JP7384484B2 - Defense systems, defense devices, drive control devices for defense devices, programs for defense devices, and programs for drive control devices for defense devices - Google Patents

Description

This invention relates to a defense system that protects from external disturbances such as rain, snow, hail, sunlight, and ultraviolet rays by covering the sky above people and moving objects, a defense device that constitutes the defense system, and a drive control device for the defense device. Regarding.

To protect oneself from external disturbances such as rain, snow, hail, sunlight, and ultraviolet rays, people open an umbrella and carry it in their hands when they move. However, if your hands are occupied while carrying luggage, if you use a wheelchair, or if you are a disabled person who cannot hold an umbrella in your hand, you may not be able to move while holding an umbrella in your hand. .

In view of this, various umbrella holders have been proposed that allow the user to hold an umbrella without having to hold 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 fastening tool that is fastened to the belt of pants. According to this umbrella holder, after an existing umbrella is attached to the holder, the umbrella can be held without having to be held by hand, which is convenient.

Japanese Patent Application Publication No. 2008-253651

However, in the case of a method of holding an umbrella against a human body using an umbrella holder disclosed in Patent Document 1, etc., it is necessary to protect the umbrella from external disturbances such as rain, snow, hail, sunlight, and ultraviolet rays. Therefore, you must carry an umbrella holder along with your umbrella. 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 moving over short distances, such as from the garage of one's home to the entrance of one's home, it is troublesome to carry and wear the device, and in practice, it is often not used.

In view of the above points, this invention makes it possible to protect a moving object such as a person from external disturbances such as rain, snow, hail, sunlight, and ultraviolet rays without having to attach an umbrella to the moving object such as the human body. The purpose is to provide a protective device that

In order to solve the above problems, this invention
A rail suspended in the air,
a protection device that is attached to the rail and protects a moving object from a predetermined disturbance;
a drive control device that is provided on the protection device or is provided separately from the protection device and causes the protection device to follow the moving object and move using the rail;
a sensor device that detects that the moving object has arrived at a defense starting position;
a communication device that transmits activation information to the drive control device;
A defense system comprising:
The sensor device includes:
transmitting a detection signal to the communication device when detecting that the moving object has arrived at the defense starting position;
The communication device includes:
When the detection signal is received from the sensor device, the position information of the defense start position is acquired based on the detection signal, and the activation information including the acquired position information of the defense start position is used for driving the activation information. send to the control device,
The protection device includes:
an umbrella section for protecting the moving object from the predetermined disturbance;
a moving mechanism for moving the umbrella part using the rail;
an imaging unit for imaging the moving object;
Equipped with
The drive control device includes:
a communication unit that receives the activation information from the communication device;
Extracting means for extracting the position information included in the activation information received by the communication unit;
means for moving the defense device, by the movement mechanism, to the defense start position corresponding to the position information extracted by the extraction means;
means for storing captured image information obtained by imaging the moving object by the imaging unit at the defense starting position as stored image information of the moving object;
By controlling the moving mechanism to follow the movement of the moving object based on stored image information of the moving object and captured image information of the moving object captured by the imaging unit, a follow-up moving means that controls the moving object to be protected from the predetermined disturbance by an umbrella part;
Provided is a defense system comprising:

In the protection device system of the invention having the above-described configuration, the moving object is protected from a predetermined disturbance by covering the sky above the moving object with the umbrella portion of the protection device. The defense device is configured to be able to be moved by a moving mechanism using a rail suspended in the air. The defense device is moved using the rails by controlling the movement mechanism by a drive control device.

In the defense system of the present invention, when the sensor device detects that the moving object has arrived at the defense start position, it transmits the detection signal to the communication device. The communication device transmits activation information including position information of a defense starting position to the drive control device based on the received detection signal. When the drive control device receives the activation information, the drive control device moves to the defense start position indicated by the position information of the defense start position included in the activation information, and uses the umbrella section to protect the moving object from a predetermined disturbance while it is moving. While moving, the object moves by following the movement of the moving object. Thereby, the moving object is protected from a predetermined disturbance by the umbrella part of the protection device even while moving.

The protection device according to the present invention moves by following the moving object while protecting the moving object from a predetermined disturbance with the umbrella portion, so unlike conventional methods, an umbrella or the like is attached to a moving object such as a human body. Even if it is not used, it is possible to protect moving objects such as people from external disturbances such as rain, snow, hail, sunlight, and ultraviolet rays.

1 is a diagram for explaining a configuration example of a defense device in a first embodiment of a defense system according to the present invention; FIG. FIG. 2 is a block diagram of a configuration example of a drive control device section of a defense device in a first embodiment of a defense system according to the present invention. 3 is a diagram for explaining some blocks in the block diagram of FIG. 2. FIG. 3 is a diagram for explaining some blocks in the block diagram of FIG. 2. FIG. 3 is a diagram for explaining some blocks in the block diagram of FIG. 2. FIG. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram for explaining an example of the overall configuration of a first embodiment of a defense system according to the present invention. It is a figure which shows a part of flowchart for demonstrating the processing operation example of the defense apparatus in 1st Embodiment of the defense system by this invention. It is a figure which shows a part of flowchart for demonstrating the processing operation example of the defense apparatus in 1st Embodiment of the defense system by this invention. It is a figure for explaining the example of composition of a 2nd embodiment of the defense system by this invention. It is a block diagram of the example of composition of the drive control device part of the defense device in a 2nd embodiment of the defense system by this invention. FIG. 7 is a diagram for explaining another configuration example of the second embodiment of the defense system according to the present invention. It is a figure for explaining the example of composition 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 3rd Embodiment of the defense system by this invention. It is a figure for explaining the example of composition of the 4th embodiment of the defense system by this invention. It is a figure for explaining the example of composition of a 5th embodiment of the defense system by this invention. It is a figure for explaining the example of composition of a 6th embodiment of the defense system by this invention.

[Description of the first embodiment]
FIG. 1 is a diagram showing a configuration example of a defense device (first embodiment of the defense device) in a first embodiment of the defense system according to the present invention. The defense device 1 of the first embodiment is configured as a flying object that can autonomously fly in the air and move, and assumes a person as a moving object. FIG. 1(A) is a diagram of the defense device 1 of this embodiment seen from above, and FIG. 1(B) is a diagram of the defense device 1 of this embodiment seen from the side. be.

