CN109654462B - Intelligent lamp post function extension system - Google Patents

Abstract

The invention discloses an intelligent lamp post function extension system, which comprises a main control module and a plurality of interface modules, wherein the main control module is connected with the interface modules; the interface module is arranged in an interface space arranged on the lamp post, the interface module is connected with the existing functional module of the lamp post, and the interface module is also provided with a hot plug interface for the access of external functional equipment; the main control module is connected with the interface module and used for supervising the working state of the interface module and controlling the shared resource or service of the lamp post through the interface module. According to the intelligent lamp post function extension system provided by the invention, the set interface module not only can monitor and control shared resources or services of the lamp post, but also is provided with the hot plug interface for connecting different external function devices, and the lamp post is not required to be fixedly modified when the external function is required to be additionally arranged, so that the lamp post modification project is more flexible and various, the extension function of the lamp post which can be developed is greatly widened, and the system is more suitable for development of future technologies.

Description

Intelligent lamp post function extension system

Technical Field

The invention relates to the technical field of functional systems, in particular to an intelligent lamp post function extension system.

Background

The lamp post is used as a common infrastructure and is spread at every corner of the city, and the infrastructure is only used for illumination and is a resource waste. The existing intelligent lamp post reconstruction projects all provide the extending functions of the lamp post beyond illumination, such as monitoring, shooting and the like, and are provided with system unified supervision. However, these functions are modifications of the fixation on the lamppost, and the extensibility and flexibility are still insufficient.

Accordingly, the prior art is subject to improvement and development.

Disclosure of Invention

The invention provides an intelligent lamp post function extension system, and aims to solve the technical problems that the existing intelligent lamp post modification project belongs to modification fixedly added on a lamp post and the extensibility and flexibility are insufficient.

The technical scheme of the invention is as follows:

an intelligent lamp post function extension system comprises a main control module and a plurality of interface modules; the interface module is arranged in an interface space arranged on the lamp post, the interface module is connected with the existing functional module of the lamp post, and the interface module is also provided with a hot plug interface for the access of external functional equipment; the main control module is connected with the interface module and used for supervising the working state of the interface module and controlling the shared resource or service of the lamp post through the interface module.

The intelligent lamp post function extension system is characterized in that the main control module is further connected with a cloud server, and the cloud server can monitor the working state of the interface module and control shared resources or services of the lamp post through the interface module.

The intelligent lamp post function extension system comprises a main control module and a plurality of branch control modules, wherein the main control module comprises a main controller and a plurality of branch control controllers; each sub-management controller is connected with one interface module and is used for independently managing the preset functions of the interface module and controlling shared resources or services of the lamp post; the main pipe controller and the plurality of branch pipe controllers are respectively connected and used for supervising and uniformly or respectively controlling the branch pipe controllers.

The intelligent lamp pole function extension system, wherein, this is responsible for the controller and still includes:

the information management module is used for acquiring and managing basic information data of the interface module under all jurisdictions;

the state detection module is used for detecting the use state of each interface module;

the resource management module is used for managing the available shared resources of the interface module;

the tenant docking module is used for processing the request of renting or managing the interface module sent by the tenant;

and the unmanned aerial vehicle docking module is used for guiding the unmanned aerial vehicle to overhaul, patrol and monitor or replace the operation of the external functional equipment on the interface module.

The intelligent lamp pole function extension system, wherein, this unmanned aerial vehicle docking module includes:

the communication module is used for connecting with the unmanned aerial vehicle information, sending the coordinates of the interface module to be processed to the unmanned aerial vehicle, and guiding the unmanned aerial vehicle to fly to a target coordinate position;

the landing guiding module is used for guiding the unmanned aerial vehicle to land at a preset position and positioning and locking the unmanned aerial vehicle at the preset position;

the first detection module is used for acquiring and detecting information of the unmanned aerial vehicle;

the first checking module is used for checking whether the information of the unmanned aerial vehicle side is consistent with preset replacement information, allowing replacement when the information is consistent, and feeding back to the resource management module for processing when the information is inconsistent;

the execution module is used for indicating the interface module to unlock and pop up the plug of the original external functional equipment and indicating the unmanned aerial vehicle to insert the plug of the new external functional equipment into the hot plug interface;

the second detection module is used for acquiring and detecting information of the newly accessed external functional equipment;

the second checking module is used for checking whether the newly accessed external function equipment is consistent with preset replacement information, locking, loading and updating a system of the external function equipment when the information is consistent, and feeding back to the resource management module for processing when the information is inconsistent;

and the ending instruction module is used for indicating the unmanned aerial vehicle to unlock from the preset position and carrying the original external functional equipment or the air vehicle to fly back to the parking place.

