KR20200077694A - System and Method for Providing Unmanned Vehicle IoT Service Based on Cloud Server - Google Patents

Abstract

The present invention relates to a device and method for an IoT service of an unmanned mobile vehicle based on a cloud server to enable an unmanned mobile vehicle for efficiently moving to a destination even when there is a change in an obstacle environment on a path initially transmitted through an IoT service based on a cloud server. The device comprises: an unmanned mobile vehicle generating a moving route by constructing an environment map, transmitting obstacle information detected and receiving obstacle avoidance information while driving, and communicating with the cloud server to request confirmation of whether obstacle removal is possible when obstacle detection is performed; a cloud server providing the obstacle avoidance information according to whether communication with a target, which becomes an obstacle by a confirmation request whether obstacle removal of the unmanned mobile vehicle is possible, for IoT control or changing a state of the target for IoT control so that the unmanned vehicle may pass by; and a user terminal connected to the cloud server and monitoring control and driving of objects for IoT control and the unmanned mobile vehicle.

Description

System and Method for Providing Unmanned Vehicle IoT Service Based on Cloud Server}

The present invention relates to unmanned moving object control, specifically, a cloud server-based unmanned moving object IoT service that enables an unmanned moving object to efficiently move to a destination even when there is an obstacle environment change in a path initially received through a cloud server based IoT service. It relates to a device and method for.

The Internet of Things (Internet of Things) refers to providing new services that individual objects could not provide by connecting various types or intangible objects in the world in various ways.

The Internet of Things (IoT) concept is evolving rapidly and is influencing new developments in a variety of applications. Objects can be connected to each other by specifying a unique address.

Currently, the unmanned moving object moves itself while avoiding obstacles by using sensors such as camera, radar, lidar, and ultrasound along a predetermined path based on the location signal of the GPS or the position value of the inertial measurement unit (IMU). do.

Unmanned mobile devices can receive information about the surrounding environment using LIDAR SENSOR. Using the commonly known Simultaneous Localization and Mapping (SLAM) technology, the surrounding environment of an unmanned mobile body is mapped to determine the direction of movement and the unmanned mobile body can be moved to a target point.

In order for the unmanned mobile body to move on its own, it applies a navigation algorithm and receives the shortest path from the starting point to the destination point to move.

In addition, while moving, it avoids obstacles that are not transmitted on the route through the avoidance algorithm and continues to travel to the destination point again.

However, there are factors in the received path that cause obstacles to the path of the unmanned mobile vehicle depending on the state, such as the door.

When the first shortest route was received, the door was open, but the door was closed by someone while the unmanned mobile vehicle was driving. The unmanned mobile body gets trapped in a room, gets lost and keeps wandering around the room.

Accordingly, there is a need to develop a new technology to efficiently move to a destination even when there is a change in an obstacle environment on the first received route.

Republic of Korea Patent Publication No. 10-2016-0086623 Republic of Korea Patent Publication No. 10-2016-0087168 Republic of Korea Patent Publication No. 10-2018-0101081

The present invention is to solve the problems of the unmanned moving object driving control technology of the prior art, based on a cloud server that enables to efficiently move to the destination even when there is an obstacle environment change on the route initially received through the cloud server-based IoT service The purpose is to provide a device and method for an unmanned mobile station IoT service.

In the present invention, an unmanned mobile body connected to a cloud server capable of controlling an overall object communicates with a cloud server at any time during driving to share a location, and if an obstacle is recognized, determine whether environmental changes are possible through the cloud server The purpose is to provide a device and method for an unmanned mobile phone IoT service based on a cloud server that creates a driving environment.

The present invention provides a device and a method for a cloud server based unmanned mobile station IoT service that enables control of other objects through a cloud server, thereby expanding the area of activity of the unmanned mobile device and allowing movement and activity in a wider space. It has a purpose.

The present invention solves a problem that an unmanned mobile vehicle, which has been determined to be a driving obstacle due to environmental factors such as a door or an elevator, continues to search for a way, and solves a problem that is not recognized as a road through communication with a cloud server, to the unmanned mobile station to a target point The purpose is to provide a device and method for an unmanned mobile phone IoT service based on a cloud server that can be moved in the shortest distance.

Other objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

The device for cloud server-based unmanned mobile phone IoT service according to the present invention for achieving the above object is to construct an environment map to generate a movement path, transmit obstacle information detected during driving, and receive obstacle avoidance information, When an obstacle is detected, an unmanned mobile device that requests a confirmation of whether or not an obstacle can be removed by communicating with a cloud server; communication with an IoT control object that becomes an object by requesting confirmation of whether or not the obstacle of the unmanned mobile vehicle is removed is possible A cloud server that provides obstacle avoidance information depending on whether or not an unmanned mobile station can pass through, a cloud server that changes the state of an IoT control object; a user terminal connected to the cloud server and controlling and driving the IoT control objects and the unmanned mobile device It is characterized by including.