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

The propeller mechanisms 5A, 5B, 5C, and 5D rotate propellers 52A, 52B, 52C, and 52D by rotationally driving propeller shafts (not shown) by engine parts 51A, 51B, 51C, and 51D, respectively. It is composed of The rotational speed and direction of the engine parts 51A, 51B, 51C, and 51D are controlled by a drive control signal from the drive control unit 3.

In this example, each of the engine parts 51A, 51B, 51C, and 51D is independently controlled by a drive control signal from the drive control unit 3, so that the defense device 1, which is a flying object, can take off, land, and ascend. It is possible to perform various movement operations such as descending, turning to the right, turning to the left, moving forward, moving backward, shifting to the right, and shifting to the left, as well as attitude control such as tilt angle with respect to the vertical direction and hovering position. It is possible to control it.

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 section 6 is constructed by attaching a sheet member made of cloth or synthetic fiber to a frame member made of metal, for example, and has a dome-like shape as a whole. In this example, the umbrella section 6 is attached to the housing of the drive control unit 3 by fixing a frame member and adhering a sheet member.

The umbrella section 6 is sized to protect the person from disturbances such as rain, snow, hail, 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 section 6 is subjected to processing such as waterproofing, water repellency, ultraviolet ray protection, etc. depending on the disturbance to be protected. In the first embodiment described below, a case will be described in which a person is protected from rain, snow, sleet, sleet, hail, and the like.

Two leg portions 7A and 7B are further 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 trapezoidal pipe members, and as shown in FIG. 1(B), the edge of the umbrella 6 does not touch the landing plane 8 on the landing plane 8 It is formed so as to stably hold the defense device 1.

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

As shown in FIG. 2, the drive control device section 10 in this embodiment connects a control section 101 consisting of a microcomputer (abbreviated as microcomputer in FIG. 2) to an aerial flight drive section 102, a gyro sensor, etc. 103, geomagnetic sensor 104, altitude sensor 105, rain sensor 106, wind sensor 107, current position detection section 108, object camera 109, peripheral camera 110, memory section 111, communication section 112, object recognition section 113, end of following movement A detection unit 114, a flight drive signal generation unit 115, a position and attitude control signal generation unit 116, and a battery check unit 117 are connected to each other.

The aerial flight drive section 102 supplies drive control signals to the engine sections 51A, 51B, 51C, and 51D of the propeller mechanisms 5A, 5B, 5C, and 5D of the aerial flight mechanism section 2 under the control of the control section 101, respectively.

The gyro sensor 103 detects changes in acceleration in the defense device 1, and is used to detect the traveling direction, speed, and attitude of the defense device 1. The geomagnetic sensor 104 is used to detect in which direction the defense device 1 is flying. The altitude sensor 105 is for detecting the altitude at which the defense device 1 is located at a given time, and is composed of, for example, an atmospheric pressure sensor.

The rain sensor 106 is used to detect how much rain is falling and with what intensity (size of raindrops, etc.) at that time. The rain sensor 106 is also capable of detecting snow, sleet, sleet, hail, and the like.

Wind sensor 107 is used to detect wind direction and wind speed. Wind speed can be detected, for example, by 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 location 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 taking an image of a moving object, and when the defense device 1 is located above the moving object, the optical axis of the image is set to take an image of the moving object. The drive control unit section 3 is provided so as to face downward from the umbrella section 6 . The peripheral camera 110 is a camera for capturing an image of the surrounding area in the direction of movement of the defense device 1 when it is flying, and the optical axis direction of the image is horizontal when the defense device 1 is in the landing state. It is provided in the drive control unit part 3 so that it faces.

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

In this embodiment, the defense device 1 is housed in a predetermined base when not in use. The location of this base is set and registered by the user, and is stored in the base location storage section 1111. The tracking start position is a position where the defense device 1 waits to recognize a moving object, and starts tracking movement after recognizing the moving object, and in this embodiment, it is set and registered by the user, It is stored in the tracking start position storage section 1112. Furthermore, in this embodiment, the user registers in advance a captured image of a person as an example of a moving object to be defended, and stores it in the registered captured image storage unit 1113.

In this embodiment, an external portable device 9 is prepared as a device that cooperates with the defense device 1 in order to perform the above registration process and to transmit activation information of the defense device 1, which will be described later. The communication unit 112 is a communication unit for connecting with this external portable device 9 through a wireless communication path.

Note that 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 on these portable notebook computers and smartphones, and they are connected to the defense device 1 through the communication section 112 so that they can communicate. Bye.

When registering the location of the base, the user positions the defense device 1 at the base. Then, the external mobile device 9 wirelessly connected by the communication unit 112 sends instruction information to the defense device 1, and uses the position information detected by the current position detection unit 108, such as latitude, longitude, and altitude, 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 object camera 109 captures image information at the base position or a position near the base. The information captured by the surrounding camera 110 at the base position or the position near the base is stored in the base position storage unit 1111 in association with the base position information. In this case, the position near the base includes the position where the defense device 1 is hovering above the base and the position above the base when it is heading towards the base.

As will be described later, when the defense device 1 returns to the base after flying, the defense device 1 retrieves the captured images from the object camera 109 and the surrounding camera 110 and the captured images stored in the base position storage unit 1111. By flying while making comparisons, you can return to the base accurately.

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

FIG. 3 shows an example of data stored in the tracking start position storage unit 1112. As shown in FIG. 3, the tracking start position storage unit 1112 stores the name of the tracking start position specified by the user on the external mobile device 9, such as "base" or "entrance", and the tracking start position ID ( (ID is identification information), position information, and image information captured by the object camera 109 and peripheral camera 110 at the tracking start position are associated and stored for each tracking start position.

Note that in the external portable device 9, the name of the tracking start position specified by the user and the tracking start position ID (ID is identification information) are stored in a tracking start position memory in association with each other. As will be described later, when transmitting activation information from the external mobile device 9, the user selects the tracking start position specified by the activation information from among the tracking start positions stored in the tracking start position memory. It is possible to specify.

Next, when registering a captured image of a moving object, the user controls the defense device 1 to hover above the person to be registered according to instructions from the external mobile device 9, and in that state, 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 at the same time, an instruction to register the captured image of the person is sent to the defense device 1.

