JP2021037951A - Defense device, defense system and program for defense device - Google Patents

Abstract

To enable a user to instruct a moving object to be protected from disturbances, such as rain, snow, hail, sunlight, and ultraviolet light from a prest tracking start position only by transmitting start information.SOLUTION: A defense system includes: a defense device; and an external device to be connected by radio. The defense device includes: an umbrella part for defensing a moving object from prescribed disturbances; an aerial movement mechanism for causing the umbrella part to perform aerial movement; a tracking start position storage part for storing information of a tracking start position in association with information for identifying the tracking start position; and a control part. The external device transmits start information including information for identifying the tracking start position to the defense device. The control part of the defense device reads and acquires the tracking start position stored in the tracking start position storage part on the basis of the information for identifying the tracking start position included in the start information received through a communication part, and controls the aerial movement mechanism so as to move to the acquired tracking start position.SELECTED DRAWING: Figure 3

Description

The present invention is for a defense device that protects against disturbances such as rain, snow, hail, sunlight, and ultraviolet rays by covering the sky above a person or a moving object, and a defense system and a defense device using this protection device. Regarding the program.

To protect themselves from disturbances such as rain, snow, hail, sunlight, and ultraviolet rays, people open their umbrellas and carry them in their hands. However, if both hands are blocked to carry luggage, if you are in a wheelchair, or if you are a disabled person who cannot hold an umbrella in your hand, you cannot move with an umbrella in your hand. ..

In view of this, various umbrella holders have been conventionally proposed so that an umbrella can be held without holding it by hand. For example, Patent Document 1 (Japanese Unexamined Patent Publication No. 2008-253651) discloses an umbrella holder in which an umbrella holder is provided between a shoulder hook and a belt fastener attached to a belt of trousers. According to this umbrella holder, after attaching the existing umbrella to the holder, the umbrella can be held without having to hold it by hand, which is convenient.

Japanese Unexamined Patent Publication No. 2008-253651

However, in the case of a method of holding the umbrella against the human body by using the umbrella holder disclosed in Patent Document 1 or the like, the umbrella is protected from disturbances such as rain, snow, hail, sunlight, and ultraviolet rays. To do this, you must carry an umbrella holder with your umbrella. Then, after the umbrella holder is attached to the human body, it is necessary to engage the umbrella with the holder of the umbrella holder.

For this reason, when traveling a short distance, for example, moving from the garage at home to the entrance at home, it is troublesome to carry and wear the cellphone, and in practice, it is often not used.

In view of the above points, the present invention makes it possible to protect a moving object such as a person from disturbances such as rain, snow, hail, sunlight, and ultraviolet rays without attaching an umbrella to a moving object such as a human body. The purpose is to provide a sleet defense system.

In order to solve the above problems, the invention of claim 1 is
A defense system consisting of a defense device that follows the moving object and flies in the air so as to protect the moving object from a predetermined disturbance, and an external device that is wirelessly connected to the defense device.
The defense device is
An umbrella portion for protecting the moving object from the predetermined disturbance by covering the sky above the moving object, and an umbrella portion.
An aerial movement mechanism for moving the umbrella portion in the air,
A communication unit for wireless communication with the external device,
A tracking start position storage unit that stores information on the tracking start position in association with information for specifying the tracking start position.
Control unit and
With
The external device is
It is provided with an activation information transmission unit that transmits the activation information including information for specifying the tracking start position to the defense device.
The control unit of the defense device
Based on the information for specifying the follow-up start position included in the start information from the external device received through the communication unit, the follow-up start position stored in the follow-up start position storage unit is read out and acquired. Further, the present invention provides a defense system characterized in that the aerial movement mechanism is controlled so as to move to the acquired follow-up start position.

The defense system of the invention according to claim 1 having the above configuration includes a defense device that follows the moving object and flies in the air so as to protect the moving object from a predetermined disturbance, and an external device that is wirelessly connected to the protective device. It consists of a device.

The defense device is provided with an umbrella part for protecting the moving object from a predetermined disturbance by covering the sky above the moving object, and is configured so that the umbrella part can be moved in the air by the aerial movement mechanism. Has been done. Further, the defense device includes a tracking start position storage unit that stores information on the tracking start position in association with information for specifying the tracking start position.

The external device transmits activation information including information for specifying the tracking start position to the defense device. The control unit of the defense device reads, acquires, and acquires the tracking start position stored in the tracking start position storage unit based on the information for specifying the tracking start position included in the activation information received through the communication unit. The aerial movement mechanism is controlled so as to move to the follow-up start position.

According to the defense system according to the present invention, the defense device is moved to the follow-up start position by transmitting start information including information for specifying the follow-up start position from the external device to the defense device, and the follow-up start is started. From the position, the umbrella portion can be moved following the moving object while covering the sky above the moving object such as the human body. Therefore, even if an umbrella or the like is not attached to a moving object such as a human body as in the conventional case, a moving object such as a person can be moved from a disturbance such as rain, snow, hail, sunlight, or ultraviolet rays from a specified follow-up start position. Can defend.

It is a figure for demonstrating the configuration example of the defense apparatus in 1st Embodiment of the defense system by this invention. It is a block diagram of the configuration example of the drive control device part of the defense device in 1st Embodiment of the defense system by this invention. It is a figure for demonstrating a part of the block of the block diagram of FIG. It is a figure for demonstrating a part of the block of the block diagram of FIG. It is a figure for demonstrating a part of the block of the block diagram of FIG. It is a figure for demonstrating the whole configuration example of the 1st Embodiment of the defense system by this invention. It is a figure which shows a part of the flowchart for demonstrating the processing operation example of the defense device in 1st Embodiment of the defense system by this invention. It is a figure which shows a part of the flowchart for demonstrating the processing operation example of the defense device in 1st Embodiment of the defense system by this invention. It is a figure for demonstrating the structural example of the 2nd Embodiment of the defense system by this invention. It is a block diagram of the configuration example of the drive control device part of the defense device in the 2nd Embodiment of the defense system by this invention. It is a figure for demonstrating another configuration example of the 2nd Embodiment of the defense system by this invention. It is a figure for demonstrating the structural example of the 3rd Embodiment of the defense system by this invention. It is a figure which shows the flowchart for demonstrating the processing operation example in the vending machine 61 used in the 3rd Embodiment of the defense system by this invention. It is a figure for demonstrating the structural example of the 4th Embodiment of the defense system by this invention. It is a figure for demonstrating the structural example of the 5th Embodiment of the defense system by this invention. It is a figure for demonstrating the structural example of the 6th Embodiment of the defense system by this invention.

[Explanation of the first embodiment]
FIG. 1 is a diagram showing a configuration example of a defense device (first embodiment of the defense device) according to the first embodiment of the defense system according to the present invention. The defense device 1 of the first embodiment has a configuration of an air vehicle that can autonomously fly in the air and move, and assumes a person as a moving object. FIG. 1A is a view of the defense device 1 of this embodiment viewed from above, and FIG. 1B is a view of the defense device 1 of this embodiment viewed from the side. is there.

The defense device 1 of this embodiment includes a so-called quadcopter, an aerial flight mechanism portion 2 having a structure in which an umbrella portion is attached, and a drive control unit 3. The aerial flight mechanism unit 2 is driven and controlled by the drive control unit 3. As shown in FIG. 1, the aerial flight mechanism unit 2 is configured by attaching propeller mechanisms 5A, 5B, 5C, 5D to the tips of four arms 4A, 4B, 4C, 4D extending from the drive control unit 3. ing.

The propeller mechanisms 5A, 5B, 5C, and 5D rotate the propeller shafts (not shown) by the engine portions 51A, 51B, 51C, and 51D, respectively, to rotationally drive the propellers 52A, 52B, 52C, and 52D. It is configured in. The rotation speed and rotation direction of the engine units 51A, 51B, 51C, and 51D are controlled by the drive control signal from the drive control unit 3.

In this example, the engine units 51A, 51B, 51C, and 51D are independently controlled by the drive control signal from the drive control unit 3, so that the defense device 1 which is an air vehicle takes off, lands, and ascends. , Down, right turn, left turn, forward, reverse, right shift, left shift, etc., as well as attitude control such as tilt angle with respect to the vertical direction and position of hovering position It is designed to be controllable.

Then, in the defense device 1 of this embodiment, the umbrella portion 6 is fixedly attached to the housing of the drive control unit 3. In this example, the umbrella portion 6 is formed by adhering a sheet member made of cloth, synthetic fibers, or the like to a frame member made of metal, for example, and is formed in a dome shape as a whole. In this example, the umbrella portion 6 is attached to the housing of the drive control unit 3 by fixing the skeleton member and adhering the seat member.

The umbrella portion 6 is sized to protect the person from disturbances such as rain, snow, hail, sleet, hail, sunlight, and ultraviolet rays by covering the sky above the person, which is an example of a moving object. The sheet member of the umbrella portion 6 is subjected to processing such as waterproofing, water repellency, and ultraviolet ray blocking according to the disturbance of the object to be protected. In the first embodiment described below, a case of protecting a person from rain, snow, sleet, hail, hail, and the like will be described.

Further, two legs 7A and 7B are attached to the housing of the drive control unit 3 so as to face each other. In this example, the legs 7A and 7B are made of pipe members formed into a trapezoidal shape, and as shown in FIG. 1B, the edge portion of the umbrella portion 6 does not come into contact with the landing plane on the landing plane 8. It is formed so as to stably hold the defense device 1.

A drive control device unit 10 is provided in the drive control unit 3. FIG. 2 is a block diagram showing a configuration example of the drive control device unit 10 in the defense device 1 of this embodiment.

As shown in FIG. 2, the drive control device unit 10 in this embodiment refers to the control unit 101 composed of a microcomputer (abbreviated as a microcomputer in FIG. 2) through the system bus 100, the aerial flight drive unit 102, and the gyro sensor. 103, geomagnetic sensor 104, altitude sensor 105, rainfall sensor 106, wind sensor 107, current position detection unit 108, object camera 109, peripheral camera 110, memory unit 111, communication unit 112, object recognition unit 113, follow-up movement end The detection unit 114, the flight drive signal generation unit 115, the position / orientation control signal generation unit 116, and the battery check unit 117 are connected to each other.

The air flight drive unit 102 supplies drive control signals to the engine units 51A, 51B, 51C, and 51D of the propeller mechanisms 5A, 5B, 5C, and 5D of the air flight mechanism unit 2 according to the control of the control unit 101.

