AU2020210430B2 - Smart pole function expansion system - Google Patents

Abstract

An intelligent lamp post function expansion system comprises a main control module (1) and multiple interface modules (2). The interface module (2) is provided in an interface space on a lamp post. The interface module (2) is connected to an existing functional module (3) of the lamp post. A hot-plug interface (4) is further provided on the interface module (2), such that an external functional device (5) can be connected to the interface module (2). The main control module (1) is connected to the interface module (2), and is used to monitor an operating status of the interface module (2) and to control a shared resource or service of the lamp post by means of the interface module (2). The provided interface module (2) of the intelligent lamp post function extension system monitors and controls the shared resource or service of the lamp post, and is provided with the hot-plug interface (4) so as to connect different external functional devices (5). Fixed retrofitting is not needed when adding a function to the lamp post, and thus the invention enables flexible lamp post retrofitting and greatly increases the number of expandable functions of the lamp post.

Description

SMART POLE FUNCTION EXPANSION SYSTEM TECHNICAL FIELD

This invention generally relates to the technical field of functional systems, and

more particularly, to a smart pole function expansion system.

BACKGROUND

As a common city facility, lamp poles are distributed throughout each corner of a

city. It is a huge waste of resource if such a facility is merely used for illumination.

Presently, expandable functions of the lamp poles (e.g., monitoring and camera

shooting) have been proposed in many smart pole retrofitting projects, wherein a

supervision system is arranged for supervising the lamp poles in a unified manner.

However, fixed retrofitting is needed when adding a function to the lamp pole,

resulting in insufficient flexibility and limited function expansion of the lamp pole.

Therefore, it is urgent for those skilled in the art to solve the technical problems

in the prior art.

SUMMARY

The purpose of the present invention is to provide a smart pole function

expansion system. According to the present invention, the technical problems relating

to the fixed retrofitting needed when adding a function to the lamp post, the

insufficient flexibility and the limited function expansion of the lamp post are solved.

To achieve the above purpose, the present invention adopts the following

technical solution: a smart pole function expansion system comprising a main control

module and multiple interface modules, wherein the interface module is provided in

an interface space on a smart pole, wherein the interface module is connected to an

existing functional module of the smart pole, wherein a hotplug with mounting

module is further provided on the interface module, such that an external functional

device can be connected to the interface module, wherein the main control module is

connected to the interface module, and is used to monitor an operating state of the interface module and to control a shared resource or service of the smart pole by means of the interface module. In another aspect of the present invention, the main control module is also connected to a cloud server. The cloud server is capable of monitoring the operating state of the interface modules and controlling the shared resource or service of the smart pole by means of the interface module. In another aspect of the present invention, the main control module comprises a master controller and a plurality of sub-controllers, wherein each sub-controller is connected to one interface module for independently managing the preset functions of the interface module and controlling the shared resource or service of the smart pole. The master controller is respectively connected to the plurality of sub-controllers for monitoring and controlling the sub-controllers in a unified or respective manner. In another aspect of the present invention, the master controller further comprises an information management module for obtaining and managing the basic information of the controlled interface modules, a state detection module for detecting the use state of each interface module, a resource management module for managing the shared resource of the interface modules, a tenant communication module for processing the requests sent by a tenant for renting or managing the interface modules and an unmanned drone communication module for guiding the unmanned drone to repair, guard and monitor the interface modules or replace the external functional device. In another aspect of the present invention, the unmanned drone communication module further comprises a communication module for communicating with the unmanned drone, sending the coordinates of the interface module to be processed to the unmanned drone and guiding the unmanned drone to fly to the target coordinates position, a landing guidance module for guiding the unmanned drone to land and be locked at a predetermined position, a first detection module for obtaining and detecting the information of the unmanned drone, a first verification module for verifying whether the information of the unmanned drone is consistent with a preset replacement information, wherein when the information is consistent, the external functional device is allowed to be replaced, and when the information is inconsistent, the problematic information is fed back to the information management module for processing, an execution module for instructing the interface module to unlock the plug of an original external functional device such that the plug can pop out, and for instructing the unmanned drone to insert the plug of a new external functional device into the hotplug with mounting module, a second detection module for obtaining and detecting the information of the newly connected external functional device, a second verification module for verifying whether the information of the newly connected external functional device is consistent with the preset replacement information, wherein when the information is consistent, the system of the external functional device is locked, loaded and updated, and when the information is inconsistent, the problematic information is fed back to the information management module for processing, and an end guidance module for unlocking the unmanned drone from the predetermined position and instructing the unmanned drone to fly back to the parking place with/without the original external function device. In another aspect of the present invention, a magnetic positioning mechanism is arranged around the hotplug with mounting module, which is used to assist the unmanned drone to land and be locked at the predetermined position. In another aspect of the present invention, each sub-controller is provided with a unique code or electronic certificate for identity verification or encryption. In another aspect of the present invention, the interface space is also equipped with a virtual machine. The virtual machine is connected with the interface module for data collection, storage and applicational operation. Compared with the prior art, the present invention has the following advantages: The provided interface module of the smart pole function extension system monitors and controls the shared resource or service of the smart pole, and is provided with the hotplug with mounting module so as to connect different external functional devices. Fixed retrofitting is not needed when adding a function to the smart pole, and thus the invention enables flexible smart pole retrofitting, greatly increases the number of expandable functions of the smart pole and makes the smart pole more suitable for the development of future technology.