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

The external portable device 9 also stores the person's name and the moving object ID in the moving object memory. Then, as will be described later, when transmitting activation information from the external mobile device 9, the user selects a person as an example of a moving object stored in the moving object memory and designates it with the activation information. It is possible to select and specify a person as a moving object.

The communication unit 112 receives activation information from the external mobile device 9 and supplies it to the control unit 101 . That is, the communication section 112 constitutes the activation information receiving section of this embodiment. The control unit 101 causes the communication unit 112 to detect that the activation information has been received and activate the defense device 1. An example of activation information transmitted from the external mobile device 9 is shown in FIG. Prior to transmitting this activation information, the user uses the external portable device 9 to select and specify the tracking start position described above, as well as to select and specify the object to be moved.

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

In this embodiment, the target object recognition unit 113 uses the captured image of the moving target captured by the target object camera 109 at the tracking start position and the moving target ID included in the activation information read from the registered captured image storage unit 1113. The person of the moving object to be followed is recognized by performing image recognition by comparing the captured image of the moving object that is associated with the moving object. In this embodiment, after recognizing the moving object, the object recognition unit 113 uses the object image captured by the object camera 109 to move in accordance with the movement of the moving object. , is stored in the object image storage unit 118. Then, image recognition for movement that follows the movement of the moving object is performed using the captured image information stored in the object image storage section 118.

Note that 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, etc. It can be done.

The follow-up movement end detection unit 114 moves to follow the movement of the moving object, and when it is determined that the moving object has entered a building where disturbances do not reach or entered a car, the moving object is detected. It is determined that the following movement of the object has ended, and the control unit 101 is notified of the determination result. This determination by the following movement end detection unit 114 is performed by analyzing image information captured by the object camera 109. When the control unit 101 determines that the follow-up movement has ended, it performs control processing to return the defense device 1 to the base by flight movement.

When the flight drive signal generation unit 115 flies from a base to a specified tracking start position according to a command based on activation information from the control unit 101, the flight drive signal generation unit 115 uses the base position stored in the base position storage unit 1111 of the memory unit 111. The direction and distance from the base position to the specified tracking start position are calculated from the information and the position information of the specified tracking start position read from the tracking start position storage unit 1112. Furthermore, when returning from the current position to the base based on the control unit 101 determining that the following movement has ended, the position information of the current position detected by the current position detection unit 108 and the position information stored in the base position storage unit 1111 are stored in the base position storage unit 1111. The direction and distance to return to the base from the current position are calculated from the position information of the base where the robot is currently located.

Based on the calculated direction and distance, the flight drive signal generation unit 115 uses information from the gyro sensor 103, geomagnetic sensor 104, altitude sensor 105, etc., and further generates images captured by the object camera 109 and peripheral camera 110. As a reference, a flight drive signal for moving from the base position to a designated tracking start position is generated and supplied to the aerial flight mechanism section 2 through the aerial flight drive section 102. In this case, the flight drive signal consists of a signal that drives each of the engine sections 51A to 51D of the four propeller mechanisms 5A to 5D. The generated flight drive signal is supplied to each of the engine sections 51A to 51D of the aerial flight mechanism section 2 through the aerial flight drive section 102.

In response to this flight drive signal, the aerial flight mechanism section 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 has ended to the base. Make a move.

Note that the drive control unit 10 stores images taken by the object camera 109 and peripheral camera 110 on the route of the flight from the base to the tracking start position, and uses the stored images and the images of the object during the flight movement. The flight drive signal may be generated while comparing and referring to images captured by the object camera 109 and the surrounding camera 110, and the drive control of the flight path of the defense device 1 from the base to the tracking start position may be performed. Similarly, the captured images of the object camera 109 and the peripheral camera 110 on the flight path from the tracking start position to the current position are stored, and the stored captured images are traced in the reverse direction. The flight drive signal may be generated while comparing and referring to images taken by the camera 109 and the peripheral camera 110, and the drive control of the flight path from the current position of the defense device 1 back to the base may be performed.

The position and orientation control signal generation unit 116 determines the position of the umbrella unit 6 relative to the moving object (the moving object Generates a position/attitude control signal that controls the attitude of the umbrella section 6, such as whether it is directly above the umbrella part 6 or slightly away from the front, back, left, and right, and the position in the vertical direction (height position), as well as the tilt angle and direction of the umbrella part 6. . In this case, the position and orientation control signal generation unit 116 generates a position and orientation control signal so that the position and orientation of the umbrella portion 6 are such that the disturbance does not reach the moving object as much as possible.

For example, if there is rain and there is almost no wind, the position and orientation control signal generation section 116 determines that the position and orientation of the umbrella section 6 are directly above the moving object, or at a position slightly shifted in the direction of movement of the moving object. , a position and 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 accompanying the rain, the position and orientation control signal generation section 116 determines whether the position and orientation of the umbrella section 6 is correct, taking into account the direction of the wind, the wind force, and the direction of movement of the moving object. A position/orientation control signal is generated so that the position/orientation control signal does not reach as much as possible. That is, for example, depending on the direction of the wind, the wind force, and the traveling direction of the moving object, the position of the umbrella section 6 is shifted from directly above the moving object, and is set at a predetermined height position. The angle of inclination and the direction of inclination of the portion 6 are also determined depending on the direction of the wind, the wind force, and the traveling direction of the moving object.

A battery 119 is connected to the battery check section 117. That is, the defense device 1 of this embodiment has the battery 119 as a driving power source. In this embodiment, the battery 119 is a rechargeable secondary battery, is equipped with a solar panel (not shown), and can be charged by sunlight. In addition, in consideration of the case where charging based on sunlight received by a solar panel is insufficient, charging is also possible using other charging methods based on power from other generators or electric wires.

In this example, the battery check unit 117 detects the voltage and remaining battery power of the battery 119, and based on the detection results, checks whether the battery 119 has accumulated sufficient voltage and remaining battery power for flight. and has the role of notifying the control unit 101 of the check results. The control unit 101 receives the check result from the battery check unit 117 and determines whether the state of charge of the battery 119 is such that the voltage and remaining battery power are sufficient for flight.