Here, the unmanned mobile station is a data receiving unit for receiving data of the sensing unit of the cloud server and the unmanned mobile unit for driving through the unmanned mobile unit IoT service, and the sensing unit senses the received data while sensing and builds an environment map to establish a movement path. A mapping unit that generates, a driving control unit that controls driving through the shortest path generation, requests obstacle detection and obstacle removal determination, and transmits status data of the unmanned moving object to the cloud server, transmits obstacle information detected during driving, and obstacles It characterized in that it comprises a state information and obstacle information processing unit for receiving the avoidance information.

In addition, the unmanned mobile body, when the execution of the unmanned mobile body for driving through the unmanned mobile body IoT service starts, checks data reception and transmission status between sensors, starts battery communication, and checks whether there is an abnormality in the unmanned mobile device. ,If it is checked that there is a problem during the status check operation in the status check unit, an error LED is activated to indicate that there is a problem in the unmanned mobile device, and if no problem is confirmed, sensing through the LIDAR sensor is performed. It is characterized by.

In addition, the mapping unit includes a reception data confirmation unit that checks reception data from the LIDAR sensor of the sensing unit, a sensing data request unit that requests data transmission to the LIDAR sensor again when data is not coming from the LIDAR sensor, and data received from the LIDAR sensor. Based on the SLAM (Simultaneously Localization and Mapping) algorithm, an environment map construction unit that creates an environment map, and creates a route to a destination point based on the environment map created by the environment map construction unit, and moves to a destination location with a moving control unit. It characterized in that it comprises a movement path generation unit for transmitting information.

In addition, the moving control unit executes a navigation algorithm to generate a shortest path based on information on a destination location received from the mapping unit and a shortest path generation unit that runs along the shortest path generated by the shortest path generation unit. The driving control unit for controlling the obstacle, the obstacle detection unit for detecting an obstacle while the unmanned mobile vehicle is driving, and if there is no obstacle detection by the obstacle detection unit, continues driving, and when the obstacle detection is performed by the obstacle detection unit, communication with the cloud server is performed. It characterized in that it comprises an obstacle removal determination request unit for requesting to confirm whether the removal of the obstacle.

In addition, the status information and obstacle information processing unit, the status data checking unit for checking the status data of the unmanned mobile station, and the status data confirmed by the status data checking unit to the cloud server to keep the cloud server to keep track of the location of the unmanned mobile unit It characterized in that it comprises a state data transmission unit to enable, the obstacle information transmission unit for transmitting obstacle information detected during driving to the cloud server, and an obstacle avoidance information receiving unit for receiving obstacle avoidance information from the cloud server.

The cloud server includes a status data receiving unit for receiving status data transmitted from the unmanned mobile unit, an unmanned mobile location determination unit for checking the status data received through the status data receiving unit to determine the location of the unmanned mobile unit, and the unmanned mobile unit In addition, IoT communication unit that attempts to communicate with other objects to determine whether there is an object that does not transmit or receive signals, and when receiving status data from an unmanned mobile station, calculates information necessary for driving based on sensor values and results as necessary And it characterized in that it comprises a driving control value calculation and transmission unit for transmitting the value to the unmanned moving object.

In addition, the cloud server determines whether an object that the unmanned mobile object encounters is an object capable of communication, and when the object is not an object capable of communication through the IoT communication unit, calculates information to avoid an obstacle and transmits it to the unmanned mobile object. It characterized in that it comprises an obstacle avoidance information calculation and transmission unit, and an obstacle state change control unit for changing the state of the object so that the unmanned mobile body can pass through when the communication through the IoT communication unit is connected.

The method for cloud server-based unmanned-mobile IoT service according to the present invention for achieving another object is to construct an environment map to generate a movement path, transmit obstacle information detected during driving, receive obstacle avoidance information, and detect obstacles When is made, the unmanned object control step of requesting confirmation of the possibility of removing the obstacle by communicating with the cloud server; IoT that becomes an obstacle by a request to check whether the obstacle of the unmanned object is removed in the unmanned object control step And providing obstacle avoidance information according to whether communication with the control object is possible, or controlling the cloud server to change the state of the IoT control object so that the unmanned mobile station can pass.