The gyro sensor 103 detects a change in acceleration in the defense device 1, and is used to detect the traveling direction of the defense device 1, its speed, and its posture. The geomagnetic sensor 104 is used to detect in which direction the defense device 1 is flying and moving. The altitude sensor 105 is for detecting the altitude at which the defense device 1 is located at that time point, and includes, for example, a barometric pressure sensor.

The rainfall sensor 106 is used to detect how much rain is falling at that time and how strong it is (such as the size of raindrops). The precipitation sensor 106 is also supposed to be able to detect snow, sleet, hail, hail and the like.

The wind sensor 107 is used to detect the wind direction and the wind speed. The wind speed can be detected by, for example, a pressure sensor.

The current position detection unit 108 includes, for example, a GPS (Global Positioning System) receiver, and detects the latitude, longitude, and altitude of the current position of the defense device 1. In order to obtain more accurate location information, the current position may be detected using radio waves from a mobile phone base station or radio waves from an access point for Wi-Fi (Wireless Fidelity (registered trademark)) communication. ..

The object camera 109 is a camera for imaging a moving object, and when the defense device 1 is located above the moving object, the optical axis of the imaging is for imaging the moving object. The direction is provided in the drive control unit unit 3 so as to face downward of the umbrella unit 6. The peripheral camera 110 is a camera for photographing the periphery of the traveling direction when the defense device 1 is flying and moving, and the optical axis direction of the imaging is the horizontal direction when the defense device 1 is in the landing state. It is provided in the drive control unit unit 3 so as to face.

The memory unit 111 stores various data for control of the control unit 101. In this example, the memory unit 111 includes a base position storage unit 1111, a tracking start position storage unit 1112, and a registered image pickup image storage unit 1113.

In this embodiment, the defense device 1 is accommodated in a predetermined base when it is not in use. The position of this base is set and registered by the user, and is stored in the base position storage unit 1111. The follow-up start position is a position where the defense device 1 waits to recognize the moving object and starts the following movement when the moving object is recognized. In this embodiment, the tracking start position is set and registered by the user. It is stored in the tracking start position storage unit 1112. Further, in this embodiment, the user registers in advance an image of a person as an example of a moving object to be protected, and stores and stores the image in the registered image storage unit 1113.

In this embodiment, an external portable device 9 for performing the above registration process and transmitting activation information of the defense device 1 described later is prepared as a device that cooperates with the defense device 1. The communication unit 112 is a communication unit for connecting to the external mobile device 9 through a wireless communication path.

In this case, as the external portable device 9, a portable notebook computer or a high-performance mobile phone terminal called a smartphone can also be used. That is, a dedicated application program for registering the above-mentioned various information is installed in these portable notebook computers and smartphones so that they can be connected to the defense device 1 and communicate with each other through the communication unit 112. Just do it.

When registering the location of the base, the user positions the defense device 1 at the base. Then, the position information detected by the current position detection unit 108 from the external portable device 9 wirelessly connected by the communication unit 112 to the defense device 1 according to the instruction information, for example, the latitude, longitude, and altitude are used as the base position information. It is stored in the position storage unit 1111. Further, in this embodiment, the user sends instruction information from the external portable device 9 to the defense device 1, and in the defense device 1, the image pickup information at the position of the base or the position near the base by the object camera 109. The information captured by the peripheral camera 110 at the position of the base or the position near the base is associated with the position information of the base and stored in the base position storage unit 1111. In this case, the position in the vicinity of the base includes the position where the defense device 1 is hovering over the base and the position in the vicinity when the defense device 1 is heading toward the base.

As will be described later, when the defense device 1 returns to the base from the state of flying and moving, the captured image of the object camera 109 and the peripheral cameras 110 and the captured image stored in the base position storage unit 1111 are displayed. By flying while comparing and referring, it is possible to return to the base accurately.

Next, when registering the follow-up start position, the user positions the defense device 1 at each follow-up start position. Then, in the same manner as described above, the instruction information is sent from the external portable device 9 wirelessly connected to the communication unit 112 to the defense device 1, and in the defense device 1, the tracking start position storage unit 1112 is provided with the position information of the tracking start position. , The imaging information at the tracking start position and its vicinity position by the object camera 109 and the imaging information at the tracking start position and its vicinity position by the peripheral camera 110 are stored.

FIG. 3 shows an example of the storage data of the tracking start position storage unit 1112. As shown in FIG. 3, the follow-up start position storage unit 1112 has the name of the follow-up start position designated by the user in the external portable device 9, such as "base" and "entrance", and the follow-up start position ID ( The ID is identification information), the position information, and the captured image information of the object camera 109 and the peripheral camera 110 at the tracking start position are associated with each other and stored for each tracking start position.

In the external portable device 9, the name of the tracking start position designated by the user and the tracking start position ID (ID is identification information) are associated and stored in the tracking start position memory. As will be described later, when the start information is transmitted from the external portable device 9, the user selects the follow start position specified by the start information from the follow start positions stored in the follow start position memory. It is designed so that it can be specified.

Next, when registering the captured image of the moving object, the user controls the defense device 1 to hover over the person to be registered according to the instruction from the external mobile device 9, and in that state, the target. The object camera 109 is instructed to take an image of the person to be registered. Then, in the external portable device 9, the name of the person to be registered is input and transmitted to the defense device 1, and the registration instruction of the captured image of the person is sent to the defense device 1.

FIG. 4 shows an example of the storage contents of the registered image storage unit 1113 of the memory unit 111 at this time. That is, in the registered image pickup image storage unit 1113, the name of the person, the moving object ID thereof, and the information of the image captured by the object camera 109 are stored in association with each other.

Then, the name of the person and the ID of the moving object are also stored in the moving object memory in the external portable device 9. Then, as will be described later, when the activation information is transmitted from the external portable device 9, the user specifies the activation information from the person as an example of the movement object stored in the movement object memory. It is possible to select and specify a person as a moving object to be moved.

The communication unit 112 receives the activation information from the external mobile device 9 and supplies it to the control unit 101. That is, the communication unit 112 constitutes the activation information receiving unit of this embodiment. The control unit 101 detects that the communication unit 112 has received this activation information, and activates the defense device 1. FIG. 5 shows an example of activation information transmitted from the external portable device 9. Prior to the transmission of the activation information, the user performs the selection designation of the tracking start position described above and the selection designation of the moving object in the external mobile device 9.

As shown in FIG. 5, the activation information includes a start command code, a moving object ID of a moving object to be protected, and a following start position ID for specifying a position to start following. As will be described later, the control unit 101 grasps the moving object to be protected by referring to the registered image storage unit 1113 based on the moving object ID included in the activation information, and starts following by the tracking start position ID. By referring to the position storage unit 1112, the position where the tracking starts is grasped.

In this embodiment, the object recognition unit 113 includes an image of the moving object captured by the object camera 109 at the tracking start position and a moving object ID included in the activation information read from the registered image storage unit 1113. By recognizing the image by comparing it with the captured image of the moving object associated with, the person of the moving object to be followed is recognized. Then, in this embodiment, after the object recognition unit 113 recognizes the moving object, the object image captured by the object camera 109 is captured in order to perform the movement following the movement of the moving object. , It is stored in the object image storage unit 118. Then, image recognition for movement following the movement of the moving object is performed using the captured image information stored in the object image storage unit 118.

The moving object recognized by the object recognition unit 113 is a person in this example, but the object recognized by the object recognition unit 113 is not only the face and body of the person, but also clothes and / or belongings. Can be.

The follow-up movement end detection unit 114 performs movement following the movement of the moving object, and when it is determined that the moving object has entered a building where the disturbance does not reach or has entered a car, the moving target is moved. It is determined that the following movement of the object is completed, and the determination result is notified to the control unit 101. The determination by the following movement end detection unit 114 is performed by analyzing the captured image information of the object camera 109. When the control unit 101 determines that the follow-up movement is completed, the control unit 101 performs a control process so as to return the defense device 1 to the base by flight movement.

When the flight drive signal generation unit 115 flies and moves from the base to the tracking start position designated by the control unit 101 based on the activation information, the position of the base stored in the base position storage unit 1111 of the memory unit 111. From the information and the position information of the designated follow-up start position read from the follow-up start position storage unit 1112, the direction and distance from the base position to the designated follow-up start position are calculated. Further, when returning from the current position to the base based on the determination that the follow-up movement is completed by the control unit 101, the position information of the current position detected by the current position detection unit 108 and the position information of the current position are stored in the base position storage unit 1111. From the location information of the base, the direction and distance to return to the base from the current position are calculated.

Then, the flight drive signal generation unit 115 uses information such as the gyro sensor 103, the geomagnetic sensor 104, and the altitude sensor 105 based on the calculated direction and distance, and further captures images of the object camera 109 and the peripheral camera 110. With reference to the reference, a flight drive signal for moving from the base position to the designated follow-up start position is generated and supplied to the air flight mechanism unit 2 through the air flight drive unit 102. In this case, the flight drive signal comprises signals for driving each of the engine units 51A to 51D of the four propeller mechanisms 5A to 5D. The generated flight drive signal is supplied to each of the engine units 51A to 51D of the air flight mechanism unit 2 through the air flight drive unit 102.

In response to this flight drive signal, the aerial flight mechanism unit 2 rotationally drives each of the propellers 52A to 52D to fly from the base to the follow-up start position or from the current position where the follow-up movement ends to the base by aerial flight. Make a move.

The drive control device unit 10 stores the captured images of the object camera 109 and the peripheral cameras 110 in the flight movement path from the base to the follow-up start position, and the stored captured images and the target during the flight movement. A flight drive signal may be generated while comparing and referring to the captured images of the object camera 109 and the peripheral camera 110 to control the drive of the flight movement path from the base of the defense device 1 to the follow-up start position. Similarly, the captured images of the object camera 109 and the peripheral cameras 110 in the flight movement path from the follow-up start position to the current position are stored, the stored captured images are traced in reverse, and the object is being moved during the flight. A flight drive signal may be generated while comparing and referring to the captured images of the camera 109 and the peripheral camera 110 to control the drive of the flight movement path returning from the current position of the defense device 1 to the base.