When the control unit 101 receives the check result from the battery check unit 117 and determines that the battery 119 has not accumulated sufficient voltage and remaining battery power for flight, it sends the external mobile device 9 that sent the activation information, Sends an error signal indicating insufficient voltage or insufficient battery power. Upon receiving this error signal, the external mobile device 9 displays an error message such as "insufficient voltage" or "insufficient battery remaining" on the display screen to inform the user that the protection device 1 cannot be used. do.

The control unit 101 constantly monitors the check results from the battery check unit 117 while the defense device 1 is in flight, and determines whether the voltage and remaining battery level of the battery 119 is about to become dangerous for flight. When it is determined that this is the case, the defense device 1 is controlled to forcefully return to the base. Here, determining whether or not "the voltage and remaining battery power of the battery 119 are about to reach a dangerous state as required for flight" refers to the distance between the flight movement from the current position to the base. This is a determination as to whether the battery 119 can maintain the power supply voltage and remaining battery power. Therefore, while the defense device 1 is in flight, the battery check unit 117 calculates the distance between the current position and the base, and checks whether the battery 119 has the power supply voltage and remaining battery power necessary for flight movement over that distance. I'm trying to check to see if there are any.

Note that in FIG. 2, the object recognition unit 113, the following movement end detection unit 114, the flight drive signal generation unit 115, and the position and orientation control signal generation unit 116 can also be realized by the control unit 101 as software processing functions. .

[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 its use is when it is used to protect family members from disturbances such as rain, snow, sleet, sleet, hail, etc. when moving between the entrance of the home and the garage. .

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

In this example, the external mobile device 9 (not shown in FIG. 6) used together with the defense device 1 is used in the defense device 1 as described above, and the captured image of the householder living in the house 21 is captured. , is registered as a moving object, and the position of the base 24 and the entrance 22 of the house 21 are registered as the tracking start position.

In this example, the external mobile device 9 is configured as a smartphone owned by a family member, and necessary software programs are installed in advance. If there are multiple family members, all captured images of the family members are registered in the defense device 1 as moving objects. All of the information stored by the external mobile device 9 at the time of registering the tracking start position and the captured image described above is stored in the smartphone owned by each family member in exactly the same way.

FIG. 6(A) shows that after a family member 25 has returned home by car and parked the car in the garage 23, the protection device 1 is used to move from the garage 23 to the entrance 22, for example, in order to protect from rain. This is the case. In the case of the example shown in FIG. 6A, the household member 25 launches an application for starting the defense device 1 on his/her own smartphone, specifies the base as the tracking start position, and also selects himself/herself as the movement target. Specify it as an object and send startup information.

When the defense device 1 that was in standby mode at the base 24 receives this activation information, it activates, recognizes that the tracking start position is the base 24 from the tracking start position ID included in the activation information, and It recognizes that the moving object is the family member 25 from the included moving object ID, reads the captured image of the family member 25 from the registered captured image storage section 1113 of the memory section 111, and supplies it to the object recognition section 113. .

The vehicle then takes off from the base 24, hovers and waits above the exit of the garage 23, and starts imaging with the object camera 109. Then, when the household 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 household member 25 read from the registered captured image storage unit 1113 of the memory unit 111. By performing image recognition for making the determination, the household member 25 is recognized, and once the household member 25 is recognized, the captured image of the household member 25 captured by the object camera 109 at that time is stored in the object image storage unit 118 as the image of the household member 25 that is being followed and moved. Store as a captured image.

Then, when the household member 25 moves toward the entrance of the house 21, the defense device 1 detects the movement from the captured image of the object camera 109, and flies to follow the movement of the household member 25. At this time, as described above, the protection device 1 controls the position and attitude of the umbrella section 6 with respect to the moving object according to the detection outputs of the rain sensor 106 and the wind sensor 107 and the moving direction of the household member 25. To create an optimal state for protecting household members 25 from rain as a disturbance.

Then, when it is detected that the householder 25 enters the house 21 through the door of the entrance 22 of the house 21 and enters an area where the rain as a disturbance does not reach, the defense device 1 determines that the follow-up movement has ended, and It flies back to base 24, lands at base 24, and enters standby mode. This standby state is a low power consumption state in which the control unit 101 can only receive activation information and other parts are not supplied with power supply voltage from the battery 119.

Next, FIG. 6(B) shows that a householder 26 who was in the house 21 uses the protection device 1 to move from the entrance 22 to the garage 23 in order to go out by car, for example, to protect from rain. This is the case. In the case of the example shown in FIG. 6(B), the householder 26 launches an application for starting the protection device 1 on his smartphone, specifies the entrance 22 of the house 21 as the tracking start position, and Specify yourself as the object to be moved and send startup information.

When the defense device 1 that was in standby state at the base 24 receives this activation information, it activates, 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 From the moving object ID included in the activation information, it is recognized that the moving object is the household member 26, the captured image of the household member 26 is read out from the registered captured image storage unit 1113 of the memory unit 111, and the object recognition unit 113 supply to.

Then, it takes off from the base 24, flies to the entrance 22 of the house 21, hovers above the entrance 22, waits, and starts imaging with the object camera 109. Then, when the household member 26 comes out from the door of the entrance 22, the defense device 1 uses the captured image captured by the object camera 109 and the registered captured image of the household member 26 read from the registered captured image storage unit 1113 of the memory unit 111. The household member 26 is recognized by performing image recognition to determine whether the household member 26 matches, and once the household member 26 is recognized, the captured image of the household member 26 captured by the object camera 109 at that time is stored in the object image storage unit 118 as the object to be followed and moved. It is stored as a captured image of the object.

Then, when the householder 26 moves toward the garage 23, the defense device 1 detects the movement from the captured image of the object camera 109, and flies to follow the movement of the householder 26. At this time, as described above, the protection device 1 controls the position and attitude of the umbrella section 6 according to the detection outputs of the rain sensor 106 and the wind sensor 107 and the moving direction of the household member 26, and controls the rain as a disturbance. to put the family member 26 in an optimal state to protect them from

Then, when it is detected that the household member 26 has entered the car at the garage 23 and entered an area where the rain as a disturbance does not reach, the defense device 1 determines that the follow-up movement has ended and flies to the base 24. The aircraft returns to base 24, lands on base 24, and enters standby mode.

[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 when the defense device 1 receives the activation information from the standby state until it 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 object recognition unit 113, the following movement end detection unit 114, the flight drive signal generation unit 115, and the position and orientation control signal generation unit 116 are controlled by the control unit 101 using software processing functions. The following explanation assumes that the configuration is as follows.