BRIEF DESCRIPTION OF THE DRAWINGS To clearly explain the technical solution in the embodiment of the application, the figures to be used in the description of the embodiment are briefly introduced. It is obvious that the drawings in the following description are merely some embodiments of the application. For those skilled in the art, other drawings can be obtained from these drawings without paying creative labor. Figure 1 is a conceptual diagram illustrating the combination of modules of the smart pole function expansion system of the present invention and an existing smart pole Figure 2 is another conceptual diagram illustrating the combination of modules of the smart pole function expansion system of the present invention and an existing smart pole. Figure 3 is a conceptual diagram illustrating the combination of modules connecting the master controller and the plurality of sub-controllers. Figure 4 is a conceptual diagram illustrating the combination of modules of the master controller. Figure 5 is a conceptual diagram illustrating the combination of modules of the unmanned drone communication module.

DETAILED DESCRIPTION Drawings and detailed embodiments are combined hereinafter to clearly and completely describe the techniques of the present invention. Obviously, the described embodiments are merely a representative part but not all of the embodiments of the present invention. The specification of the present invention allows those skilled in the art to obtain other embodiments without paying creative labor, and thus all of which shall fall into the scope of the present invention. The terms "first", "second", "third" and the like (if any) in the description, claims and drawings of the present invention are used for distinguishing similar objects but not for describing a specific order or sequence. It should be understood that objects described in this way are interchangeable if appropriate. Furthermore, the terms "comprise" and "possess" as well as any variants of them are intended to cover non-exclusive inclusions, for instance, a process or method comprising a series of steps; a device, terminal or system comprising a series of modules or units not limited to those steps, modules or units clearly listed; the steps, modules or units not clearly listed; and other steps, modules or units inherent to these processes, methods, devices, terminals or systems. Figure 1 is a conceptual diagram illustrating the combination of modules of the smart pole function expansion system of the present invention and an existing lamp post. The present invention provides a smart pole function expansion system used for expanding the functions of a smart pole. The smart pole function expansion system comprises a main control module 1 and a plurality of interface modules 2. The interface module 2 is provided in an interface space formed in a smart pole. The interface space can be a space with different sizes, which resembles a pigeon hole and is formed in the smart pole body. A plurality of interface spaces can be formed in each smart pole at different positions. The interface space is correspondingly provided with an interface module. The interface module 2 is connected to an existing functional module 3 of the smart pole. The existing functional module 3 of the smart pole comprises a basic power module, an illumination module and an expansion function module (e.g., a watering function module, a camera function module or a loudspeaker function module) modified based on the smart pole. More specifically, a hotplug with mounting module 4 is further provided on the interface module 2, such that an external functional device 5 can be connected to the interface module 2. In different embodiments, the external functional device 5 may be a freely-controlled camera, a sound collector, a network collector, a research information collector, a charging pile for an unmanned drone or a vending machine, etc. The main control module 1 is connected to the interface module 2, and is used to monitor an operating state of the interface module 2 and to control a shared resource or service of the smart pole by means of the interface module 2. The shared resource or service may include electricity, network and storage, or even include a virtual machine in the future. The aforesaid "connected" means achieving an electrical connection and a communication connection.

The interface modules 2 can be monitored by the main control module 1 in a

unified manner. The interface modules 2 can be freely rented by a user. At this point,

the external functional device 5 is set according to the needs of the user, and the plug

of the external functional device 5 needs to be modified to match with the hotplug

with mounting module 4.

The provided interface module 2 of the smart pole function extension system

monitors and controls the shared resource or service of the smart pole, and is provided

with the hotplug with mounting module 4 so as to connect different external

functional devices 5. Fixed retrofitting is not needed when adding a function to the

smart pole, and thus the invention enables flexible smart pole retrofitting, greatly

increases the number of expandable functions of the smart pole and makes the smart

pole more suitable for the development of future technology.