The position / attitude control signal generation unit 116 positions the umbrella unit 6 with respect to the moving object (moving object) based on the images captured by the altitude sensor 105, the rainfall sensor 106, the wind sensor 107, and the object camera 109 and the peripheral camera 110. Generates a position / attitude control signal that controls the posture such as the position directly above, the position slightly separated from the front, back, left and right, the position in the vertical direction (height position), and the tilt angle and tilt direction of the umbrella portion 6. .. In this case, the position / attitude control signal generation unit 116 generates the position / attitude control signal so that the position and orientation of the umbrella unit 6 is such that the disturbance does not reach the moving object as much as possible.

For example, in the position / orientation control signal generation unit 116, if there is rainfall and there is almost no wind, the position and attitude of the umbrella unit 6 may be directly above the moving object or slightly deviated in the traveling direction of the moving object. , The position / orientation control signal is generated so that the inclination angle of the umbrella portion 6 with respect to the vertical direction is zero. However, if there is wind due to rainfall, the position / attitude control signal generation unit 116 considers the position and attitude of the umbrella unit 6 in consideration of the wind direction and wind power, and the traveling direction of the moving object, and the rainfall is the moving object. The position / attitude control signal is generated so as not to reach. That is, for example, the position of the umbrella portion 6 is deviated from directly above the moving object according to the direction of the wind, the wind force, and the traveling direction of the moving object, and is set to a predetermined height position and the umbrella. The tilt angle and tilt direction of the portion 6 are also determined according to the wind direction and the wind force, and further the traveling direction of the moving object.

A battery 119 is connected to the battery check unit 117. That is, the defense device 1 of this embodiment has a battery 119 as a drive power source. In this embodiment, the battery 119 uses a rechargeable secondary battery, includes a solar panel (not shown), and is rechargeable by sunlight. Then, in consideration of the case where the charging based on the sunlight received by the solar panel is insufficient, it is possible to charge by another charging method based on the electric power from another generator or the electric wire.

In this example, the battery check unit 117 detects the voltage of the battery 119 and the remaining battery level, and checks whether the battery 119 has accumulated a sufficient voltage and the remaining battery level for flight from the detection result. Then, it plays a role of notifying the control unit 101 of the check result. Upon receiving the check result from the battery check unit 117, the control unit 101 determines whether or not the charge state of the battery 119 is in a state of a voltage sufficient for flight and a remaining battery level.

When the control unit 101 receives the check result of the battery check unit 117 and determines that the battery 119 does not have sufficient voltage and remaining battery power for flight, the control unit 101 sends the start information to the external portable device 9. Sends an error signal indicating that the voltage is insufficient or the battery level is insufficient. In the external portable device 9 that receives this error signal, an error message such as "insufficient voltage" or "insufficient battery level" is displayed on the display screen to notify the user that the protection device 1 cannot be used. To do.

Then, the control unit 101 constantly monitors the check result from the battery check unit 117 while the defense device 1 is in flight, and the voltage of the battery 119 and the remaining battery level are about to become dangerous for flight. When it is determined, the defense device 1 is controlled to be forcibly returned to the base. Here, the determination of whether or not "the voltage of the battery 119 and the remaining battery level are about to reach a dangerous state as the voltage required for flight and the remaining battery level" is the amount of flight movement returning from the current position to the base. It is a determination as to whether or not the battery 119 can maintain the power supply voltage and the remaining battery level. Therefore, the battery check unit 117 calculates the distance between the current position and the base during the flight of the defense device 1, and the battery 119 has the power supply voltage and the remaining battery level required for the flight movement of the distance. I try to check if it is.

In FIG. 2, the object recognition unit 113, the follow-up movement end detection unit 114, the flight drive signal generation unit 115, and the position / attitude control signal generation unit 116 can be realized by the control unit 101 as a software processing function. ..

[Usage example of defense device 1]
FIG. 6 is a diagram for explaining a usage example of the defense device 1 of the first embodiment. An example of this use is when moving between the front door of your home and the garage to protect your family from the disturbances of rain, snow, sleet, hail, hail, etc. ..

In this example, as shown in FIGS. 6A and 6B, the garage 23 is installed at a position away from the entrance 22 of the house 21, and the base 24 of the defense device 1 is installed on the roof of the garage 23, for example. Is provided.

Then, in this example, as described above, the external portable device 9 (not shown in FIG. 6) used together with the defense device 1 is used as the defense device 1, and the captured image of the householder living in the house 21 is captured. It is assumed that the position of the base 24 and the entrance 22 of the house 21 are registered as the follow-up start positions as well as being registered as the moving object.

In this example, the external portable device 9 is configured as a smartphone owned by a householder, and a necessary software program is installed in advance. When there are a plurality of family members, all the captured images of the family members are registered in the defense device 1 as moving objects. Then, in the smartphone possessed by each of the householders, all the information stored in the external portable device 9 at the time of registering the tracking start position and the captured image described above is stored in exactly the same manner.

In FIG. 6A, after the householder 25 returns home by car and puts the car in the garage 23, the defense device 1 is used for moving from the garage 23 to the entrance 22, for example, in order to protect from rainfall. If this is the case. In the case of the example of FIG. 6A, the householder 25 launches an application for activating the defense device 1 on his / her own smartphone, designates a base as a follow-up start position, and moves himself / herself. Specify it as a thing and send the startup information.

The defense device 1 that was in the standby state at the base 24 is activated when it receives this activation information, recognizes that the tracking start position is the base 24 from the tracking start position ID included in the activation information, and uses the activation information as the activation information. From the included moving object ID, it is recognized that the moving object is the householder 25, and the captured image of the householder 25 is read from the registered image storage unit 1113 of the memory unit 111 and supplied to the object recognition unit 113. ..

Then, the vehicle starts from the base 24, hovering over the exit of the garage 23, stands by, and starts imaging with the object camera 109. Then, when the family member 25 comes out of the garage 23, the defense device 1 matches the captured image captured by the object camera 109 with the registered captured image of the family member 25 read from the registered image storage unit 1113 of the memory unit 111. By performing image recognition for making a determination, the family member 25 is recognized, and when the family member 25 is recognized, the captured image of the family member 25 captured by the object camera 109 at that time is moved to the object image storage unit 118. Store as an captured image.

Then, when the housekeeper 25 moves toward the entrance of the house 21, the defense device 1 detects the movement from the image captured by the object camera 109 and moves in flight following the movement of the housekeeper 25. At this time, as described above, the defense device 1 controls the position and posture of the umbrella portion 6 with respect to the moving object according to the detection output of the rainfall sensor 106 and the wind sensor 107 and the moving direction of the householder 25. Optimal conditions are provided to protect the householder 25 from rainfall as a disturbance.

Then, when the housekeeper 25 enters the house 21 through the door of the entrance 22 of the house 21 and enters the area where the rain as a disturbance does not reach, the defense device 1 determines that the follow-up movement is completed and the base. It flies to 24, returns, lands at base 24, and is in a standby state. This standby state is a low power consumption state in which the control unit 101 only needs to receive the activation information, and the power supply voltage is not supplied from the battery 119 to the other units.

Next, in FIG. 6B, the householder 26 in the house 21 uses the defense device 1 to move from the entrance 22 to the garage 23 in order to go out by car, for example, to protect from rainfall. If this is the case. In the case of the example of FIG. 6B, the householder 26 launches the application for activating the defense device 1 on his / her own smartphone, designates the entrance 22 of the house 21 as the follow-up start position, and also. Designate yourself as a moving object and send activation information.

The defense device 1 that was in the standby state at the base 24 is activated when it receives this activation information, recognizes that the tracking start position is the entrance 22 of the house 21 from the tracking start position ID included in the activation information, and at the same time, From the moving object ID included in the activation information, it is recognized that the moving object is the householder 26, and the captured image of the householder 26 is read from the registered image storage unit 1113 of the memory unit 111, and the object recognition unit 113 is read. Supply to.

Then, it starts from the base 24, flies to the entrance 22 of the house 21, hovering over the entrance 22 and stands by, and starts imaging with the object camera 109. Then, when the family member 26 comes out of the door of the entrance 22, the defense device 1 includes an image captured by the object camera 109 and a registered image captured by the family member 26 read from the registered image storage unit 1113 of the memory unit 111. The family member 26 is recognized by performing image recognition for performing the matching determination of the above, and when the family member 26 is recognized, the captured image of the family member 26 captured by the object camera 109 at that time is moved to the object image storage unit 118. Store as a captured image of an object.

Then, when the householder 26 moves toward the garage 23, the defense device 1 detects the movement from the image captured by the object camera 109 and moves in flight following the movement of the householder 26. At this time, as described above, the defense device 1 controls the position and posture of the umbrella portion 6 according to the detection output of the rainfall sensor 106 and the wind sensor 107 and the moving direction of the householder 26, and rains as a disturbance. Optimal condition to protect the householder 26 from.

Then, when the householder 26 detects that he / she has entered the area where the rain as a disturbance does not reach due to getting into the car in the garage 23, the defense device 1 determines that the follow-up movement is completed and moves to the base 24. Then, it returns and lands at the base 24 to enter the standby state.

[Example of processing operation of control unit 101 of defense device 1]
Next, an example of the processing operation of the control unit 101 from the standby state to the time when the defense device 1 returns to the base will be described with reference to FIG. 7 and the flowchart of FIG. 8 which is a continuation thereof. In the flowcharts of FIGS. 7 and 8, the control unit 101 has a software processing function for the object recognition unit 113, the follow-up movement end detection unit 114, the flight drive signal generation unit 115, and the position / attitude control signal generation unit 116. This will be described as a case of configuration as.

The control unit 101 of the defense device 1 monitors the reception of activation information (step S101). When it is determined that the activation information has been received, the control unit 101 activates the defense device 1 by supplying the power supply voltage of the battery 119 to each unit (step S102). Next, the control unit 101 checks the voltage of the battery 119 and the remaining battery level, and determines whether or not a voltage sufficient for flight and the remaining battery level are accumulated (step S103).

When it is determined in step S103 that the voltage of the battery 119 and the remaining battery level are not sufficient, the control unit 101 sends an error signal containing the insufficient voltage or the remaining battery level to the external mobile phone that has transmitted the activation information. It is sent to the device 9 (step S104), the processing is stopped, and the process returns to the standby state. As described above, the external portable device 9 that has received the error signal notifies the user of the insufficient voltage or the remaining battery level, so that the user recognizes that the protection device 1 cannot be activated.