The control unit 101 of the defense device 1 monitors reception of activation information (step S101). When determining 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 part (step S102). Next, the control unit 101 checks the voltage and remaining battery power of the battery 119 and determines whether sufficient voltage and remaining battery power are accumulated for flight (step S103).

If it is determined in this step S103 that the voltage and remaining battery power of the battery 119 are not sufficient, the control unit 101 sends an error signal indicating insufficient voltage or insufficient remaining battery power to the external mobile phone that has transmitted the activation information. The data is sent to the device 9 (step S104), the process 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 insufficient voltage or insufficient remaining battery power, so the user recognizes that the protection device 1 cannot be activated.

When it is determined in step S103 that the voltage and remaining battery power of the battery 119 are sufficient, the control unit 101 refers to the storage contents of the tracking start position storage unit 1112 using the tracking start position ID included in the startup information. , the tracking start position is grasped, and the captured image of the person serving as the moving target is grasped by referring to the registered captured image storage unit 1113 using the moving target ID included in the activation information (step S105). Note that in step S105, the control unit 101 constantly checks the voltage and remaining battery power of the battery 119 in parallel, and as described above, when the voltage and remaining battery power of the battery 119 become insufficient, , perform processing to return to 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 it.

Next, the control unit 101 determines whether the grasped tracking start position is the current position, that is, the base (step S106), and when it is determined that the grasped tracking start position is not the current position, the control unit 101 proceeds to step S105. It flies and moves to the grasped tracking start position (step S107). Then, the control unit 101 hovers and waits while the object camera 109 captures an image at the tracking start position (step S108).

Further, when it is determined in step S106 that the grasped tracking start position is the current position, the control unit 101 hovers and waits while the object camera 109 captures an image at the tracking start position near the base ( Step S108).

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

In step S109, when it is determined that the moving object has been recognized, the control unit 101 causes the umbrella unit 6 to take a position and attitude in the sky above the moving object that protects the moving object from disturbances such as rain. The defense device 1 is controlled to (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. , and repeat the processing from step S111 onwards.

Further, when it is determined in step S112 that the moving object has moved, the control section 101 causes the defense device 1 to fly and move following the movement of the moving object, and also controls the position of the umbrella section 6 and the like. The tilt angle and the tilt direction are controlled so that protection against disturbances such as rain is optimal (step S113).

Then, the control unit 101 determines from the captured image of the object camera 109 whether the moving object has entered an area where disturbances do not reach (step S114), and determines whether the moving object has entered an area where disturbances do not reach. When it is determined that there is no one, the process returns to step S111 and the processes from step S111 onwards are repeated.

When it is determined in step S114 that the moving object has entered an area where disturbances do not reach, the control unit 101 controls the flight of the defense device 1 to return to the base, and after landing at the base, returns to the standby state. (Step S115). Then, this processing operation ends.

[Effects of the first embodiment]
As explained above, according to the defense system and defense device 1 of the first embodiment described above, when the user sends activation information from the external mobile device 9, the defense device 1 flies over the user. , the umbrella part 6 protects the user from disturbances. Therefore, there is no need for the user to attach a holder to the body to hold the umbrella, such as the conventional umbrella holder explained at the beginning, and there is no need for the user to carry the umbrella or holder. So it is very convenient.

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

Further, according to the defense device 1 of the first embodiment described above, the position at which the defense device 1 is desired to start defending against a disturbance is registered in the defense device 1 as a tracking start position, and the start-up information is for that position. Simply including information for specifying the tracking start position has the effect that protection against disturbances can be started from the registered tracking start position.

According to the protection device 1 of the first embodiment described above, the horizontal position, height position, tilt angle, and tilt direction of the umbrella portion 6 relative to the moving object are determined based on the state of disturbance such as rainfall amount, wind direction, and wind force. Since the control is automatically performed according to the amount of disturbance, the protection effect against disturbances can always be optimized.

[Second embodiment]
In the first embodiment described above, the users of the defense device 1 are limited to family members and 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 a case of a 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 same as that of the first embodiment, except for the configuration of the processing unit for activating the defense device 1A and recognizing the moving object at the tracking start position. This is similar to the defense device 1 of the embodiment. Before explaining a configuration example of this defense device 1A, a usage pattern assumed for the defense device 1A of this second embodiment will first be explained.

The example described below is a case where a hospital and a pharmacy are located at separate locations, and the defense device 1A is used during transportation from the hospital to the pharmacy. Another case is that the object to be moved is a patient who has come to the hospital for treatment and is also a wheelchair user. In order to move the wheelchair by operating the wheelchair with both hands, the wheelchair user cannot put up an umbrella by himself when it is raining or snowing, so this second embodiment is not suitable. Defense device 1A is very useful.

In this second embodiment, as shown in FIG. 9(A), a patient 31 who is a wheelchair user pays a consultation fee and receives a prescription for medicine at the hospital's accounting. , inform the clerk 32 that you will go to the pharmacy and pick up the medicine listed on the prescription. Then, when traveling from the hospital to the pharmacy, the patient informs the staff member 32 that he/she would like to receive the service of using the protection device 1A.

Then, in this example, the staff member 32 hands over the bracelet-shaped transmitting device 33 to the patient 31 who is the user of the protection device 1A. This transmitting device 33 is a device that has a function of transmitting a transmitted signal including identification information for identifying the transmitting 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, thereby recognizing the person wearing the bracelet-shaped transmission device 33 as a moving object to be protected. I'll do what I do.

The staff member 32 who handed over the bracelet-shaped transmitting device 33 to the patient 31 operates the button 34 for transmitting activation information to the protection device 1A.

As shown in FIG. 9(B), the defense device 1A of this second embodiment is housed in a standby state in a base provided in a hospital building 35. When the defense device 1A receives activation information based on the operation of the button 34, it activates the defense device 1A in the same manner as in the first embodiment. Then, the protection device 1A waits near the exit of the hospital building 35 for going to the pharmacy as a tracking start position, and waits to receive a transmission signal including identification information from the bracelet-shaped transmission device 33.