Preferably, as shown in Figure 2, the main control module 1 is also connected to

a cloud server 6. The cloud server 6 is capable of monitoring the operating state of the

interface modules 2 and controlling the shared resource or service of the smart pole by

means of the interface module 2.

Preferably, as shown in Figure 3, the main control module 1 comprises a master

controller 11 and a plurality of sub-controllers 12, wherein each sub-controller 12 is

connected to one interface module 2 for independently managing the preset functions

of the interface module and controlling the shared resource or service of the smart

pole. The sub-controller 12 can be a virtual manager arranged at the bottom of the

interface module. The preset functions of the interface module include but are not

limited to starting, stopping, allocating network addresses, network transmission and

storage. The master controller 11 is respectively connected to the plurality of

sub-controllers 12 for monitoring and controlling the sub-controllers 12 in a unified or

respective manner. The master controller 11 is connected to the cloud server 6.

Preferably, each sub-controller 12 is provided with a unique code or electronic

certificate for identity verification or encryption.

Preferably, as shown in Figure 4, the master controller 11 further comprises an

information management module 111, a state detection module 112, a resource

management module 113, a tenant communication module 114 and an unmanned

drone communication module 115. The information management module 111 is used

to obtain and manage the basic information of the controlled interface modules 2,

wherein the basic information includes but is not limited to coordinates, locations, IDs,

charges, sizes, models and other information. The state detection module 112 is used

to detect the use state of each interface module, namely, detecting whether the

interface module 2 is left idle, rented or expired. The resource management module

113 is used to manage the shared resource of the interface modules, wherein the

shared resource includes but is not limited to a network resource and a power resource

from the smart pole, etc. The tenant communication module 114 is used to process the

requests sent by the tenant for renting or managing the interface modules. The tenant

communication module 114 can be connected with the relevant APPs or the web

client-side. Managing the requests may include managing the resource of the interface

module 2, replacing the external functional device 5 or detecting the external

functional device 5 in use, etc. The tenant communication module 114 may also

possess a charging function. The unmanned drone communication module 115 is used

to guide the unmanned drone to repair, guard and monitor the interface modules 2 or

replace the external functional device 5.

Preferably, as shown in Figure 5, the unmanned drone communication module

115 further comprises a communication module 141, a landing guidance module 142,

a first detection module 143, a first verification module 144, an execution module 145,

a second detection module 146, a second verification module 147 and an end

guidance module 148. The communication module 141 is used to communicate with

the unmanned drone and send the coordinates of the interface module 2 to be

processed to the unmanned drone, thereby guiding the unmanned drone to fly to the

target position. The landing guidance module 142 is used to guide the unmanned drone to land and be locked at a predetermined position. The predetermined position is a position corresponding to the interface module 2 of an external functional device 5 to be replaced. The first detection module 143 is used to obtain and detect the information of the unmanned drone, wherein the information of the unmanned drone includes but is not limited to the model of the unmanned drone and the name of the external functional device 5 carried by the unmanned drone. The first verification module 144 is used to verify whether the information of the unmanned drone is consistent with the preset replacement information. When the information is consistent, the external functional device is allowed to be replaced, and when the information is inconsistent, the problematic information is fed back to the information management module 111 for processing. The preset replacement information includes but is not limited to an interface module 2 to be replaced, an original external functional device 5, a new external functional device 5 for replacing the original external functional device 5 and a replacing time, etc. The execution module 145 is used to instruct the interface module 2 to unlock the plug of the original external functional device 5 such that the plug can pop out, and to instruct the unmanned drone to insert the plug of a new external functional device 5 into the hotplug with mounting module 4. The second detection module 146 is used to obtain and detect the information of the newly connected external functional device 5. The second verification module 147 is used to verify whether the information of the newly connected external functional device 5 is consistent with the preset replacement information. When the information is consistent, the system of the external functional device 5 is locked, loaded and updated, and when the information is inconsistent, the problematic information is fed back to the information management module 111 for processing. The end guidance module 148 is used to unlock the unmanned drone from the predetermined position and instruct the unmanned drone to fly back to the parking place with/without the original external function device 5. Preferably, in situations that the interface module 2 is rented from an idle state and needs to be connected to a new external functional device 5, the unmanned drone communication module 115 also guides the unmanned drone to install the new external function device 5 on the interface module 2. At this point, in step D, when instructing the interface module to unlock the plug of the original external functional device 5, there is no plug popping out actually, which does not affect the execution of the subsequent steps.

Preferably, a magnetic positioning mechanism is arranged around the hotplug

with mounting module 4, which is used to assist the unmanned drone to land and be

locked at the predetermined position. The magnetic positioning mechanism can adopt

an existing magnetic positioner to match the unmanned drone according to the actual

situation.