Here, for driving through the unmanned mobile body IoT service in the unmanned mobile body control step, when the execution of the unmanned mobile body starts, check the data reception and transmission status between the sensors, and start battery communication to check whether there is an abnormality in the unmanned mobile device. , If it is checked that there is a problem during the status check operation, activate the error LED to display an error indicating that there is a problem in the unmanned mobile device, and terminate the execution of the unmanned mobile device in the event of an error in sending and receiving status data. It characterized in that it comprises a step.

And if it is confirmed that there is no problem by the state check operation, the sensing step through the LIDAR sensor, the receiving data check while sensing, and the mapping operation control step of creating the environment path by constructing the environment map and the shortest path generation It characterized in that it performs a driving control through the moving control step to move to the target point.

Then, when an obstacle is detected while driving by performing a moving control step, a request is made to remove the obstacle, the status data of the unmanned moving object is transmitted to the cloud server, and the status information and the obstacle receiving the obstacle information detected while driving and the obstacle avoidance information are received. It is characterized by performing the information processing step.

And the mapping operation control step, when receiving the first data, there is no data received from the cloud server, so immediately check the received data from the LIDAR sensor, and when no data comes from the LIDAR sensor, request the data transmission to the LIDAR sensor again. Step of creating a surrounding environment map through SLAM (Simultaneously Localization and Mapping) algorithm based on the data received from the LIDAR sensor, creating a route to the destination point based on the created surrounding environment map, and moving the destination to the destination It characterized in that it comprises the step of transmitting information about.

In addition, the moving control step includes generating a shortest path based on information on a destination location received from the mapping unit by executing a navigation algorithm in the moving control unit of the unmanned moving object, and unmanning along the shortest path generated in the shortest path generation step. It characterized in that it comprises the step of controlling the driving of the moving object, and if the unmanned moving object detects an obstacle while driving, communicating with a cloud server and requesting confirmation of whether it is possible to remove the obstacle.

And in the cloud server control step, when the unmanned mobile station status data is transmitted to the cloud server, checking the status data of the unmanned mobile station, and requesting data from the LIDAR sensor, and the cloud server is based on the verified status data to locate the unmanned mobile station. It characterized in that it comprises the step of continuously grasping, and if the obstacle information detected during driving is transmitted to the cloud server, the obstacle avoidance information is calculated and provided to the unmanned moving object.

And the cloud server control step, the cloud server receives the status data transmitted from the unmanned mobile station, the step of transmitting a success signal to receive the status data to the unmanned mobile station, and maintains the standby state if it does not receive the status data transmitted from the unmanned mobile device And checking the received state data and driving the mapping unit of the unmanned moving object to determine the location of the unmanned moving object, and attempting to communicate with other objects other than the unmanned moving object to determine whether there is an object for which a signal is not transmitted or received. Determining the data and performing data connection and data testing for objects that do not transmit or receive signals, and calculate the information required for driving based on sensor values through the unmanned moving object main algorithm and deliver the result values as needed to the unmanned moving object It characterized in that it comprises a step.

In addition, the cloud server control step determines whether an obstacle recognized by the unmanned mobile vehicle while driving is an object capable of communication, and when the object is not capable of communication, calculates information that can avoid the obstacle to be an unmanned mobile device. It characterized in that it comprises the step of transmitting, and the step of changing the state of the object so that the unmanned mobile station can pass if the communication is connected.

The apparatus and method for a cloud server based unmanned mobile IoT service according to the present invention as described above has the following effects.

First, through the cloud server-based IoT service, the unmanned mobile station can efficiently move to the destination even if there is an obstacle environment change on the route initially received.

Second, the unmanned mobile device connected to a cloud server that can control the whole thing communicates with the cloud server at any time while driving to share the location, and if an obstacle is recognized, determine whether environmental changes are possible through the cloud server and unmanned It is possible to create an environment in which the movable body can travel.

Third, by allowing other objects to be controlled through the cloud server, the activity area of the unmanned mobile device is expanded to allow movement and activity in a wider space.

Fourth, it solves a problem that the unmanned mobile vehicle, which has been determined to be a driving obstacle due to environmental factors such as a door or an elevator, continues to find a way and tries to find a way through the cloud server and communicates with the cloud, and resolves the obstacle that was not recognized as the road to the shortest point. Make it move to the street.