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

When the protection device 1A recognizes a moving object to be protected, it moves to the sky above the patient 31, which is the moving object, to protect it from rain, and images the patient, which is the moving object, with the object camera 109. , the captured image is stored in the object image storage unit 118, and is used as the object for subsequent follow-up movement.

Therefore, when the patient 31 operates the wheelchair and moves to the pharmacy, the protection device 1A follows the movement and flies while protecting the patient 31 from rain, similar to the first embodiment. When the patient 31 enters the pharmacy building 36, the protection device 1A lands at a location 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 it can receive the transmission signal from the bracelet-type transmitter 33, thereby minimizing power consumption.

When the patient 31 receives the medicine and is about to leave the pharmacy building 36, the protection device 1A in the standby state receives a transmission signal from the bracelet-shaped transmitter 33, restarts, and positions itself in the sky 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 rain.

Then, when the patient 31 enters the hospital building 35, the protection device 1A recognizes that the moving object has entered a place where disturbances do not reach, and waits at the base. The patient 31 then returns to the hospital's accounting counter and returns the bracelet-shaped transmitting device 33. After confirming that the bracelet-shaped transmitting device 33 has been returned, the staff member 32 operates the button 37 to send a termination instruction to the defense device 1A. When the defense device 1A receives this termination instruction, it erases the currently captured image of the moving object 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 this second embodiment differs from the configuration of the defense device 1 shown in FIG. It has exactly the same configuration as device 1.

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

Furthermore, the target object recognition unit 113A in the defense device 1A of the second embodiment does not have a function of recognizing a moving target by matching the registered captured image with the captured image of the target object camera 109. Simply match the image of the person in possession of the bracelet-shaped transmitter 33 taken by the object camera 109 with the identification information included in the transmission signal from the bracelet-type transmitter 33, and identify the target. It has a function of storing the stored image in the image storage unit 118 and recognizing the stored image as a captured image of a moving object.

The other configuration of the defense device 1A is completely the same as the defense device 1 of the first embodiment, as shown in FIG.

[Effects of the second embodiment]
According to the defense device 1A of the second embodiment, at the tracking start position, the moving object is authenticated using the identification information included in the transmission signal from the bracelet-shaped transmission device 33, and the object camera 109 The captured image of the moving object captured by is associated with the identification information and stored in the object image storage unit 118 as a captured image of the moving object that follows the movement. Then, the defense device 1A moves to follow the moving object based on the captured image stored in the object image storage section 118. As a result, according to the defense device 1A of the second embodiment, unlike the defense device 1 of the first embodiment, it does not only protect registered moving objects in advance, but also protects against arbitrary moving objects. It is possible to move and follow an object as a defense target.

[Other usage examples of the defense device 1A of the second embodiment]
FIG. 9 shows an example in which the protection device 1A protects a patient traveling between a hospital and a pharmacy from external disturbances. For this reason, the protection device 1A assumes that a patient as a user always returns from the pharmacy to the hospital after moving from the hospital to the pharmacy. However, when it is not assumed that the patient will return from the pharmacy to the hospital, the protection device 1A will allow the patient to go from the hospital to the pharmacy, enter the pharmacy, and return to the hospital base when the disturbance no longer reaches the patient. The identification information and captured image stored in the object image storage unit 118 may be deleted. In this case, the bracelet-shaped transmitting device 33 may be returned by the patient at the pharmacy, and then handed over from the pharmacy to the hospital.

Still another example using the defense device 1A of the second embodiment is shown in FIG. The example shown in FIG. 11 is for a theme park where visitors can move between multiple buildings where various attractions are held while being protected from external disturbances by the protection device 1A. be.

In this example, when the visitor 38 signs up for a disturbance protection service provided by the protection device 1A at the gate 41 of the theme park, the visitor 38 is lent the bracelet-shaped transmitting device 33 described above. Therefore, when the visitor 38 wears the bracelet-shaped transmitter 33 and waits at the gate 41, the staff at the gate 41 of the theme park will wait at the base of the gate 41 based on the operation of the activation button. One of the defense devices 1A that is there will come flying. 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-shaped transmitter 33 worn by the visitor 38, and images the visitor 38 using the object camera 109. Then, as described above, the captured image of the visitor 38 is stored in the object image storage section 118 in correspondence with the identification information.

The defense device 1A then flies and moves following the movement of the visitor 38. When the visitor 38 enters the building 42 of a certain attraction A, the protection device 1A determines that the visitor 38 has entered an area where disturbances do not reach, returns to the base of the gate 41, and stores the image in the object image storage unit 118. Delete the stored identification information and captured images. The protection device 1A then returns to a standby state in which it receives an instruction to start the disturbance protection service for the next visitor.

A base for the defense device 1A is also provided in the building 42 of attraction A, and a plurality of defense devices 1A are on standby. Note that the defense device 1A that has returned to the base of the gate 41 described above may not return to the base of the gate 41, but may remain on standby at the base of the building 42. In addition, the building 42 of this attraction A is equipped with a relay that has the function of receiving a transmission signal from a bracelet-shaped transmission device 33 worn by the visitor 38 and transmitting it to the defense device 1A waiting at the base. A device 421 is provided. The defense device 1A in 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-shaped transmission device 33, based on information indicating the transmission device included in the received signal.

When the visitor 38 enters the building 42, the relay device 421 receives the transmission signal from the bracelet-shaped transmitter 33 worn by the visitor 38, and transmits the received transmission signal to the base of the building 42. A call is made to the waiting defense device 1A. Then, one of the defense devices 1A at the base of the building 42 becomes communicatively connected to 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 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-shaped transmission device 33, the protection device 1A receives the identification information included in the received transmission signal, A match with the identification information received from the relay device 421 is confirmed, and the moving object is authenticated. When the authentication is completed, the defense device 1A images the visitor 38 with the object camera 109 in the sky above the visitor 38, and stores the captured image of the visitor 38 in the object image memory as described above. The identification information is stored in the section 118 in correspondence with the identification information.

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

Similarly to the building 42, the building 43 of attraction B is also provided with a base for the defense device 1A, and a plurality of defense devices 1A are on standby. Note that the defense device 1A may not return to the base of the building 42 but wait at the base of the building 43. In addition, the building 43 of this attraction B has a relay function that receives the transmission signal from the bracelet-shaped transmission device 33 worn by the visitor 38 and transmits 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-shaped transmitter 33 worn by the visitor 38, and receives the received transmission signal. 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 becomes in a state of communication connection with the relay device 431, and the one defense device 1A receives the transmission signal from the relay device 431 and transmits the received transmission signal. The identification information included in is extracted and held, and the device waits for reception of a transmission signal from the bracelet-type transmission device 33.