Preferably, the interface space is also equipped with a virtual machine (not

shown). The virtual machine is connected with the interface module 2 for data

collection, storage and applicational operation, such as big data or Al operation.

It should be noted that those skilled in the art can understand that all or a part of

the steps in various methods of the embodiments can be completed by instructing the

relevant hardware through programs, and the programs can be stored in a

computer-readable storage medium, which includes but is not limited to a read-only

memory (ROM), a random-access memory (RAM), a disk or a CD, etc.

The system provided by the embodiments of the application is described in detail

above. In this specification, specific examples are applied to explain the principle and

implementation way of the application. The description of the above embodiments is

only used to help understand the method and core idea of the application. Meanwhile,

those skilled in the art can make modifications in the specific implementation way and

application scope according to the idea of the application. The content of the

specification should not be understood as a restriction to the application.

Claims (10)

WHAT IS CLAIMED IS:

1. A smart pole function expansion system, comprising:

a main control module, and

a plurality of interface modules, wherein the interface module is provided in an

interface space on a smart pole, wherein the interface module is connected to an

existing functional module of the smart pole, wherein a hotplug with mounting

module is further provided on the interface module, such that an external

functional device can be connected to the interface module, wherein the main

control module is connected to the interface module, and is used to monitor an

operating state of the interface module and to control a shared resource or service

of the smart pole by means of the interface module;

wherein the external functional device shares the resource or service with the smart

pole through the interface module to provide an extended function other than

illumination.

2. The smart pole function expansion system of claim 1, wherein the main control

module is also connected to a cloud server, wherein the cloud server is capable of

monitoring the operating state of the interface modules and controlling the shared

resource or service of the smart pole by means of the interface module.

3. The smart pole function expansion system of claim 1 or 2, wherein the main

control module comprises:

a master controller and a plurality of sub-controllers, wherein each sub-controller

is connected to one interface module for independently managing the preset

functions of the interface module and controlling the shared resource or service of

the smart pole, wherein the master controller is respectively connected to the

plurality of sub-controllers for monitoring and controlling the sub-controllers in a

unified or respective manner.

4. The smart pole function expansion system of claim 3, wherein the master

controller further comprises:

an information management module for obtaining and managing the basic

information of the controlled interface modules, a state detection module for detecting the use state of each interface module, a resource management module for managing the shared resource of the interface modules, a tenant communication module for processing the requests sent by a tenant for s renting or managing the interface modules, and an unmanned drone communication module for guiding the unmanned drone to repair, guard and monitor the interface modules or replace the external functional device.

5. The smart pole function expansion system of claim 4, wherein the unmanned

drone communication module further comprises:

a communication module for communicating with the unmanned drone, sending

the coordinates of the interface module to be processed to the unmanned drone

and guiding the unmanned drone to fly to the target coordinates position,

a landing guidance module for guiding the unmanned drone to land and be locked

at a predetermined position,

a first detection module for obtaining and detecting the information of the

unmanned drone,

a first verification module for verifying whether the information of the unmanned

drone is consistent with the preset replacement information, wherein when the

information is consistent, the external functional device is allowed to be replaced,

and when the information is inconsistent, the problematic information is fed back

to the information management module for processing,

an execution module for instructing the interface module to unlock the plug of an

original external functional device such that the plug can pop out, and for

instructing the unmanned drone to insert the plug of a new external functional

device into the hotplug with mounting module,

a second detection module for obtaining and detecting the information of the

newly connected external functional device,

a second verification module for verifying whether the information of the newly

connected external functional device is consistent with a preset replacement information, wherein when the information is consistent, the system of the external functional device is locked, loaded and updated, and when the information is inconsistent, the problematic information is fed back to the information management module for processing, and an end guidance module for unlocking the unmanned drone from the predetermined position and instructing the unmanned drone to fly back to the parking place with/without the original external function device.

6. The smart pole function expansion system of claim 5, wherein a magnetic

positioning mechanism is arranged around the hotplug with mounting module,

which is used to assist the unmanned drone to land and be locked at the

predetermined position.

7. The smart pole function expansion system of claim 3, wherein each sub-controller

is provided with a unique code or electronic certificate for identity verification or

encryption.

8. The smart pole function expansion system of claim 1, wherein the interface space

is also equipped with a virtual machine, wherein the virtual machine is connected

with the interface module for data collection, storage and applicational operation.

9. The smart pole function expansion system of claim 1 wherein the extended

function devices provide the external function selected from the group comprising,

watering, a camera and a loudspeaker.

10. The smart pole function expansion system of claim 1 wherein the extended

function devices provide the external function selected from the group comprising,

a sound collector, a network collector, a research information collector, a charging

pile for an unmanned drone, and a charging pile for a vending machine.