1 is a block diagram of a device for an unmanned mobile phone IoT service based on a cloud server according to the present invention
2A to 2E are detailed configuration diagrams of a device for an unmanned mobile phone IoT service based on a cloud server according to the present invention.
3A and 3B are diagrams illustrating a navigation stack setup and doorway control algorithm for cloud server-based unmanned mobile station IoT service according to the present invention.
Figure 4 is a flow chart showing a method for controlling an unmanned moving object according to the present invention
Figure 5 is a flow chart showing a method of controlling the mapping operation of the unmanned moving object according to the present invention
6 is a flow chart showing a method for controlling a moving operation of an unmanned moving object according to the present invention
7 is a flow chart showing a method for controlling the operation of a cloud server according to the present invention
8 is a flow chart showing a method of obtaining obstacle avoidance information in a cloud server
9 is a flow chart showing a method of controlling motion for an unmanned mobile IoT service in a cloud server
10 is a flow chart showing a method of changing an obstacle state in a cloud server

Hereinafter, a preferred embodiment of an apparatus and method for an unmanned mobile phone IoT service based on a cloud server according to the present invention will be described in detail as follows.

Features and advantages of an apparatus and method for a cloud server based unmanned mobile phone IoT service according to the present invention will become apparent through detailed description of each embodiment below.

1 is a configuration diagram of an apparatus for an unmanned mobile phone IoT service based on a cloud server according to the present invention.

The apparatus and method for an unmanned mobile phone IoT service based on the cloud server according to the present invention is to efficiently move to a destination even when there is an obstacle environment change on a path initially received through the cloud server based IoT service.

To this end, the present invention communicates with the cloud server from time to time while the unmanned mobile device connected to the cloud server capable of controlling the whole thing communicates with the cloud server to share the location, and determines whether environmental changes are possible through the cloud server when obstacles are recognized. It may include a configuration to create a driving environment.

The present invention may include a configuration that enables control and control of other objects through a cloud server, thereby expanding an activity area of an unmanned mobile device and allowing movement and activity in a wider space.

The apparatus for cloud server-based unmanned-mobile IoT service according to the present invention, as shown in FIG. 1, constructs an environment map to generate a movement path, transmits obstacle information detected during driving, receives obstacle avoidance information, and detects obstacles When the communication is made with the cloud server 200, the unmanned mobile body 100 requests to confirm whether or not the obstacle can be removed, and whether the obstacle can be removed from the unmanned mobile body 100 becomes an obstacle by requesting confirmation. The cloud server 200 and the cloud server 200 that provide obstacle avoidance information according to whether the IoT control object 300 can communicate or change the state of the IoT control object 300 so that the unmanned moving object 100 can pass by ) Connected to the IoT control object 300 to control the user terminal 400.

When explaining the detailed configuration of the device for the cloud server based unmanned mobile IoT service according to the present invention having such a configuration as follows.

2A to 2E are detailed configuration diagrams of a device for an unmanned mobile phone IoT service based on a cloud server according to the present invention.

2A is a detailed configuration diagram for driving control of an unmanned mobile body.

The unmanned moving object 100 is a data receiving unit 21 that receives data from the cloud server 200 and the sensing unit 24 when the execution of the unmanned moving object is started for driving through the unmanned moving object IoT service, and data reception between the sensors and Checking the transmission status and starting the battery communication to check whether there is an abnormality in the unmanned mobile device, the status check unit 22, and the status check unit 22, if it is checked that there is a problem during the operation, the error LED is activated. The error display unit 23 notifies that there is a problem in the unmanned mobile device, the sensing unit 24 sensing through the LIDAR sensor when there is no problem, and the sensing unit 24 checking the received data while sensing and The state of the mapping unit 25 that constructs the environment map to generate a movement path, the moving control unit 26 for driving control through the generation of the shortest path, and requests for obstacle detection and obstacle removal determination, and an unmanned moving body 100 It includes a state information and obstacle information processing unit 27 for transmitting data to the cloud server 200 and receiving obstacle information detected during driving and obstacle avoidance information.

2B is a detailed configuration diagram of the mapping unit 25 of the unmanned moving body 100.

When receiving the first data, the mapping unit 25 of the unmanned mobile device 100 receives no data from the cloud server, so the receiving data confirmation unit 31 immediately checks the received data from the LIDAR sensor and the data from the LIDAR sensor does not come. If not, the sensing data request unit 32 requests data transmission to the LIDAR sensor again, and an environment map construction unit 33 that creates a surrounding environment map through a SLAM (Simultaneously Localization and Mapping) algorithm based on the data received from the LIDAR sensor. And, it includes a path generation unit 34 for generating a route to the destination point based on the surrounding environment map created by the environment map construction unit 33 and transmits information about the destination location to the moving control unit 26.

2C is a detailed configuration diagram of the moving control unit 26 of the unmanned moving body 100.

The moving control unit 26 of the unmanned moving object 100 executes the navigation algorithm to generate the shortest path based on the information on the destination location received from the mapping unit 25, and the shortest path generation unit 41 and the shortest path generation A traveling control unit 42 for controlling the traveling of the unmanned moving body 100 along the shortest path generated by the unit 41, an obstacle detecting unit 43 for detecting an obstacle while the unmanned moving body 100 is traveling, If there is no obstacle detection by the obstacle detection unit 43, the vehicle continues to travel, and when the obstacle detection is performed by the obstacle detection unit 43, it communicates with the cloud server 200 to request an obstacle removal determination request to check whether the obstacle can be removed. Includes part 44.