When it is determined in step S103 that the voltage of the battery 119 and the remaining battery level are sufficient, the control unit 101 refers to the storage contents of the follow-up start position storage unit 1112 by the follow-up start position ID included in the start information. , The tracking start position is grasped, and the captured image of the person to be the moving object is grasped by referring to the registered captured image storage unit 1113 by the moving object ID included in the activation information (step S105). In step S105, the control unit 101 constantly checks the voltage of the battery 119 and the remaining battery level in parallel, and as described above, when the voltage of the battery 119 and the remaining battery level become insufficient. , Execute the process to return to the base. At that time as well, the control unit 101 sends an error signal to the external portable device 9 that has transmitted the activation information to notify the fact.

Next, the control unit 101 determines whether or not the grasped follow-up start position is the current position, that is, whether or not it is a base (step S106), and when it is determined that the grasped follow-up start position is not the current position, in step S105. The flight moves to the grasped follow-up start position (step S107). Then, the control unit 101 hovering and standing by while taking an image with the object camera 109 at the tracking start position (step S108).

Further, when it is determined in step S106 that the grasped follow-up start position is the current position, the control unit 101 hovering and waiting at the follow-up start position near the base while taking an image with the object camera 109 ( Step S108).

Next, the control unit 101 recognizes the moving object by comparing the captured image captured by the object camera 109 with the captured image of the person to be the moving target read from the registered captured image storage unit 1113. It is determined whether or not it has been done (step S109). When it is determined in step S109 that the moving object is not recognized, the control unit 101 returns the process to step S108, and repeats the processes after this step S108.

When it is determined in step S109 that the moving object has been recognized, the control unit 101 sets the position and posture in which the moving object is protected from disturbance such as rainfall by the umbrella unit 6 in the sky above the moving object. Controls the defense device 1 (step S111 in FIG. 8).

Then, the control unit 101 determines whether or not the moving object has moved from the captured image of the object camera 109 (step S112), and when it is determined that the moving object has not moved, the process is performed in step S111. The process is repeated in steps S111 and subsequent steps.

Further, when it is determined in step S112 that the moving object has moved, the control unit 101 causes the defense device 1 to fly and move following the movement of the moving object, and at the same time, the position of the umbrella unit 6 and The tilt angle and tilt direction are controlled so as to optimally protect against disturbances such as rainfall (step S113).

Then, the control unit 101 determines from the image captured by the object camera 109 whether or not the moving object has entered the area where the disturbance does not reach (step S114), and when the moving object enters the area where the disturbance does not reach. When it is determined that there is no such process, the process is returned to step S111, and the processes after step S111 are repeated.

When it is determined in step S114 that the moving object has entered the area where the disturbance does not reach, the control unit 101 controls the flight so that the defense device 1 returns to the base, lands on the base, and then returns to the standby state. (Step S115). Then, this processing operation is terminated.

[Effect of the first embodiment]
As described above, according to the defense system and the defense device 1 of the first embodiment described above, when the user sends the activation information from the external portable device 9, the defense device 1 flies over the user. , The umbrella part 6 protects the user from disturbance. Therefore, the user does not need to attach a holder for holding the umbrella to the human body like the conventional umbrella holder explained at the beginning, and does not need to carry the umbrella or the holder at all. So it's very convenient.

Further, according to the defense device 1 of the first embodiment described above, by registering a person or the like of a moving object to be protected in advance, the defense device 1 automatically registers the registered moving object. It has the effect of recognizing and protecting against disturbances.

Further, according to the defense device 1 of the first embodiment described above, the position where the defense device 1 wants the defense device 1 to start the defense from the disturbance is registered in the defense device 1 as the follow-up start position, and the activation information thereof By simply including the information for specifying the tracking start position, there is an effect that the defense against disturbance can be started from the registered tracking start position.

According to the defense device 1 of the first embodiment described above, the horizontal position and height position, tilt angle and tilt direction of the umbrella portion 6 with respect to the moving object can be determined by the state of disturbance such as rainfall, wind direction and wind power. Since it is automatically controlled according to the situation, the protective effect against disturbance can always be optimized.

[Second Embodiment]
In the first embodiment described above, the user of the defense device 1 is limited to a family member or the like. However, the protection device 1 according to the present invention can be applied even when an unspecified number of users are assumed. The second embodiment is the case of the defense device 1A assuming such an unspecified number of users.

As will be described later, the configuration of the defense device 1A of the second embodiment is the first configuration except for the configuration of the processing unit for activating the defense device 1A and recognizing the moving object at the tracking start position. It is the same as the defense device 1 of the embodiment. Before explaining the configuration example of the defense device 1A, first, the usage pattern assumed for the defense device 1A of the second embodiment will be described.

An example described below is a case where the hospital and the pharmacy are separated from each other and the defense device 1A is used in the movement from the hospital to the pharmacy. Then, the moving object is a patient who has come to the hospital for medical examination and is a wheelchair user. A wheelchair user cannot hold an umbrella by himself / herself when it is raining or snowing in order to move the wheelchair by operating the wheelchair with both hands. Defensive device 1A is very beneficial.

In this second embodiment, as shown in FIG. 9A, the patient 31 who is a wheelchair user pays a medical examination fee and receives a prescription for medicine at the hospital's accounting. , Tell the attendant 32 to go to the pharmacy and receive the medicine listed on the prescription. Then, when moving from the hospital to the pharmacy, he offers to the staff 32 that he wants to receive the service of using the defense device 1A.

Then, the clerk 32 hands the bracelet-type transmitter 33 to the patient 31 as a user of the defense device 1A in this example. The transmission device 33 is a device having a function of sending a transmission signal including identification information for identifying the transmission device 33 to the defense device 1A. The defense device 1A receives the transmission signal from the transmission device 33 and recognizes the identification information to recognize the person wearing the bracelet-type transmission device 33 as a moving object to be protected. To do.

The clerk 32 who passed the bracelet-type transmitter 33 to the patient 31 operates a button 34 for transmitting activation information to the defense device 1A.

As shown in FIG. 9B, the defense device 1A of the second embodiment is housed in the base provided in the hospital building 35 in a standby state. Upon receiving the activation information based on the operation of the button 34, the defense device 1A activates the defense device 1A in the same manner as in the first embodiment. Then, the defense device 1A waits in the vicinity of the exit of the hospital building 35 for heading to the pharmacy as a follow-up start position, and waits for the reception of the transmission signal including the identification information from the bracelet-type transmission device 33.

When the patient 31 wearing the bracelet-type transmitter 33 on his arm arrives near the exit of the hospital building 35, the defense device 1A receives the transmitter signal from the bracelet-type transmitter 33. The defense device 1A compares the identification information included in the received transmission signal with the identification information registered in advance and detects a match to detect the patient 31 wearing the bracelet-type transmission device 33. , Recognize that it is a moving object to be protected.

When the defense device 1A recognizes the moving object to be protected, it moves to the sky above the patient 31 which is the moving object to protect it from rainfall, and at the same time, images the patient of the moving object with the object camera 109. The captured image is stored in the object image storage unit 118 so as to be an object for subsequent follow-up movement.

Therefore, when the patient 31 operates the wheelchair and moves to the pharmacy, the defense device 1A flies and moves following the movement while protecting the patient 31 from rainfall in the same manner as in the first embodiment. Then, when the patient 31 enters the pharmacy building 36, the defense device 1A lands at a place prepared in the pharmacy building 36 and waits for the patient 31 to return. At this time, the defense device 1A enters a standby state while maintaining a state in which the transmission signal from the bracelet-type transmission device 33 can be received, and minimizes power consumption.

When the patient 31 receives the medicine and tries to exit from the pharmacy building 36, the defense device 1A in the standby state receives the transmission signal from the bracelet-type transmitter 33, restarts, and is located above the patient 31. Then, the patient 31 is recognized again. Then, it flies from the pharmacy building 36 to the hospital building 35 while following the movement of the patient 31 and protecting the patient 31 from rainfall.

Then, when the patient 31 enters the hospital building 35, the defense device 1A, which recognizes that the moving object has entered a place where the disturbance does not reach, stands by at the base. The patient 31 then returns to the hospital checkout counter and returns the bracelet-type transmitter 33. After confirming the return of the bracelet-type transmitter 33, the clerk 32 operates the button 37 to send an end instruction to the defense device 1A. Upon receiving this end instruction, the defense device 1A erases the captured image of the moving object this time stored in the object image storage unit 118, and returns to the standby state at the base.

[About the configuration of the defense device 1A of the second embodiment]
As shown in FIG. 10, the configuration of the defense device 1A of the second embodiment differs from the configuration of the defense device 1 shown in FIG. 2 only in the following points, and the other aspects are the defense of the first embodiment. It has exactly the same configuration as the device 1.

That is, the defense device 1A of the second embodiment of FIG. 10 has a function of receiving a transmission signal from the bracelet-type transmission device 33 instead of the communication unit 112 of the defense device 1 of the first embodiment. A communication unit 112A is provided. Then, the base position storage unit 1111 of the memory unit 111 stores information on the position of the hospital base. Further, the tracking start position storage unit 1112 stores information on the position of the exit of the hospital building 35. However, the memory unit 111 is not provided with the registered image storage unit 1113. Instead, the memory unit 111 is provided with an identification information storage unit 1114 that stores the identification information included in the transmission signal from the bracelet-type transmission device 33. When a plurality of protection devices 1A are prepared and a plurality of bracelet-type transmission devices 33 including different identification information are prepared, the identification information storage unit 1114 of the memory unit 111 of the defense device 1A is provided. , A plurality of different identification information thereof are stored.

Further, the object recognition unit 113A in the defense device 1A of the second embodiment does not have a function of recognizing a moving object by matching the registered captured image with the captured image of the object camera 109. Simply, an image of a person possessing the bracelet-type transmitter 33 captured by the object camera 109 is associated with the identification information included in the transmission signal from the bracelet-type transmitter 33, and the object is displayed. It has a function of storing in the image storage unit 118 and recognizing the stored image as a captured image of a moving object.

Other configurations of the defense device 1A are exactly the same as those of the defense device 1 of the first embodiment, as shown in FIG.

