronic tag reader-writer (12) is arranged at an inlet and an outlet of the field maintenance shelter (7).

Further, the vehicle-mounted laser three-dimensional radar (10) is one of a rotary laser radar, an MEMS laser radar, a Flash type laser radar or a phased array laser radar.

Further, the low power wireless wide area network (4) is an NB-IoT and/or an LoRa network.

Furthermore, the distributed maintenance support site selection server (8) comprises a GIS server, a military radio frequency tag management server, a maintenance support ledger data server and a display terminal module.

Further, the environment monitoring module (11) is one or more of a temperature sensor, a dust sensor and a humidity sensor.

Compared with the prior art, the utility model, have following apparent advantage:

1. the utility model discloses realized towards for military use thing networking that distributed maintenance support addressing system towards for military use thing networking carries the car and the long-range instruction information that distributed maintenance support addressing service end was received to field operations maintenance shelter, carries out the perception and matches information as required to will match the result passback and give distributed maintenance support addressing service end.

2. The utility model discloses realized towards for military use thing networking that distributed maintenance support addressing system towards for military use thing networking can realize distributing under the field environment that the maintenance support supports some and the interconnection of maintenance support addressing service end data and thing.

Drawings

FIG. 1 is a connection diagram of a distributed maintenance support site selection system for military Internet of things

FIG. 2 connection diagram of square cabin for vehicle loading and field maintenance

Detailed Description

The technical solutions in the embodiments of the present invention will be described in detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only some examples, not all examples, in the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

According to an embodiment of the utility model, combine fig. 1, 2 the utility model discloses a distributed maintenance support site selection system towards for military use thing networking, include low orbit satellite thing networking (1) of 5G mobile communication technology system, satellite measurement and control feeder link (2), satellite AMF SMF UPF (3), low-power consumption wireless wide area network (4), gNB base station (5), carry car (6), field operations maintenance shelter (7), distributed maintenance support site selection service end (8), power module (9) of each equipment and module, field operations maintenance shelter (7) include on-vehicle laser three-dimensional radar (10), environmental monitoring module (11), electronic tags read write line (12), big dipper orientation module (13), edge calculation box (14), on-vehicle laser three-dimensional radar (10), environmental monitoring module (11), electronic tags read write line (12), The Beidou positioning module (13) is connected with the edge computing box (14) through a communication link, the laser three-dimensional radar (10) is arranged at the top of the field maintenance shelter (7), the environment monitoring module (11) is arranged outside the field maintenance shelter (7), and the electronic tag reader-writer (12) is arranged at an inlet and an outlet of the field maintenance shelter (7).

The distributed maintenance support site selection server (8) sends maneuvering instructions and geographical position information of maneuvering target regions to vehicle carriers (6) of various standby distributed support points through an information link formed by a low-orbit satellite Internet of things (1), a satellite measurement and control feeder link (2), a satellite AMF/SMF/UPF (3), a low-power wireless wide area network (4) and a gNB base station (5) which are made by a 5G mobile communication technology, the vehicle carriers (6) receive the instruction information and then pull the field maintenance shelter (7) to the maneuvering target regions under the navigation of a Beidou positioning module (13), the field maintenance shelter (7) rapidly expands a vehicle-mounted laser three-dimensional radar (10) and an environment monitoring module (11) to sense required region information, topographic characteristic information and environmental condition information and transmits the sensed information to an edge computing box (14), the edge computing box (14) matches the received information with prestored land width area, topographic characteristics and environmental condition requirement information, returns the information according to the matching result and determines the site selection at the distributed maintenance and security site selection server (8), returns the information to the distributed maintenance and security site selection server (8) according to the matching result and determines the site selection area again, and waits for receiving instruction information. After the maintenance is carried out, the electronic tag reader-writer (12) automatically reads maintenance resource radio frequency information consumed in the field maintenance shelter (7), transmits the maintenance resource radio frequency information to the edge calculation box (14), judges whether a preset threshold value is reached or not, transmits the information to the distributed maintenance support site selection server (8) through an information link when the threshold value condition is met, and waits for a new maneuvering instruction and geographical position information of a maneuvering target region.

The above embodiments are provided only for the purpose of describing the present invention, and do not limit the scope of the present invention. Various equivalent substitutions and modifications can be made without departing from the spirit and principles of the invention, and are intended to be within the scope of the invention.

Claims (4)

1. The utility model provides a distributed maintenance support addressing system towards for military use thing networking which characterized in that includes: the system comprises a low-orbit satellite Internet of things of 5G mobile communication technology system, a satellite measurement and control feeder link, a satellite AMF/SMF/UPF, a low-power consumption wireless wide area network, a gNB base station, a vehicle carrier, a field operation maintenance shelter, a distributed maintenance and guarantee site selection service end, and a power supply module of each device and module, wherein the field operation maintenance shelter comprises a vehicle-mounted laser three-dimensional radar, an environment monitoring module, an electronic tag reader-writer, a Beidou positioning module and an edge calculation box, the vehicle-mounted laser three-dimensional radar, the environment monitoring module, the electronic tag reader-writer and the Beidou positioning module are connected with the edge computing box through a communication link, the laser three-dimensional radar is arranged at the top of the field maintenance shelter, the environment monitoring module is arranged outside the field maintenance shelter, and the electronic tag reader-writer is arranged at an inlet and an outlet of the field maintenance shelter.

2. The distributed maintenance, guarantee and location system for the military internet of things according to claim 1, wherein the vehicle-mounted laser three-dimensional radar is one of a rotary laser radar, an MEMS laser radar, a Flash type laser radar, or a phased array laser radar.

3. The military internet of things-oriented distributed maintenance and insurance addressing system of claim 1, wherein the low power wireless wide area network is an NB-IoT and/or a LoRa network.

4. The military internet of things-oriented distributed maintenance and guarantee addressing system of claim 1, wherein the environment monitoring module is one or more of a temperature sensor, a dust sensor and a humidity sensor.

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