2D is a detailed configuration diagram of the state information and obstacle information processing unit 27 for transmitting obstacle information and receiving obstacle avoidance information.

The status information and the obstacle information processing unit 27 transmits the status data check unit 51 for checking the status data of the unmanned moving object 100 and the status data checked by the status data checking unit 51 to the cloud server 200 By the cloud server 200, the state data transmission unit 52 to continuously grasp the position of the unmanned moving object 100, and the obstacle information transmission unit 53 for transmitting obstacle information detected during driving to the cloud server 200 ) And an obstacle avoidance information receiver 54 that receives obstacle avoidance information from the cloud server 200.

2E is a detailed configuration diagram of the cloud server 200.

The cloud server 200 checks the status data received through the status data receiving unit 61 and the status data receiving unit 61, which receives the status data transmitted from the unmanned mobile unit 100, and determines the location of the unmanned mobile unit 100. An unmanned mobile station location determination unit 62 for determining, and an IoT communication unit 63 for determining whether there is an object to which signals are not transmitted/received by attempting communication with other objects other than the unmanned mobile station 100 and an unmanned mobile unit ( When receiving the status data from 100), the driving control value calculation and transmission unit 64 and the unmanned moving object 100 that calculates information necessary for driving based on sensor values and delivers the result value as necessary to the unmanned moving object 100 Determines whether the object that is met is a communication-enabled object, and if the communication is not possible through the IoT communication unit 63, calculates information that can avoid the obstacle and avoids the obstacle that is transmitted to the unmanned mobile body 100 It includes an information calculation and transmission unit 65, and an obstacle state change control unit 66 for changing the state of an object so that the unmanned moving object 100 can pass when communication through the IoT communication unit 63 is connected.

3A and 3B are diagrams illustrating a navigation stack setup and doorway control algorithm for a cloud server-based unmanned mobile station IoT service according to the present invention.

The present invention is to efficiently move to a destination even when there is an obstacle environment change on a path initially received through a cloud server-based IoT service.

To this end, the present invention communicates with the cloud server from time to time while the unmanned mobile device connected to the cloud server capable of controlling the whole thing communicates with the cloud server to share the location, and determines whether environmental changes are possible through the cloud server when obstacles are recognized. It may include a configuration to create a driving environment.

For example, when an obstacle detected during driving of the unmanned mobile station is a door, the door state is determined to determine whether the door is open or closed.

If the door is open, the vehicle continues to run, if it is closed, the door is opened, and if the user permits, the door is unlocked and the vehicle continues to run.

The method for controlling the operation of the unmanned moving object according to the present invention will be described in detail as follows.

The method for cloud server-based unmanned mobile phone IoT service according to the present invention is to construct an environment map to generate a movement path, receive obstacle information detected during driving, and receive obstacle avoidance information, and when an obstacle is detected, the cloud server An unmanned mobile station control step for requesting confirmation of the possibility of removing obstacles by communication, and an IoT control object that becomes an obstacle by requesting confirmation of whether an obstacle of the unmanned mobile station can be removed in the unmanned mobile station control step is possible. And a cloud server control step of providing the obstacle avoidance information according to whether or not, or changing the state of the IoT control object so that the unmanned mobile vehicle can pass.

4 is a flowchart illustrating a method for controlling an unmanned moving object according to the present invention.

First, when the unmanned mobile device 100 starts running the unmanned mobile device for driving through the unmanned mobile device IoT service, checks data reception and transmission status between sensors and starts battery communication to check whether there is an abnormality in the unmanned mobile device.( S401)

Subsequently, if it is checked that there is a problem during the status check operation, an error LED is activated to display an error indicating that there is a problem in the unmanned mobile device (S402).

If an error occurs in the transmission and reception of status data, the execution of the unmanned moving object is terminated (S403).

And if it is confirmed that there is no problem by the state check operation, sensing is performed through the LIDAR sensor. (S404)

Subsequently, while sensing, the received data is checked and an environment map is constructed to perform a mapping operation control step of generating a movement path. (S405)

In addition, a moving control step of moving to a target point by performing driving control through generating the shortest path is performed (S406).

When such an obstacle is detected while driving, status information for requesting determination to remove the obstacle, transmitting status data of the unmanned moving object 100 to the cloud server 200, transmitting obstacle information detected during driving, and receiving obstacle avoidance information, and The obstacle information processing step is performed.