The intelligent lamp post function extension system is characterized in that a magnetic positioning mechanism is arranged on the periphery of the hot plug interface and used for assisting the unmanned aerial vehicle to land at a preset position and be positioned and locked at the preset position.

The intelligent lamp post function extension system is characterized in that each sub-management controller is provided with a unique code or an electronic certificate for identity confirmation or encryption.

The intelligent lamp post function extension system is characterized in that a virtual machine is further arranged in the interface space, and the virtual machine is connected with the interface module to provide the interface module for collecting data, storing and applying operation.

The beneficial effects are that: according to the intelligent lamp post function extension system provided by the invention, the set interface module not only can monitor and control shared resources or services of the lamp post, but also is provided with the hot plug interface for connecting different external function devices, and the lamp post is not required to be fixedly modified when the external function is required to be additionally arranged, so that the lamp post modification project is more flexible and various, the extension function of the lamp post which can be developed is greatly widened, and the system is more suitable for development of future technologies.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings that are necessary for use in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained from these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a functional extension system of an intelligent lamppost and a module assembly of the existing lamppost.

Fig. 2 is a schematic diagram of a module assembly of an intelligent lamppost function extension system and a conventional lamppost combination.

FIG. 3 is a schematic diagram of the module components of a master controller and multiple slave controllers connected.

Fig. 4 is a schematic diagram of the modular composition of the master controller.

Fig. 5 is a schematic diagram of the module composition of the unmanned aerial vehicle docking module.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present application based on the embodiments herein.

The terms first, second, third and the like in the description and in the claims of the present application and in the above-described figures, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the objects so described may be interchanged where appropriate. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, or apparatus, terminal, system comprising a series of steps is not necessarily limited to those steps or modules or units explicitly listed and may include steps or modules or units not explicitly listed or may include other steps or modules or units inherent to such process, method, apparatus, terminal, or system.

Referring to fig. 1, fig. 1 is a schematic diagram of a module assembly of an intelligent lighting pole function extension system and a conventional lighting pole combination.

The embodiment of the application provides an intelligent lamp pole function extension system for auxiliary lamp pole carries out more function extension, and it mainly includes master control module 1 and a plurality of interface module 2. The interface module 2 is arranged in an interface space formed on the lamppost, the interface space is a space formed on the lamppost body such as a white pigeon hole with different sizes, a plurality of interface spaces can be formed on each lamppost at different positions, and one interface space is correspondingly provided with one interface module. The interface module 2 is connected with an existing functional module 3 of the lamppost, the existing functional module 3 of the lamppost comprises a basic power module and a light-emitting module, and also comprises an extension functional module, such as a sprinkling functional module, a camera functional module, a loudspeaker functional module and the like, which are customized and modified by the lamppost based on the lamppost, and the extension functional module, such as the sprinkling functional module, the camera functional module, the loudspeaker functional module and the like, are included in the range of the existing functional module 3. Specifically, the interface module 2 is further provided with a hot plug interface 4 for the external functional device 5 to access, and the external functional device 5 may be a free control camera, a sound collector, a network collector, an investigation information collector, an unmanned aerial vehicle charging pile or vending machine, etc. in different embodiments. The main control module 1 is connected with the interface module 2, and is used for monitoring the working state of the interface module 2 and controlling the shared resources or services of the lamp post through the interface module 2, wherein the shared resources or services comprise resources such as electricity, network, storage and the like, and virtual machines can be further included in the future. The above-mentioned "connection" means a connection capable of realizing electrical connection and communication connection.

Because the interface module 2 can be uniformly regulated by the main control module 1, the interface module 2 can be operated in a renting mode commercially, a user can freely rent the interface module 2, at this time, the external function equipment 5 is set according to the requirement of the tenant, and the plug of the external function equipment 5 needs to be transformed to be capable of being matched and connected with the hot plug interface 4.

According to the intelligent lamp post function extension system provided by the invention, the interface module 2 can monitor and control shared resources or services of the lamp post, and the hot plug interface 4 is arranged for connecting different external function devices 5, so that the lamp post is not required to be fixedly modified when the external function is required to be additionally arranged, the lamp post modification projects are more flexible and various, the development extension function of the lamp post is greatly widened, and the system is more suitable for development of future technologies.

Preferably, referring to fig. 2, the main control module 1 is further connected to a cloud server 6, and the cloud server 6 can monitor the working state of the interface module 2 and control the shared resource or service of the lamp post through the interface module 2.