When the visitor 38 comes to the exit of the building 43 and the defense device 1A receives the transmission signal from the bracelet-shaped transmission device 33, the protection device 1A receives the identification information included in the received transmission signal, The moving object is authenticated by confirming that it matches the identification information received from the relay device 431. When the authentication is completed, the defense device 1A images the visitor 38 with the object camera 109 in the sky above the visitor 38, and stores the captured image of the visitor 38 in the object image memory as described above. The identification information is stored in the section 118 in correspondence with the identification information.

The defense device 1A then 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 protection device 1A determines that the visitor 38 has entered an area where disturbances do not reach, and moves the visitor 38 to the base of the building 43 of attraction B. Returning to , the identification information and captured image stored in the object image storage unit 118 are deleted. The protection device 1A then returns to the standby state for providing disturbance protection services 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 wait at the base of another attraction's building or the base of the gate 41. Note that the visitor 38 returns the lent bracelet-shaped transmitting device 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, a base for the defense device 1A is provided in the building of each attraction, and a relay device is provided to relay the transmission signal from the bracelet-shaped transmitter 33 to the defense device 1A. As a result, it is possible to provide theme park visitors with a service that protects them from external disturbances such as rain when moving from various attraction buildings to other buildings using the protection device 1A.

In the second embodiment described above, a bracelet-type transmitter 33 is used as a transmitter for transmitting a transmission signal, but the transmitter 33 is not limited to a bracelet-type, and can be worn or carried by the user. It may take any form as long as it can do so. For example, it may be a hat type, a pouch type worn on a belt, a patch, a badge, a seal, or a sticker.

[Third embodiment]
In the third embodiment, for example, in a large shopping center or theme park, when returning to one's own car parked in a parking lot, the protection device provides a service of protection from external disturbances such as rain, using a vending machine format. This is an example of how to receive it.

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

Although not shown, the defense device 1B in the third embodiment receives data from the transmitter 615 of the vending machine 61 in place of the communication unit 112A of the defense device 1A in the second embodiment shown in FIG. It includes a communication section that receives signals. The defense devices 1B in this third embodiment each have a device ID, and the transmitter 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 that is currently in use. When each of the defense devices 1B receives a signal from the transmitter 615 of the vending machine 61, it determines the device ID included in the received signal, and if it matches the device ID of its own device, it determines the device ID included in the received signal. The received signal is only taken in as a signal addressed to the device itself.

Then, the base position storage unit 1111 of the memory unit 111 of the defense device 1B stores the position information of the base 62, and the tracking start position storage unit 1112 stores the position information of the position where the vending machine 61 is installed. be remembered. Furthermore, in place of the identification information storage section 1114, a captured image storage section is provided that stores captured images of users sent from the vending machine 61.

In the third embodiment, the user 63 inserts a predetermined fee into the vending machine 61 through the coin slot 611 or bill slot 612, and selects the defense device 1B on the display 613. Then, the vending machine 61 images 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 a transmission signal, and transmits the signal 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.

The defense device 1B of the selected device ID, which has received the captured image information and activation information from the transmission unit 615 of the vending machine 61, activates, flies from the base 62 to the location of the vending machine 61, and uses it. The user 63 is imaged by the object camera 109, and the object recognition unit compares the captured image with the received image to confirm the authentication of the user 63. Once 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 is used as a moving object to be followed.

Then, in the same manner as described above, it flies and 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 by getting into the car in the parking lot, the defense device 1B returns to the base 62 and stores the captured image storage section of the memory section 111. Erases the memory contents and returns to standby mode for next use.

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

Then, the vending machine 61 determines whether or not the selection of the defense device 1B by the user 63 has been accepted (step S203). When it is determined in this step S203 that the selection of the defense device 1B has not been accepted, the vending machine 61 determines whether or not a cancellation operation has been performed by the user 63 (step S204). When it is determined that there is no defense device 1B, 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 user 63 has performed a cancellation operation, the vending machine 61 returns the inserted fee 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 uses the captured image information and the selection by the user 63. The information is sent to the defense device 1B including the device ID of the defense device 1B (step S207). Next, the vending machine 61 transmits 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 the third embodiment, the user 63 can receive protection services against disturbances such as rain by the protection device 1B by simply inserting a fee into the vending machine 61. According to this third embodiment, if you are holding baggage from shopping at a shopping center or souvenirs from a theme park in both hands, there is no need to hold an umbrella or the like. This is extremely convenient as it allows you to carry things such as items to your car in the parking lot without getting wet in the rain.

Note that in the third embodiment described above, the vending machine 61 uses the camera 614 to image the user 63 and sends the captured image to the defense device 1B. The defense device 1B that has received the information flies to the location 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 section 118. By storing the information, the user 63 may be recognized as a moving object to be followed.

[Fourth embodiment]
The third embodiment is protection against external disturbances during movement 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 disturbance such as rain is occurring even when the car is parked in the parking lot after arriving at a shopping center or theme park, a protection service for the disturbance is provided. This is an example of a case where it is possible to receive.

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

In the example of FIG. 14, a building 70 of a shopping center is provided with a base 71 of the defense device 1C and a communication device 72. Each parking space in the parking lot is provided with a parking sensor device 73 that detects when a car is parked in the respective parking space. When the parking sensor device 73 detects that a car is parked in the parking space that it monitors, it transmits a parking detection signal including the device ID as identification information of the parking sensor device 72 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. 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 to obtain the position information of the parking sensor device 73 that sent the parking detection signal. Detect. Then, the communication device 72 designates one of the defense devices 1C waiting at the base 71 and transmits activation information including the detected position information as the position information of the tracking start position.

The defense device 1C that has received this activation information is activated, extracts the position information included in the activation information, and flies to the parking space of the position information. The object camera 109 then hovers above the user who is getting out of the car parked in the parking space, images the user with the object camera 109, and stores the image information in the object image storage section 118. It is stored as captured image information of the moving object to be followed.