In FIG. 4, the operation control is divided into a Cloud1 server and a Cloud2 server, and this is divided into roles in one server, not two separately.

5 is a flow chart showing a method for controlling a mapping operation of an unmanned moving object according to the present invention.

In the mapping operation control step, when receiving the first data reception, since there is no data received from the cloud server (S501), the received data is immediately checked from the LIDAR sensor (S502).

Subsequently, when data is not coming from the LIDAR sensor, the data transmission is requested again to the LIDAR sensor (S503).

And when receiving data from the LIDAR sensor, based on the data received from the LIDAR sensor, a surrounding environment map is created through a SLAM (Simultaneously Localization and Mapping) algorithm. (S504)

Subsequently, a route is generated to the destination point based on the created surrounding environment map (S505), and information on the destination location is transmitted to the moving control unit 26 (S506).

6 is a flow chart showing a method for controlling a moving operation of an unmanned moving object according to the present invention.

First, the navigation algorithm is executed by the moving control unit 26 of the unmanned moving object 100 to generate the shortest path based on the information on the destination location transmitted from the mapping unit 25 (S601).

The driving of the unmanned moving object 100 is controlled along the shortest path generated in the shortest path generation step (S602).

When the unmanned moving object 100 detects an obstacle while driving (S603), it communicates with the cloud server 200 to request a confirmation of whether it is possible to remove the obstacle. (S604)

7 is a flow chart showing a method of controlling the operation of a cloud server according to the present invention.

The cloud server 1 (Cloud1 server) sends the unmanned mobile station status data to the cloud server (S701), checks the status data of the unmanned mobile station 100 (S702), and requests data from the LIDAR sensor (S703). The data is transmitted to the cloud server 200 so that the cloud server 200 can keep track of the location of the unmanned mobile device 100.

8 is a flow chart illustrating a method for obtaining obstacle avoidance information in a cloud server.

The obstacle information detected while driving in the cloud server 2 is transmitted to the cloud server 200 (S801), and when the data transmission is successfully received, the obstacle avoidance information is obtained from the cloud server 200 (S802).

9 is a flow chart illustrating a method of controlling motion for an unmanned mobile IoT service in a cloud server.

The cloud server 200 receives the state data transmitted from the unmanned mobile device 100 (S901), and transmits a status data reception success signal to the unmanned mobile device 100 (S903).

If the state data transmitted from the unmanned mobile station 100 is not received, the standby state is maintained. (S902)

Subsequently, the received state data is checked and the mapping unit 25 of the unmanned moving object 100 is driven (S904) to determine the position of the unmanned moving object 100 (S905).

Then, by attempting to communicate with other objects other than the unmanned moving object 100 (S906), it is determined whether there is an object for which a signal is not transmitted and received, and data connection and data test for an object for which the signal is not transmitted/received (S907). )

Subsequently, through the main algorithm of the unmanned vehicle (S908), information necessary for driving is calculated based on sensor values, and a result value as necessary is transmitted to the unmanned vehicle, and information capable of avoiding obstacles is calculated to generate an unmanned vehicle 100 Transfer to (S909).

The cloud server maintains the standby state before receiving data from the unmanned mobile station, sends a reception success signal upon receiving the data, and operates in the order of the mapping unit 25, the IoT communication unit 63, and the main algorithm of the unmanned mobile unit. .

The mapping unit 25 helps to grasp the location of the unmanned mobile station by floating the learned overall map, and the IoT communication unit 63 attempts to communicate with other objects other than the unmanned mobile station, so that there is an object for which signals are not transmitted/received Make a judgment about.

In the unmanned moving object main algorithm, when sensor data is received from the unmanned moving object, information necessary for driving is calculated based on the sensor values, and the result value as necessary is transmitted to the unmanned moving object.

Simple algorithms work even on unmanned mobile devices, but it is desirable to move around the information received from the cloud server rather than individual unmanned moving objects because it requires high CPU power when calculating detailed algorithms.

10 is a flow chart showing a method of changing an obstacle state in a cloud server

In the cloud server 2 (Cloud2 server), the object that the unmanned mobile object 100 encounters is determined to be a communication-capable object (S1101), and if it is not a communication-capable object, information that can avoid an obstacle is calculated and unattended The object is connected to the mobile body 100, and if the object is connected to the communication, the location of the unmanned mobile body is checked and before it reaches the destination (S1102), the state of the object is changed so that the unmanned mobile body 100 can pass. (S1103)

The apparatus and method for a cloud server-based unmanned-mobile IoT service according to the present invention described above is to efficiently move to a destination even when there is an obstacle environment change on a path initially received through a cloud server-based IoT service.