Preferably, referring to fig. 3, the main control module 1 includes a main pipe controller 11 and a plurality of sub-pipe controllers 12. Each of the sub-controllers 12 is connected to one of the interface modules 2 for independently managing the preset functions of the interface module and for controlling the shared resources or services of the lamppost. The sub-controller 12 may be a virtual manager disposed at the bottom of the interface module, and the interface module can perform preset functions including, but not limited to, start, stop, allocate network addresses, network transmission, storage, etc. The main pipe controller 11 and the plurality of sub-pipe controllers 12 are respectively connected for supervising and unifying or respectively controlling the sub-pipe controllers 12. The main controller 11 is connected to the cloud server 6.

Preferably, each of the sub-controllers 12 is provided with a unique code or electronic certificate for identity verification or encryption.

Preferably, referring to fig. 4, the main pipe controller 11 further includes:

the information management module 111 is used for acquiring and managing basic information data of the interface module 2 under all jurisdictions, wherein the basic information data includes but is not limited to coordinates, positions, IDs, charges, size models and the like.

The status detection module 112 is configured to detect a usage status of each of the interface modules, i.e. detect that the interface module 2 is currently in an idle status, a lease status, or a lease expiration status.

A resource management module 113 for managing the available shared resources of the interface module, including but not limited to network resources and power resources derived from the lamppost, etc.

The tenant docking module 114 is configured to process a request sent by a tenant to lease or manage the interface module. Wherein the tenant docking module 114 may be connected with an associated APP or web page client. The management request may include management of the resources of the interface module 2, replacement of the external function device 5, or detection of the external function device 5 being used, etc. The tenant docking module 114 may also have a charging function.

The unmanned aerial vehicle docking module 115 is used for guiding the unmanned aerial vehicle to overhaul, patrol and monitor or replace the operation of the external functional equipment 5 on the interface module 2.

Preferably, referring to fig. 5, the unmanned aerial vehicle docking module 114 includes:

the communication module 141 is configured to be in information connection with the unmanned aerial vehicle, and send the coordinates of the interface module 2 to be processed to the unmanned aerial vehicle, so as to guide the unmanned aerial vehicle to fly to the target coordinate position.

The landing guiding module 142 is used for guiding the unmanned aerial vehicle to land at a preset position and positioning and locking the unmanned aerial vehicle at the preset position. The predetermined position is a position corresponding to the interface module 2 where the external function device 5 needs to be replaced.

The first detection module 143 is configured to acquire and detect information of the unmanned aerial vehicle. The information of the unmanned aerial vehicle side includes, but is not limited to, the model number of the unmanned aerial vehicle and the carried external function device 5.

The first checking module 144 is configured to check whether the information of the unmanned aerial vehicle side is consistent with the preset replacement information, allow replacement when the information is consistent, and feed back to the information management module 111 for processing when the information is inconsistent. The preset replacement information includes, but is not limited to, information of the interface module 2 to be replaced, the original external function device 5, the external function device 5 to be replaced, and the replacement time.

And the execution module 145 is configured to instruct the interface module 2 to unlock and pop up the plug of the original external function device 5, and instruct the unmanned aerial vehicle to insert the plug of the new external function device 5 into the hot plug interface 4.

A second detection module 146, configured to acquire and detect information of the newly accessed external function device 5;

the second checking module 147 is configured to check whether the newly accessed external function device 5 is consistent with the preset replacement information, lock, load and update the system of the external function device 5 when the information is consistent, and feed back to the information management module 111 for processing when the information is inconsistent.

The end guiding module 148 is configured to instruct the unmanned aerial vehicle to unlock from the predetermined position, and to carry the original external function device 5 or the air vehicle to fly back to the parking place.

Preferably, in the case that the interface module 2 is idle to rented and needs to access a new external function device 5, the unmanned aerial vehicle docking module 115 directs the unmanned aerial vehicle to perform the operation of newly installing the external function device 5 on the interface module 2, and in this case, in the step D, the interface module is instructed to unlock and eject the plug of the original external function device 5, so that no plug is actually ejected, which does not affect the execution of the subsequent steps.

Preferably, a magnetic positioning mechanism is arranged on the periphery of the hot plug interface 4 and is used for assisting the unmanned aerial vehicle to land at a preset position and be positioned and locked at the preset position. The magnetic positioning mechanism can use the existing magnetic positioning device to carry out corresponding matching setting on the unmanned aerial vehicle according to the actual use condition.