[Effect of the second embodiment]
According to the defense device 1A of the second embodiment, the moving object is authenticated by the identification information included in the transmission signal from the bracelet-type transmission device 33 at the tracking start position, and the object camera 109 is used. The captured image of the moving object captured in 1 is stored in the object image storage unit 118 as a captured image of the moving object that follows and moves in association with the identification information. Then, the defense device 1A makes the moving object follow and move based on the captured image stored in the object image storage unit 118. As a result, according to the defense device 1A of the second embodiment, unlike the defense device 1 of the first embodiment, the movement target registered in advance is not the only protection target, but the movement is arbitrary. The object can be followed and moved with the object as a defense target.

[Other Examples of Use of Defense Device 1A of the Second Embodiment]
FIG. 9 shows an example in which the defense device 1A protects a patient moving between a hospital and a pharmacy from disturbance. Therefore, the defense device 1A assumes that the patient as a user always returns from the pharmacy to the hospital after moving from the hospital to the pharmacy. However, if the patient is not expected to return from the pharmacy to the hospital, the defense device 1A will return to the hospital base when the patient enters the pharmacy from the hospital to the pharmacy and the disturbance is unreachable. The identification information and the captured image stored in the object image storage unit 118 may be deleted. In this case, the bracelet-type transmitter 33 may be returned by the patient at the pharmacy and handed over from the pharmacy to the hospital.

Yet another example using the defensive device 1A of this second embodiment is shown in FIG. The example of FIG. 11 is a case where a visitor can move between a plurality of buildings where various attractions are held in a theme park while being protected from disturbance by the defense device 1A. is there.

In this example, when the visitor 38 contracts for the protection service from disturbance by the defense device 1A at the gate 41 of the theme park, the above-mentioned bracelet type transmitter 33 is lent. Therefore, when the attendee 38 wears the bracelet-type transmitter 33 and waits at the gate 41, the attendee 38 waits at the base of the gate 41 based on the staff of the gate 41 of the theme park operating the activation button. One of the existing defense devices 1A will fly. Then, the defense device 1A authenticates the visitor 38 as a moving object based on the identification information included in the transmission signal from the bracelet-type transmitter 33 worn by the visitor 38, and images the visitor 38 with the object camera 109. Then, as described above, the captured image of the visitor 38 is stored in the object image storage unit 118 in correspondence with the identification information.

Then, the defense device 1A flies and moves following the movement of the visitor 38. When the visitor 38 enters the building 42 of a certain attraction A, the defense device 1A determines that the visitor 38 has entered the area where the disturbance does not reach, returns to the base of the gate 41, and enters the object image storage unit 118. Erase the stored identification information and captured image. Then, the defense device 1A returns to the standby state for receiving the activation instruction of the disturbance defense service for the next visitor.

The base of the defense device 1A is also provided in the building 42 of the attraction A, and a plurality of defense devices 1A are on standby in the standby state. The defense device 1A that has returned to the base of the gate 41 may be made to stand by at the base of the building 42 as it is without returning to the base of the gate 41. Further, the building 42 of the attraction A is a relay having a function of receiving a transmission signal from the bracelet-type transmission device 33 worn by the visitor 38 and transferring it to the defense device 1A waiting at the base. A device 421 is provided. The defense device 1A of this example receives the signal from the relay device 421 at the communication unit 112A. In this case, the defense device 1A determines whether the received signal is a signal from the relay device 421 or a transmission signal from the bracelet-type transmission device 33 based on the information indicating the transmission device included in the reception signal.

When the visitor 38 enters the building 42, the relay device 421 receives a transmission signal from the bracelet-type transmission device 33 worn by the visitor 38, and transmits the received transmission signal to the base of the building 42. Make a call to the standby defense device 1A. Then, one of the defense devices 1A at the base of the building 42 is in a state of communicating with the relay device 421, and the one defense device 1A receives the transmission signal from the relay device 421. Then, the defense device 1A extracts and holds the identification information included in the received transmission signal, and waits for the reception of the transmission signal from the bracelet-type transmission device 33.

When the visitor 38 comes to the exit of the building 42 and the defense device 1A receives the transmission signal from the bracelet-type transmission device 33, the defense device 1A receives the identification information included in the received transmission signal and the identification information. After confirming the match with the identification information received from the relay device 421, the moving object is authenticated. Then, when the authentication is completed, the defense device 1A captures the visitor 38 with the object camera 109 in the sky above the visitor 38, and stores the captured image of the visitor 38 as the object image as described above. The identification information is stored in the unit 118 in correspondence with the identification information.

Then, the defense device 1A flies and moves following the movement of the visitor 38. When the visitor 38 enters the building 43 of the other attraction B, the defense device 1A determines that the visitor 38 has entered the area where the disturbance does not reach, and returns to the base of the building 42 of the attraction A to image the object. The identification information and the captured image stored in the storage unit 118 are erased. Then, the defense device 1A returns to the standby state for providing a disturbance defense service to the next visitor entering the building 42.

Similar to the building 42, the building 43 of the attraction B is also provided with a base of the defense device 1A, and a plurality of defense devices 1A are on standby in the standby state. The defense device 1A may not return to the base of the building 42 but may stand by at the base of the building 43. Further, the building 43 of the attraction B is a relay having a function of receiving a transmission signal from the bracelet-type transmission device 33 worn by the visitor 38 and transferring it to the defense device 1A waiting at the base. A device 431 is provided.

Therefore, when the visitor 38 enters the building 43, the relay device 431 receives the transmission signal from the bracelet-type transmission device 33 worn by the visitor 38, and the received transmission is received in the same manner as described above. A signal is transmitted to the defense device 1A waiting at the base of the building 43. Then, one of the defense devices 1A at the base of the building 43 is in a state of communicating with the relay device 431, and the one defense device 1A receives the transmission signal from the relay device 431 and receives the transmission signal. The identification information included in the above is extracted and held, and the state of waiting for the reception of the transmission signal from the bracelet-type transmission device 33 is established.

When the visitor 38 comes to the exit of the building 43 and the defense device 1A receives the transmission signal from the bracelet-type transmission device 33, the defense device 1A receives the identification information included in the received transmission signal and the identification information. After confirming the match with the identification information received from the relay device 431, the moving object is authenticated. Then, when the authentication is completed, the defense device 1A captures the visitor 38 with the object camera 109 in the sky above the visitor 38, and stores the captured image of the visitor 38 as the object image as described above. The identification information is stored in the unit 118 in correspondence with the identification information.

Then, the defense device 1A flies and moves following the movement of the visitor 38. When the visitor 38 enters the building of another attraction or returns to the gate 41, the defense device 1A determines that the visitor 38 has entered the area where the disturbance does not reach, and determines that the visitor 38 has entered the area where the disturbance does not reach, and the base of the building 43 of the attraction B. The identification information and the captured image stored in the object image storage unit 118 are erased. Then, the defense device 1A returns to the standby state for providing a disturbance defense service to the next visitor entering the building 43. Of course, the defense device 1A may not return to the base of the building 43, but may stand by at the base of the building of another attraction or the base of the gate 41. The visitor 38 returns the rented bracelet-type transmitter 33 at the gate 41. Of course, the return may be made not only at the gate 41 but also at each building.

As described above, in the example of FIG. 11, the base of the defense device 1A is provided in the building of each attraction, and the relay device that relays the transmission signal from the bracelet type transmission device 33 to the defense device 1A is provided. This makes it possible to provide visitors to the theme park with a service that protects visitors from various attractions such as rainfall when moving from one building to another by using the defense device 1A.

In the second embodiment described above, the bracelet type transmitter 33 is used as the transmitter of the transmission signal, but the device is not limited to the bracelet type and is worn or carried by the user. It may be in any form as long as it can be used. For example, it may be a hat type, a pouch type to be attached to a belt, an emblem, a badge, a sticker or a sticker.

[Third Embodiment]
In the third embodiment, for example, in a large shopping center or a theme park, when returning to one's own car parked in a parking lot, a vending machine is used to provide a protection service from disturbances such as rainfall by a defense device. This is an example of receiving at.

FIG. 12 is a diagram for explaining an overall outline of a defense system using the defense device 1B of the third embodiment. As shown in FIG. 12, the defense system of the third embodiment includes a vending machine 61 and a base 62 of the defense device 1B. The vending machine 61 includes a coin slot 611, a bill slot 612, a display 613, and a camera 614, and internally transmits a start signal and other signals to the defense device 1B waiting at the base 62. The transmission unit 615 is provided.

Although not shown, the defense device 1B in the third embodiment is from the transmission unit 615 of the vending machine 61 instead of the communication unit 112A of the defense device 1A of the second embodiment shown in FIG. A communication unit for receiving a signal is provided. Each of the defense devices 1B in the third embodiment has a device ID, and the transmission unit 615 of the vending machine 61 waits at the base 62 for a transmission signal including the device ID of the defense device 1B. It is transmitted to the defense device 1B. Then, when each of the defense devices 1B receives the signal from the transmission unit 615 of the vending machine 61, it determines the device ID included in the received signal and matches the device ID of its own device. The received signal is taken in as a signal addressed to the own device.

Then, the position information of the base 62 is stored in the base position storage unit 1111 of the memory unit 111 of the defense device 1B, and the position information of the position where the vending machine 61 is installed is stored in the tracking start position storage unit 1112. Be remembered. Further, instead of the identification information storage unit 1114, an image capture image storage unit for storing the image captured by the user sent from the vending machine 61 is provided.

In this third embodiment, the user 63 inputs a predetermined charge through the coin insertion slot 611 and the bill insertion slot 612 in the vending machine 61, and selects the protection device 1B on the display 613. Then, the vending machine 61 captures the user 63 with the camera 614, includes the captured image information and the device ID of the defense device 1B selected by the user in the transmission signal, and transmits the captured image information to the defense device 1B. .. Further, the vending machine 61 sends an activation signal including the device ID of the defense device 1B selected by the user to the defense device 1B.

Upon receiving the captured image information and the activation information from the transmission unit 615 of the vending machine 61, the defense device 1B of the selected device ID is activated, flies from the base 62 to the position of the vending machine 61, and is used. The person 63 is imaged by the object camera 109, and the object recognition unit compares the captured image with the received captured image to confirm the authentication of the user 63. After the authentication is confirmed, the image of the user 63 captured by the object camera 109 is stored in the object image storage unit 118 and used as the moving object to be followed.