It will be understood that the present invention is implemented in a modified form without departing from the essential characteristics of the present invention as described above.

Therefore, the specified embodiments should be considered in terms of explanation, not limitation, and the scope of the present invention is shown in the claims rather than the above description, and all differences within the equivalent range are included in the present invention. Should be interpreted.

100. Unmanned mobile device 200. Cloud server
300. IoT control object 400. User terminal

Claims (17)

An unmanned mobile body that constructs an environment map to generate a movement path, transmits obstacle information detected while driving, and receives obstacle avoidance information, and when an obstacle is detected, communicates with a cloud server to request whether to remove the obstacle;
The obstacle control information is provided according to whether it is possible to communicate with the IoT control object that becomes an obstacle by requesting confirmation of whether the unmanned mobile vehicle can remove the obstacle, or the state of the IoT control object is changed so that the unmanned mobile vehicle can pass. Cloud server;
Device connected to the cloud server, IoT control objects and a user terminal for controlling and monitoring the driving of the unmanned moving object; Cloud server-based device for an unmanned moving object IoT service comprising a. According to claim 1, The unmanned mobile body for driving through the unmanned mobile body IoT service,
Data receiving unit for receiving data of the sensing unit of the cloud server and the unmanned mobile station,
A mapping unit that senses received data and builds an environment map while sensing in the sensing unit to generate a movement path,
A moving control unit that controls driving through the shortest path generation and requests obstacle detection and obstacle removal determination,
Apparatus for cloud server based unmanned mobile station IoT service, characterized by including status information and obstacle information processing unit that transmits status data of unmanned moving object to cloud server and receives obstacle information detected during driving and obstacle avoidance information . According to claim 1, When the execution of the unmanned mobile body is started for driving through the unmanned mobile body IoT service,
A status check unit for checking data reception and transmission status between sensors, and checking whether there is an abnormality in the unmanned mobile device by starting battery communication;
When it is checked that there is a problem during the state check operation in the status check unit, an error LED is activated to indicate that there is a problem in the unmanned mobile device, and an error display unit is included.
When it is confirmed that there is no problem, a device for an unmanned mobile phone IoT service based on a cloud server, characterized in that sensing is performed through a LIDAR sensor. The method of claim 2, wherein the mapping unit,
A reception data confirmation unit for confirming reception data from the LIDAR sensor of the sensing unit;
If there is no data from the LIDAR sensor, the sensing data request unit requests data transmission to the LIDAR sensor again,
Based on the data received from the LIDAR sensor, an environment map construction unit that creates a surrounding environment map through a SLAM (Simultaneously Localization and Mapping) algorithm,
A cloud server-based unmanned mobile IoT service comprising a movement path generation unit that generates a route to a destination point based on the surrounding environment map created by the environment map construction unit and transmits information on the destination location to a moving control unit. Device for. According to claim 2, The moving control unit,
A shortest path generation unit that executes a navigation algorithm to generate a shortest path based on information on a destination location received from the mapping unit;
A driving control unit for controlling the driving of the unmanned moving object along the shortest path generated by the shortest path generating unit,
Obstacle detection unit for detecting an obstacle while the unmanned moving object is driving,
If there is no obstacle detection by the obstacle detection unit, the vehicle continues to travel, and when the obstacle detection is performed by the obstacle detection unit, the cloud server includes an obstacle removal determination request unit that communicates with the cloud server to check whether the obstacle is removed or not. Device for IoT service based on unmanned mobile devices. The method of claim 2, wherein the status information and obstacle information processing unit,
A status data checking unit that checks status data of the unmanned moving object,
A status data transmission unit that transmits the status data confirmed by the status data confirmation unit to the cloud server so that the cloud server can continuously grasp the location of the unmanned mobile station;
Obstacle information transmission unit for transmitting the obstacle information detected while driving to the cloud server,
And an obstacle avoidance information receiving unit receiving obstacle avoidance information from the cloud server. The method of claim 1, wherein the cloud server,
A status data receiving unit that receives status data transmitted from the unmanned mobile station,
An unmanned moving object position determination unit for determining the position of the unmanned moving object by checking the received state data through the state data receiving unit,
An IoT communication unit that attempts to communicate with other objects other than an unmanned mobile device to determine whether there is an object for which signals are not transmitted or received,
When receiving the status data from the unmanned moving object, the cloud server-based unmanned moving object IoT comprising a driving control value calculation and transmission unit that calculates information necessary for driving based on sensor values and delivers the result value as necessary to the unmanned moving object. Device for service. The method of claim 7, wherein the cloud server,
Calculation and transmission of obstacle avoidance information to determine whether the object that the unmanned mobile object encounters is an object capable of communication, and to avoid obstacles when it is not an object that can communicate through the IoT communication unit Boo,