Preferably, a virtual machine (not shown) is further disposed in the interface space, and the virtual machine is connected to the interface module 2, so as to provide the interface module 2 with data collection, storage and application operations, such as big data or AI operations.

It should be noted that, all or part of the steps in the methods of the foregoing embodiments may be implemented by a program, which may be stored in a computer readable storage medium, and the storage medium may include, but is not limited to: read Only Memory (ROM), random access Memory (RAM, random Access Memory), magnetic or optical disk, and the like.

The foregoing has outlined the detailed description of the system provided in the embodiments of the present application, and the detailed description has been presented herein to illustrate the principles and embodiments of the present application and to provide a convenient understanding of the method and its core concepts; meanwhile, those skilled in the art will have variations in the specific embodiments and application scope in light of the ideas of the present application, and the present description should not be construed as limiting the present application in view of the above.

Claims (7)

1. An intelligent lamp post function extension system is characterized by comprising a main control module and a plurality of interface modules; the interface module is arranged in an interface space arranged on the lamp post, the interface space is a space with different sizes and arranged on the lamp post body of the street lamp, such as a white pigeon hole, the interface module is connected with the existing functional module of the lamp post, and the interface module is also provided with a hot plug interface for the access of external functional equipment; the main control module is connected with the interface module and used for monitoring the working state of the interface module and controlling the shared resource or service of the lamp post through the interface module;

the main control module comprises a main pipe controller and a plurality of sub-pipe controllers; each sub-management controller is connected with one interface module and is used for independently managing the preset functions of the interface module and controlling shared resources or services of the lamp post; the main pipe controller is respectively connected with the plurality of sub-pipe controllers and is used for supervising and uniformly or respectively controlling the sub-pipe controllers; the preset functions of the interface module comprise starting, stopping, distributing network addresses, network transmission and storage;

the master controller further includes: the information management module is used for acquiring and managing basic information data of the interface module under all jurisdictions; the state detection module is used for detecting the use state of each interface module; the resource management module is used for managing available shared resources of the interface module; and the tenant docking module is used for processing the request sent by the tenant for renting or managing the interface module.

2. The intelligent lighting pole function extension system of claim 1, wherein the master control module is further connected to a cloud server, the cloud server being capable of monitoring the operating status of the interface module and controlling the shared resources or services of the lighting pole via the interface module.

3. The intelligent pole function extension system of claim 1, wherein the main controller further comprises: and the unmanned aerial vehicle docking module is used for guiding the unmanned aerial vehicle to overhaul, patrol and monitor or replace the operation of the external functional equipment on the interface module.

4. The intelligent lamppost function extension system of claim 3, wherein the unmanned aerial vehicle docking module further comprises: the communication module is used for connecting with the unmanned aerial vehicle information, sending the coordinates of the interface module to be processed to the unmanned aerial vehicle, and guiding the unmanned aerial vehicle to fly to a target coordinate position; the landing guiding module is used for guiding the unmanned aerial vehicle to land at a preset position and positioning and locking the unmanned aerial vehicle at the preset position; the first detection module is used for acquiring and detecting information of the unmanned aerial vehicle; the first checking module is used for checking whether the information of the unmanned aerial vehicle side is consistent with preset replacement information, allowing replacement when the information is consistent, and feeding back to the information management module for processing when the information is inconsistent; the execution module is used for indicating the interface module to unlock and pop up the plug of the original external functional equipment and indicating the unmanned aerial vehicle to insert the plug of the new external functional equipment into the hot plug interface; the second detection module is used for acquiring and detecting information of the newly accessed external functional equipment; the second checking module is used for checking whether the newly accessed external function equipment is consistent with preset replacement information, locking, loading and updating a system of the external function equipment when the information is consistent, and feeding back to the information management module for processing when the information is inconsistent; and the ending instruction module is used for indicating the unmanned aerial vehicle to unlock from the preset position and carrying the original external functional equipment or the air vehicle to fly back to the parking place.

5. The intelligent lamppost function extension system according to claim 4, wherein a magnetic positioning mechanism is arranged on the periphery of the hot plug interface and used for assisting the unmanned aerial vehicle to land at a preset position and be positioned and locked at the preset position.

6. The intelligent pole function extension system of claim 1, wherein each of the separate controllers is provided with a unique code or electronic certificate for identity verification or encryption.

7. The intelligent pole function extension system of claim 1, wherein a virtual machine is further provided in the interface space, the virtual machine being connected to the interface module for the interface module to collect data, store and apply operations.

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