Then, in the same manner as described above, the flight moves following the movement of the user 63. When the user 63 confirms that the user 63 has entered the area where the disturbance does not reach due to getting into the car in the parking lot, the defense device 1B returns to the base 62, and the image storage unit of the memory unit 111 Erases the stored contents and returns to the standby state for the next use.

FIG. 13 shows a flowchart of an example of the flow of processing operation of the vending machine 61. That is, the vending machine 61 first determines whether or not the input of the predetermined charge has been accepted (step S201), and when it determines that the input of the predetermined charge has been accepted, the vending machine 61 waits at the base 62 on the screen of the display 613. A list of defensive devices 1B that are not in use is displayed (step S202). In this case, the defensive device 1B in use may indicate that it is in use.

Then, the vending machine 61 determines whether or not the user 63 has accepted the selection of the defense device 1B (step S203). When it is determined in step S203 that the selection of the defense device 1B is not accepted, the vending machine 61 determines whether or not the cancellation operation has been performed by the user 63 (step S204), and the cancellation operation is performed. When it is determined that there is no such thing, the process returns to step S203 and waits for acceptance of selection of the defense device 1B. Further, when it is determined in step S204 that the cancellation operation has been performed by the user 63, the vending machine 61 returns the input charge and ends the processing operation.

Further, when it is determined in step S203 that the selection of the defense device 1B has been accepted, the vending machine 61 images the user 63 with the camera 614 (step S206), and is selected by the captured image information and the user 63. The device ID of the defense device 1B is included and transmitted to the defense device 1B (step S207). Next, the vending machine 61 transmits the activation information to the defense device 1B including the device ID of the defense device 1B selected by the user 63 (step S208), and ends the processing operation.

According to this third embodiment, the user 63 can receive the defense service against disturbance such as rainfall by the defense device 1B simply by paying the fee at the vending machine 61. Then, according to this third embodiment, for example, when the baggage purchased at the shopping center or the souvenir of the theme park is held in both hands, it is not necessary to hold an umbrella or the like, so the goods purchased with both hands. It is very convenient because you can move to the car in the parking lot without getting wet in the rain while carrying such things.

In the third embodiment described above, the vending machine 61 takes an image of the user 63 with the camera 614 and sends the captured image to the defense device 1B, but the activation information is sent from the vending machine 61. The received defense device 1B flies to the position of the vending machine 61, images the user 63 in front of the vending machine 61 with the object camera 109, and stores the captured image information in the object image storage unit 118. By storing the user 63, the user 63 may be recognized as a moving object to be followed.

[Fourth Embodiment]
A third embodiment is protection against disturbances in moving to a car parked in a parking lot when returning home from a shopping center or theme park. On the other hand, in the fourth embodiment, when a car arrives at a shopping center or a theme park and a car is parked in a parking lot, or when a disturbance such as rainfall occurs, the disturbance protection service is provided. This is an example of the case where it is possible to receive.

FIG. 14 is a diagram showing an overall schematic configuration example of the defense system of the fourth embodiment, and the example of FIG. 14 is an example in the case of a shopping center.

In the example of FIG. 14, the building 70 of the shopping center is provided with the base 71 of the defense device 1C and the communication device 72. Each parking space in the parking lot is provided with a parking sensor device 73 that detects that a car has been parked in each parking space. When the parking sensor device 73 detects that the vehicle is parked in the parking space monitored by the own device, the parking sensor device 73 transmits a parking detection signal including the device ID as the identification information of the own device to the communication device 72.

The communication device 72 stores table information indicating the correspondence between the position information of each parking space in the parking lot and the device ID of the parking sensor device 73 installed in each parking space. Then, when the communication device 72 receives the parking detection signal including the device ID from the parking sensor device 73, the communication device 72 refers to the stored table information and provides the position information of the parking sensor device 73 that has sent the parking detection signal. Is detected. Then, the communication device 72 designates one of the defense devices 1C waiting at the base 71 and transmits the activation information including the detected position information as the position information of the tracking start position.

Upon receiving this activation information, the defense device 1C activates, extracts the position information included in the activation information, and flies to the parking space of the location information. Then, hovering over the user getting off from the car parked in the parking space, the user is imaged by the object camera 109, and the captured image information is stored in the object image storage unit 118. It is stored as captured image information of a moving object to be followed.

Then, the defense device 1C then follows the movement of the user and moves in flight while protecting against disturbances such as rainfall. Then, when the user enters the building 70 of the shopping center and confirms that he / she has entered the area where the disturbance does not reach, the defense device 1C returns to the base 71 and the captured image information stored in the object image storage unit 118. To return to the standby state.

In the configuration of the defense device 1C according to the fourth embodiment, the tracking start position storage unit 1112 of the memory unit 111 stores the position information acquired from the communication device 72 as the position information of the tracking start position, and puts it in the standby state. When returning, the position information stored in the tracking start position storage unit 1112 is erased. Other configurations are substantially the same as the defense device 1B of the example described as a modified example in the third embodiment.

[Fifth Embodiment]
In the fourth embodiment, the defense device 1C is a device that autonomously flies and moves, but the defense device is not a flight movement but a device that moves along a rail suspended in the air, for example. It may be. FIG. 15 is a diagram for explaining a configuration example of the defense system of the fifth embodiment using the defense device 1D having such a configuration. In the example of FIG. 15, similarly to the defense system of the fourth embodiment shown in FIG. 14, a user of a car parked in a parking lot of a shopping center can use the defense device 1D to provide a protection service from disturbance such as rainfall. If you receive.

FIG. 15A is a view of the parking lot from the sky, and FIG. 15B is a view of the parking lot seen from the horizontal direction. Further, FIG. 15C is a diagram for explaining a method of driving the defense device 1D.

As shown in FIGS. 15A and 15B, rails 74 are arranged so as to cross each parking space of the parking lot from the vicinity of the building 70 of the shopping center. The rail 74 is supported by the columns 75 at appropriate positions. Then, as shown in FIG. 15B, the defense device 1D is suspended from the rail 74 by the support arm 76, and the umbrella portion 6D and the sliding movement drive control unit 3D are below the support arm 76. To be equipped with.

FIG. 15C is for explaining the cross section of the rail 74 and the sliding movement mechanism portion 77 provided at the tip of the support arm 76 housed in the rail 74. As shown in FIG. 15C, the rail 74 is a tubular body having a hollow inside and a substantially quadrangular cross-sectional shape, and a slit in which the support arm 76 can move along the rail 74 downward. It includes 74a.

The sliding movement mechanism portion 77 provided at the tip of the support arm 76 includes wheels 772 and 773 at both ends of the axle 771, and the axle rotation portion 774 provided at the connecting portion between the support arm 76 and the axle 771. To be equipped. In the axle rotation unit 774, although not shown, the driving force of the sliding movement drive control unit 3D is transmitted to the sliding movement mechanism unit 77 through a link mechanism provided inside the support arm 76, and the sliding is performed. The moving mechanism unit 77 is configured to rotate the axle 771 in the forward direction and the reverse direction. Since the sliding movement mechanism unit 77 can be configured by using a well-known technique, detailed description thereof will be omitted here.

Then, the sliding movement drive control unit 3D of the defense device 1D has a function of wirelessly transmitting to and from the communication device 72 provided on the building 70 side of the shopping center, and receives activation information from the communication device 72. Then, it autonomously moves forward (movement in the direction from the shopping center building 70 toward the parking lot) and backward movement (movement in the direction from the parking lot toward the shopping center building 70).

The electrical configuration of the sliding movement drive control unit 3D of the defense device 1D of the fifth embodiment is a substitute for the aerial flight mechanism unit 2 of the defense device 1C as compared with the defense device 1C of the fourth embodiment described above. In addition, since the defense device 1D is provided with the sliding movement mechanism unit 77, the difference is that the sliding movement drive unit is provided instead of the aerial flight drive unit 102 of the defense device 1C, and the inclination of the umbrella unit 6D is different. The other configurations are almost the same, only the mechanism for controlling the angle and the tilt direction is different. As a mechanism for controlling the tilt angle and tilt direction of the umbrella portion 6D, a well-known mechanism can be used, and thus the description thereof will be omitted here.

Then, in the example of FIG. 15, as shown in FIGS. 15A and 15B, when the user's car parks in any of the parking spaces, the parking sensor device 73 in the parking space is the own device. Detects that a car is parked in the parking space monitored by the company, and transmits a parking detection signal including a device ID as identification information of the own device to the communication device 72.

When the communication device 72 receives the parking detection signal including the device ID from the parking sensor device 73, the communication device 72 refers to the stored table information and detects the position information of the parking sensor device 73 that has sent the parking detection signal. To do. Then, the communication device 72 uses one of the defense devices 1D that is attached to the rail 74 arranged in the parking space and is on standby with the activation information including the detected position information as the position information of the tracking start position. Specify and send.

Upon receiving this activation information, the defense device 1D activates, extracts the position information included in the activation information, and slides and moves along the rail 74 to the parking space of the location information. Then, the user stands by in the sky above the user getting off from the car parked in the parking space, the user is imaged by the object camera 109, and the captured image information is stored in the object image storage unit 118. It is stored as captured image information of a moving object to be followed.

Then, the defense device 1D subsequently slides and moves following the movement of the user while protecting against disturbances such as rainfall. At this time, the defense device 1D controls the position and posture of the umbrella portion 6D in the same manner as described above so as to appropriately protect the moving object from disturbance. Then, when the user enters the building 70 of the shopping center and confirms that he / she has entered the area where the disturbance does not reach, the defense device 1D returns to the predetermined base position and takes an image stored in the object image storage unit 118. Delete the image information and return to the standby state. Then, the defense device 1D erases the position information of the parking space acquired from the communication device 72 stored in the tracking start position storage unit 1112 of the memory unit 111.

In the example of FIG. 15, the rail 74 was laid and the defense device 1D was moved autonomously along the rail 74. However, if the defense device is moved autonomously, it may be possible. Instead, it can be configured to move forward and backward by pulling it with a rope or the like. In that case, the communication device sends a drive control signal to the rope traction drive device that pulls the rope suspended from the defense device. Then, the rope traction drive device is configured to acquire the image pickup information from the object camera 109 from the defense device and drive and control the defense device while monitoring the image pickup information. In the case of this example, the defense device itself may be provided with a mechanism for controlling the position and posture of the umbrella portion.