A device for cloud server based unmanned mobile station IoT service comprising an obstacle state change control unit for changing the state of an object so that the unmanned mobile station can pass when communication through the IoT communication unit is connected. Build an environment map to create a movement path, transmit obstacle information detected during driving and receive obstacle avoidance information, and when an obstacle is detected, communicate with a cloud server to check whether or not obstacle removal is possible. step;
In the step of controlling the unmanned moving object, providing an obstacle avoidance information according to whether it is possible to communicate with an IoT control object that becomes an obstacle by requesting confirmation of whether the unmanned moving object is capable of removing obstacles, or controlling the IoT to allow the unmanned moving object to pass Cloud server control step of changing the state of the object; Method for a cloud server based unmanned mobile station IoT service comprising a. 10. The method of claim 9, For driving through the unmanned object IoT service in the unmanned object control step,
When the execution of the unmanned mobile device starts, check the data reception and transmission status between the sensors, and start the battery communication to check whether there is an abnormality in the unmanned mobile device,
If it is checked that there is a problem during the status check operation, an error LED is activated to display an error indicating that there is a problem in the unmanned mobile device, and
A method for cloud server based unmanned mobile station IoT service, comprising the step of terminating the execution of the unmanned mobile station when an error occurs in transmitting and receiving state data. The method of claim 10, wherein, when it is confirmed that there is no problem by the status check operation,
Sensing through the LIDAR sensor,
A mapping operation control step of generating a movement path by checking received data and constructing an environment map while sensing,
A method for cloud server based unmanned mobile station IoT service characterized by performing a moving control step of moving to a target point by driving control through shortest path generation. 12. The method of claim 11, If an obstacle is detected while driving by performing a moving control step, an obstacle removal determination request is made,
A cloud server based unmanned mobile IoT service for transmitting unmanned mobile station status data to a cloud server, and performing status information and obstacle information processing steps for transmitting obstacle information detected during driving and receiving obstacle avoidance information Way. The method of claim 11, wherein the mapping operation control step,
When receiving the first data, since there is no data received from the cloud server, immediately checking the received data from the LIDAR sensor,
If data is not coming from the LIDAR sensor, requesting data transmission to the LIDAR sensor again,
Based on the data received from the LIDAR sensor, creating a surrounding environment map through a SLAM (Simultaneously Localization and Mapping) algorithm,
A method for cloud server based unmanned mobile station IoT service comprising the steps of creating a route to a destination point based on the created environment map and transmitting information on the destination location to a moving control unit. 12. The method of claim 11, Moving control step,
Generating a shortest path based on information on a destination location transmitted from the mapping unit by executing a navigation algorithm in the moving control unit of the unmanned mobile unit,
Controlling the driving of the unmanned moving object along the shortest path generated in the shortest path generation step,
A method for a cloud server based unmanned body IoT service comprising the step of making a request to check whether the obstacle is removed by communicating with a cloud server when an obstacle is detected while the unmanned body is driving. 10. The method of claim 9, Cloud server control step,
When the unmanned mobile station status data is transmitted to the cloud server, checking the unmanned mobile station status data,
The step of requesting the data from the LIDAR sensor to continuously determine the location of the unmanned mobile station based on the confirmed status data,
The method for cloud server based unmanned mobile station IoT service comprising the step of calculating obstacle avoidance information when the obstacle information detected while driving is transmitted to the cloud server and providing the obstacle avoidance information to the unmanned mobile station. 10. The method of claim 9, Cloud server control step,
A step in which the cloud server receives the status data transmitted from the unmanned mobile station, and transmits a status data reception success signal to the unmanned mobile station;
Maintaining a standby state when the state data transmitted from the unmanned mobile station is not received;
Checking the received state data and driving the mapping unit of the unmanned moving object to determine the position of the unmanned moving object,
Attempting to communicate with objects other than the unmanned mobile station, determining whether there is an object for which signals are not transmitted and receiving, and performing data connection and data testing for the object for which signals are not transmitted and received;
A method for a cloud server-based unmanned body IoT service, comprising calculating information required for driving based on sensor values through an unmanned body main algorithm and passing a result value as needed to the unmanned body. 10. The method of claim 9, Cloud server control step,
Determining whether an obstacle recognized by the unmanned moving object is an object capable of communication;
If the communication is not possible, calculating the information that can avoid the obstacle and transmitting it to the unmanned moving object,
Method for a cloud server-based unmanned mobile station IoT service comprising the step of changing the state of the object so that the unmanned mobile station can pass if the communication is connected.

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