[Sixth Embodiment]
In the above-described embodiment, precipitation, snowfall, or the like is assumed as the disturbance, but as described above, the disturbance to be protected by the defense device may be sunlight, ultraviolet rays, or the like. The sixth embodiment described below is an example of a protective device for protecting the user from sunlight and ultraviolet rays at a poolside or a beach on the beach.

FIG. 16 is a diagram showing a configuration example of the defense system of the sixth embodiment, and this example is a case where the defense device 1E of the embodiment is used as a parasol for awning provided on the poolside.

That is, as shown in FIG. 16, in the sixth embodiment, a plurality of deck chairs 82 are installed on the poolside around the pool 81. Then, a base 83 of the defense device 1E is provided along with each deck chair 82. The base 83 has a configuration in which a landing platform 832 made of a flat plate having a size capable of landing the defense device 1E is provided on the support column 831.

The defense device 1E has a configuration similar to that shown in FIG. 10, and is activated by receiving activation information. However, in the sixth embodiment, the base position storage unit 1111 of the memory unit 111 stores the position information of the position of the base 83 of each defense device 1E, and the follow-up start position storage unit 1112 stores the position information. , The position information of each base 83 is stored. The umbrella portion 6E of the defense device 1E is configured to have a size capable of protecting the entire user 84 who sits on or lays down on each deck chair 82 from sunlight and ultraviolet rays. The position / attitude control signal generation unit 116 of the defense device 1E is provided with an attitude control function capable of changing and controlling the inclination direction and inclination angle of the umbrella unit 6E according to the position of the sun, and also when it rains or the like. Has a function of controlling the position and attitude so as to be appropriate to prevent the rainfall. As a mechanism for attitude control of the umbrella portion 6E, the fifth embodiment described above is performed in a state where the umbrella portion 6E is located at the base 83 instead of controlling the attitude in the flight state as in the first embodiment. Similar to the embodiment, the umbrella portion 6E may be configured to be able to control the attitude.

Then, in the sixth embodiment, each of the deck chairs 82 is provided with an activation information transmission device 85 for the defense device 1E. The transmitter 85 is connected to a sensor that detects that the user 84 is sitting or lying down on the deck chair 82, and the sensor is used to allow the user 84 to sit or lie down on the deck chair 82. When it is detected, the activation information for the defense device 1E is transmitted. As the sensor connected to the transmitter 85, a sensor that detects the pressure applied to the deck chair 82 is used in this example. However, the sensor connected to the transmission device 85 may be a motion sensor as long as it can detect the user 84 who uses the deck chair 82.

The defense device 1E receives the activation information from the transmission device 85, activates the user, images the user 84 with the object camera 109, and follows the captured image information to the moving object to be moved. The captured image information is stored in the object image storage unit 118.

Therefore, when the user 84 moves away from the deck chair 82 as shown in FIG. 16, the defense device 1E flies and moves following the movement. Then, when the user 84 enters the room and detects a state in which the sunlight as a disturbance does not reach the user 84, the defense device 1E returns to the base 83 of its own device and stores it in the object image storage unit 118. The captured image information of the user is deleted.

In the case of this example, when the user 84 enters the pool 81 and swims, the defense device 1E operates so as to cover the sky and block the sunlight. However, when the user 84 enters the pool 81, it may be configured to return to the base 83, assuming that there is no need to defend.

[Other Embodiments or Modifications]
The defense devices of the first to fourth embodiments and the sixth embodiment described above are configured to include an aerial flight mechanism unit 2 having a structure in which an umbrella portion is attached to a so-called quadcopter, but the aerial flight mechanism portion 2 Is not limited to the configuration of a quadcopter, and may be any mechanism as long as it has an umbrella portion and can hover or fly over a moving object.

Further, the moving object is a person in the above-described embodiment, but the moving object is not limited to the person, but may be an animal, and for example, a baggage that is mounted on a trolley that is moved by wireless remote control and moves. The defense device and defense system of the present invention can also be applied to the defense of the above.

Further, in the above-described embodiment, precipitation, snowfall, sunlight, ultraviolet rays, etc. have been described as disturbances, but any disturbances that can be protected by the umbrella portion can be targeted. For example, as described above, rain, snow, hail, sleet, hail, sunlight, ultraviolet rays, dust, dust, smoke, exhaust gas, volcanic ash, pollen, etc. can be the disturbances to be protected.

Further, in the first to third embodiments, as a trigger for generating activation information of the defense device, a case where a user, a staff member, or the like operates a button has been described as an example, but an operation on a touch panel and a voice have been described. The activation information may be transmitted in response to an operation or a gesture operation.

Further, in the above-described embodiment, when it is detected that the disturbance has entered an area or a building where the disturbance does not reach, the defense device determines that the follow-up movement is completed, but the rain, snow, and hail are not limited to this. , Hail, hail, etc. may be detected by the disturbance detection sensor to detect that there is no disturbance for a predetermined time or longer, and it may be determined that the follow-up movement is completed. As disturbance detection sensors, if the disturbance is sunlight, it is an optical sensor, if it is ultraviolet rays, it is an ultraviolet sensor, if it is dust or dust, it is a dust sensor, if it is smoke, it is a smoke sensor, if it is exhaust gas, it is a gas sensor, and if it is volcanic ash. A particle sensor for volcanic ash and a pollen sensor for pollen are used.

1,1A-1E ... Defense device, 2 ... Aerial flight mechanism unit, 3 ... Drive control unit, 5A-5D ... Propeller mechanism, 6,6D, 6E ... Umbrella part, 10 ... Drive control device unit

Claims (57)

A defense system consisting of a defense device that follows the moving object and flies in the air so as to protect the moving object from a predetermined disturbance, and an external device that is wirelessly connected to the defense device.
The defense device is
An umbrella portion for protecting the moving object from the predetermined disturbance by covering the sky above the moving object, and an umbrella portion.
An aerial movement mechanism for moving the umbrella portion in the air,
A communication unit for wireless communication with the external device,
A tracking start position storage unit that stores information on the tracking start position in association with information for specifying the tracking start position.
Control unit and
With
The external device is
It is provided with an activation information transmission unit that transmits the activation information including information for specifying the tracking start position to the defense device.
The control unit of the defense device
Based on the information for specifying the follow-up start position included in the start information from the external device received through the communication unit, the follow-up start position stored in the follow-up start position storage unit is read out and acquired. A defense system characterized in that the aerial movement mechanism is controlled so as to move to the acquired follow-up start position. The defense system according to claim 1, wherein the control unit of the defense device activates its own device based on receiving the activation information from the external device through the communication unit. One or a plurality of positions of the follow-up start position are stored in the follow-up start position storage unit, and the information for specifying the follow-up start position is identification information for identifying the follow-up start position. The defense system according to claim 1 or 2. The information for specifying the tracking start position included in the activation information from the external device is the position information of the tracking start position.
The defense device is deployed at a base where location information is stored.
The defense system according to any one of claims 1 to 3, wherein the follow-up start position includes the base. The defense system according to claim 4, wherein when the activation information includes information on the base as the follow-up start position, the defense device starts from the base and stands by. The information for specifying the tracking start position included in the activation information from the external device is the position information of the tracking start position.
The defense device is deployed at a base where location information is stored.
The control unit generates a flight drive signal based on the position information of the base and the position information of the follow-up start position included in the activation information, and controls the aerial movement mechanism by the generated flight drive signal. The defense system according to any one of claims 1 to 5. The control unit of the defense device determines the direction and distance for moving from the base to the follow-up start position in the air based on the position information of the base and the position information of the follow-up start position included in the start-up information. The defense system according to claim 6, wherein the flight drive signal is generated based on a calculation and a calculated direction and distance. The defense device includes a peripheral imaging unit that images the periphery of the own device.
The information on the follow-up start position stored in the follow-up start position storage unit includes an image of the follow-up start position captured by the peripheral imaging unit.
The defense system according to any one of claims 1 to 7, wherein an captured image of the tracking start position is referred to when moving to the tracking start position. The defense device is deployed at a predetermined base and includes a peripheral photographing unit that photographs the periphery of the own device, and the peripheral photographing unit in the flight path from the base to the stored tracking start position. The image taken by
Claims 1 to 1, wherein the control unit uses the stored captured image when controlling the aerial movement mechanism when the own device is moved from the base to the follow-up start position. The defense system according to any one of item 8. The defense device is deployed at a predetermined base, includes a peripheral photographing unit that photographs the periphery of the own device, and a current position detecting unit that detects the current position, and from the stored tracking start position, the said The images taken by the peripheral photographing unit in the flight path to the base and the flight path to the current position are stored in advance.
Claims 1 to claim that the control unit uses the stored photographed image when controlling the aerial movement mechanism when the own device is moved from the current position to the base. The defense system according to any one of 9. The external device stores and holds information for specifying the follow-up start position, which is stored in association with the information of the follow-up start position, and holds the memory when transmitting the start-up information. The defense system according to any one of claims 1 to 10, wherein the information for specifying the tracking start position is used. When the external device stores and holds a plurality of information for specifying the following start position, the external device stores information selected by the user among the plurality of information for specifying the follow-up start position. The defense system according to claim 11, wherein the activation information to be transmitted includes the activation information. The defense device includes an object imaging unit for imaging the moving object.
The control unit of the defense device
At the tracking start position, the moving object is imaged by the object imaging unit, and the aerial movement mechanism is controlled so as to follow the movement of the moving object based on the captured image. The defense system according to any one of claims 1 to 12, wherein the moving object is controlled so as to protect the moving object from the predetermined disturbance. The defense device stores the identification information of the moving object in association with the captured image of the moving object.
The activation information from the external device includes the identification information of the tracking object.
The defense system according to claim 13, wherein the defense device acquires the imaging information corresponding to the identification information of the tracking object included in the activation information and uses it in the control unit. The external device sends an instruction to the defense device to image the moving object to be registered, and also transmits identification information and a registration instruction to the moving object to be registered, and the moving object to be registered. The defense system according to claim 13 or 14, wherein the identification information of the object and the captured image of the moving object to be registered are stored in association with each other. The defense device includes an object imaging unit for imaging the moving object.
Based on the image captured by the imaging unit, the defense device determines that the follow-up movement has ended when it determines that the moving object has entered a region where the predetermined disturbance does not reach, and controls the determination result. The defense system according to any one of claims 1 to 15, further comprising a following movement end detection means for notifying a unit. The defense device is deployed at a base for standby, and also includes an object imaging unit for imaging the moving object.
When the control unit of the defense device detects that the moving object has entered a region not reached by the predetermined disturbance based on the image captured by the imaging unit, the control unit moves the device to the base. The defense system according to any one of claims 1 to 16, wherein the defense system is controlled. The defense device is deployed at a base for standby, and also includes an object imaging unit for imaging the moving object.
The control unit of the defense device moves its own device to the base when it detects that the moving object has entered a building and / or got in a car based on the captured image of the imaging unit. The defense system according to any one of claims 1 to 17, wherein the defense system is controlled in such a manner. The defense device is deployed at the base for standby and is equipped with a disturbance detection sensor.
Claims 1 to 1, wherein the control unit of the defense device controls to move its own device to the base when the disturbance detection sensor detects that there is no disturbance for a predetermined time or longer. The defense system according to any one of item 18. The defense device includes an object imaging unit for imaging the moving object.
When the control unit of the defense device detects that the moving object has entered a region where the predetermined disturbance does not reach based on the image captured by the imaging unit, the following movement of the moving object ends. The defense system according to any one of claims 1 to 19, wherein the defense system is determined. The defense device includes an object imaging unit for imaging the moving object.
When the control unit of the defense device detects that the moving object has entered a building and / or got in a car based on the image captured by the imaging unit, the following movement of the moving object ends. The defense system according to any one of claims 1 to 20, wherein the defense system is determined to be. The defense device includes a disturbance detection sensor.
Claims 1 to claim that the control unit of the defense device determines that the follow-up movement of the moving object has ended when the disturbance detection sensor detects that there is no disturbance for a predetermined time or longer. The defense system according to any of 21. The defense device is characterized by comprising a position / attitude control means for controlling the position and / or attitude of the umbrella portion according to the amount, strength and / or direction of the disturbance reaching the moving object. The defense system according to any one of claims 1 to 22. The defense system according to any one of claims 1 to 23, wherein the defense device includes a position / attitude control means for controlling the position and / or posture of the umbrella portion according to the position of the sun. .. The defense system according to any one of claims 1 to 24, wherein the moving object is a person, an animal, or a baggage. The defense system according to any one of claims 1 to 25, wherein the external device is composed of a smartphone or a laptop computer. The defense system according to any one of claims 1 to 26, wherein the follow-up start position is an entrance and / or an exit of a building. The tracking start position storage unit is characterized in that the tracking start position information is stored in association with the information for specifying the tracking start position based on the registration instruction of the tracking start position for the moving object. The defense system according to any one of claims 1 to 27. The defense device is
Equipped with a current position detector that detects the current position
The defense system according to claim 28, wherein the position information detected by the current position detection unit when the registration instruction is received is stored in the follow-up start position storage unit as the follow-up start position information. .. 28. The defense system according to claim 29, wherein the registration instruction is sent from the external device, and the defense device receives the registration instruction through the communication unit. The external device is provided for each user,
The defense system according to any one of claims 28 to 30, wherein the information registered in the defense device is similarly stored in each of the external devices. It is composed of a defense device that follows the moving object and flies in the air so as to protect the moving object from a predetermined disturbance, and an external device that is wirelessly connected to the defense device, and the external device starts following the moving object. The defense device in a defense system including an activation information transmission unit that transmits the activation information including information for specifying a position to the defense device.
An umbrella portion for protecting the moving object from the predetermined disturbance by covering the sky above the moving object, and an umbrella portion.
An aerial movement mechanism for moving the umbrella portion in the air,
A communication unit for wireless communication with the external device,
A tracking start position storage unit that stores information on the tracking start position in association with information for specifying the tracking start position.
Control unit and
With
The control unit
Based on the information for specifying the follow-up start position included in the start information from the external device received through the communication unit, the follow-up start position stored in the follow-up start position storage unit is read out and acquired. Then, the defense device is characterized in that the aerial movement mechanism is controlled so as to move to the acquired follow-up start position. The defense device according to claim 32, wherein the control unit activates its own device based on receiving the activation information from the external device through the communication unit. One or a plurality of positions of the follow-up start position are stored in the follow-up start position storage unit, and the information for specifying the follow-up start position is identification information for identifying the follow-up start position. The defense device according to claim 32 or 33. The information for specifying the tracking start position included in the activation information from the external device while being deployed at the base where the position information is stored is the position information of the tracking start position.
The defense device according to any one of claims 32 to 34, wherein the follow-up start position includes the base. The information for specifying the tracking start position included in the activation information from the external device while being deployed at the base where the position information is stored is the position information of the tracking start position.
The control unit generates a flight drive signal based on the position information of the base and the position information of the follow-up start position included in the activation information, and controls the aerial movement mechanism by the generated flight drive signal. The defense device according to any one of claims 32 to 35. Equipped with a peripheral imaging unit that captures the periphery of the own device
The information on the follow-up start position stored in the follow-up start position storage unit includes an image of the follow-up start position captured by the peripheral imaging unit.
The defense device according to any one of claims 32 to 36, wherein the captured image of the follow-up start position is referred to when moving to the follow-up start position. In addition to being deployed at a predetermined base, it is provided with a peripheral photographing unit that photographs the surroundings of its own device, and images captured by the peripheral photographing unit in the flight path from the base to the stored tracking start position are captured in advance. I remember
32. Claims 32 to claim that the control unit uses the stored captured image when controlling the aerial movement mechanism when the own device is moved from the base to the follow-up start position. Item 3. The protective device according to any one of item 37. In addition to being deployed at a predetermined base, it is equipped with a peripheral photographing unit that photographs the periphery of the own device and a current position detecting unit that detects the current position, and a flight path from the stored tracking start position to the base. And the image taken by the peripheral photographing unit in the flight path to the present position is stored in advance.
32 to 32. The control unit uses the stored captured image when controlling the aerial movement mechanism when the own device is moved from the current position to the base. 38. The defense device according to any one of 38. An object imaging unit for imaging the moving object is provided.
The control unit
At the tracking start position, the moving object is imaged by the object imaging unit, and the aerial movement mechanism is controlled so as to follow the movement of the moving object based on the captured image. The defense device according to any one of claims 32 to 39, wherein the moving object is controlled so as to protect the moving object from the predetermined disturbance. The identification information of the moving object and the captured image of the moving object are stored in association with each other.
The activation information from the external device includes the identification information of the tracking object.
The defense device according to claim 40, wherein the image pickup information corresponding to the identification information of the tracking object included in the activation information is acquired and used by the control unit. It is provided with an object imaging unit for imaging the moving object.
Based on the captured image of the imaging unit, when it is determined that the moving object has entered the region where the predetermined disturbance does not reach, it is determined that the following movement is completed, and the following determination result is notified to the control unit. The defense device according to any one of claims 32 to 41, which comprises a termination detecting means. In addition to being deployed at the base for standby, it is equipped with an object imaging unit for imaging the moving object.
The control unit controls to move its own device to the base when it detects that the moving object has entered a region where the predetermined disturbance does not reach, based on the image captured by the imaging unit. The defense device according to any one of claims 32 to 42. In addition to being deployed at the base for standby, it is equipped with an object imaging unit for imaging the moving object.
The control unit controls to move its own device to the base when it detects that the moving object has entered a building and / or got in a car based on the captured image of the imaging unit. The defense device according to any one of claims 32 to 43. It is deployed at the base for standby and is equipped with a disturbance detection sensor.
Any of claims 32 to 44, wherein the control unit controls the disturbance detection sensor to move its own device to the base when it detects that there is no disturbance for a predetermined time or longer. Defensive device described in Crab. It is provided with an object imaging unit for imaging the moving object.
When the control unit detects that the moving object has entered the region where the predetermined disturbance does not reach based on the image captured by the imaging unit, the control unit determines that the following movement of the moving object has ended. The protective device according to any one of claims 32 to 45. It is provided with an object imaging unit for imaging the moving object.
When the control unit detects that the moving object has entered a building and / or got in a car based on the image captured by the imaging unit, it determines that the following movement of the moving object has ended. The defense device according to any one of claims 32 to 46. Equipped with a disturbance detection sensor
Any of claims 32 to 47, wherein the control unit determines that the follow-up movement of the moving object has ended when the disturbance detection sensor detects that there is no disturbance for a predetermined time or longer. Defensive device described in. 32. Claim 32, comprising a position / attitude control means for controlling the position and / or attitude of the umbrella portion according to the amount, strength and / or direction of the disturbance reaching the moving object. The protective device according to any one of claims 48. The defense device according to any one of claims 32 to 49, further comprising a position / attitude control means for controlling the position and / or attitude of the umbrella portion according to the position of the sun. The defense device according to any one of claims 32 to 50, wherein the moving object is a person, an animal, or a baggage. The defense device according to any one of claims 32 to 51, which comprises a smartphone or a laptop computer. The defense device according to any one of claims 32 to 52, wherein the follow-up start position is an entrance and / or an exit of a building. The follow-up start position storage unit is characterized in that, based on the instruction for registering the follow-up start position with respect to the moving object, the follow-up start position information is stored in association with the information for specifying the follow-up start position. The defense device according to any one of claims 32 to 53. Equipped with a current position detector that detects the current position
32 to 54, wherein the position information detected by the current position detection unit when the registration instruction is received is stored in the follow-up start position storage unit as the follow-up start position information. The defense device described in either. The defense device according to any one of claims 32 to 55, wherein the registration instruction is sent from the external device and the registration instruction is received through the communication unit. It is composed of a defense device that follows the moving object and flies in the air so as to protect the moving object from a predetermined disturbance, and an external device that is wirelessly connected to the defense device, and the external device starts following the moving object. The defense device in a defense system including an activation information transmitter that transmits the activation information including information for specifying a position to the defense device.
An umbrella portion for protecting the moving object from the predetermined disturbance by covering the sky above the moving object, and an umbrella portion.
An aerial movement mechanism for moving the umbrella portion in the air,
A communication unit for wireless communication with the external device,
A tracking start position storage unit that stores information on the tracking start position in association with information for specifying the tracking start position.
The computer included in the defense device
Based on the information for specifying the follow-up start position included in the start information from the external device received through the communication unit, the follow-up start position stored in the follow-up start position storage unit is read out and acquired. A program for a defense device for functioning as a control unit that controls the aerial movement mechanism so as to move to the acquired follow-up start position.

Images