Thereafter, the protection device 1C flies and moves while following the movement of the user and protecting against external disturbances such as rain. When the user enters the building 70 of the shopping center and confirms that the user has entered an area where disturbances do not reach, the defense device 1C returns to the base 71 and stores the captured image information stored in the object image storage unit 118. and return to standby.

In the configuration of the defense device 1C in 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 enters the standby state. When returning, the position information stored in the tracking start position storage section 1112 is erased. The other configurations are almost the same as the example defense device 1B described as a modification in the third embodiment.

[Fifth embodiment]
In the fourth embodiment, the defense device 1C is a device that flies autonomously, but the defense device is a device that moves not by flight but, for example, along a rail suspended in the air. But that's fine. FIG. 15 is a diagram for explaining a configuration example of a defense system according to the fifth embodiment using the defense device 1D having such a configuration. In the example shown in FIG. 15, similar to the protection system of the fourth embodiment shown in FIG. This is the case when receiving.

FIG. 15(A) is a diagram of the parking lot viewed from above, and FIG. 15(B) is a diagram of the parking lot viewed from the horizontal direction. Furthermore, FIG. 15(C) is a diagram for explaining the driving method of the defense device 1D.

As shown in FIGS. 15(A) and 15(B), a rail 74 is arranged from near the building 70 of the shopping center to cross each parking space in the parking lot. The rail 74 is supported by supports 75 at appropriate positions. As shown in FIG. 15(B), the defense device 1D is suspended from the rail 74 by a support arm 76, and an umbrella portion 6D and a sliding movement drive control unit 3D are attached to the lower part of the support arm 76. Equipped with

FIG. 15(C) is for explaining the cross section of the rail 74 and the sliding movement mechanism section 77 provided at the tip of the support arm 76 housed within the rail 74. As shown in FIG. 15(C), the rail 74 is a cylindrical body that is hollow inside and has a substantially rectangular cross section, and has a slit at the bottom that allows the support arm 76 to move along the rail 74. 74a.

The sliding movement mechanism section 77 provided at the tip of the support arm 76 includes wheels 772 and 773 at both ends of the axle 771, and an axle rotation section 774 provided at the connection between the support arm 76 and the axle 771. Equipped with In the axle rotation section 774, although not shown, the driving force of the sliding movement drive control unit 3D is transmitted to the sliding movement mechanism section 77 through a link mechanism provided inside the support arm 76, and this sliding movement The axle 771 is configured to be rotated by the moving mechanism section 77 in the forward direction and the backward direction. Since the sliding movement mechanism section 77 can be constructed using a well-known technique, a detailed explanation will be omitted here.

The sliding movement drive control unit 3D of the defense device 1D has a function of performing wireless transmission with a communication device 72 provided on the building 70 side of the shopping center, and receives activation information from the communication device 72. and autonomously move forward (move in the direction from the shopping center building 70 to the parking lot) and backward (move in the direction from the parking lot to 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 different from that of the defense device 1C of the fourth embodiment described above. In the defense device 1D, since a sliding movement mechanism section 77 is provided, the difference is that a sliding movement drive section is provided in place of the aerial flight drive section 102 of the defense device 1C, and the inclination of the umbrella section 6D is The only difference is the mechanism for controlling the angle and the tilt direction, and the other configurations are almost the same. In addition, since a well-known mechanism can be used as a mechanism for controlling the tilt angle and direction of the umbrella portion 6D, the explanation thereof will be omitted here.

In the example of FIG. 15, as shown in FIGS. 15(A) and 15(B), when the user's car parks in any of the parking spaces, the parking sensor device 73 of that parking space detects that a car is parked in the parking space that it monitors, and transmits a parking detection signal containing the device ID as identification information of the 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, it refers to the stored table information and detects the position information of the parking sensor device 73 that sent the parking detection signal. do. Then, the communication device 72 transmits the activation information including the detected position information as the position information of the tracking start position to one of the defense devices 1D that is attached to the rail 74 installed in the parking space and is waiting. Specify and send.

The defense device 1D that has received this activation information is activated, extracts the position information included in the activation information, and slides along the rail 74 to the parking space of the position information. Then, it waits above the user who is getting out of the car parked in the parking space, images the user with the object camera 109, and stores the captured image information in the object image storage unit 118. It is stored as captured image information of the moving object to be followed.

Then, the protection device 1D slides and moves while following the movement of the user and protecting against external disturbances such as rain. At this time, the protection device 1D controls the position and posture of the umbrella portion 6D in the same manner as described above so that the moving object can be appropriately protected from disturbances. When the user enters the building 70 of the shopping center and confirms that the user has entered an area where disturbances do not reach, the defense device 1D returns to the predetermined base position and captures the image stored in the object image storage unit 118. Delete image information and return to standby mode. Then, the defense device 1D erases the parking space position information acquired from the communication device 72 stored in the tracking start position storage section 1112 of the memory section 111.

In the example of FIG. 15, the rail 74 is laid and the defense device 1D is moved autonomously along the rail 74, but it is difficult to move the defense device autonomously. Instead, it can be configured to move forward and backward by pulling 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 on the protection device. The rope traction drive device is configured to acquire imaging information from the object camera 109 from the protection device, and drive and control the protection device while monitoring the imaging information. In this example, the defense device itself may be provided with a mechanism for controlling the position and attitude of the umbrella section.

[Sixth embodiment]
In the embodiment described above, the disturbance is assumed to be rain, snowfall, etc., but as described above, the disturbance that the protection device protects against may be sunlight, ultraviolet rays, or other disturbances. The sixth embodiment described below is an example of a protection device for protecting users from sunlight and ultraviolet rays at a poolside or on a sandy beach.

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

That is, as shown in FIG. 16, in this sixth embodiment, a plurality of deck chairs 82 are installed on the poolside around a pool 81. A base 83 of the defense device 1E is provided in association with each deck chair 82. The base 83 has a structure in which a support 831 is provided with a landing pad 832 made of a flat plate having a size on which the defense device 1E can land.

The defense device 1E has a configuration similar to that shown in FIG. 10, and is activated by receiving activation information. However, in this sixth embodiment, the base position storage section 1111 of the memory section 111 stores position information of the position of the base 83 of each defense device 1E, and the tracking start position storage section 1112 stores the position information of the base 83 of each defense device 1E. , location information of each base 83 is stored. The umbrella portion 6E of the protection device 1E has a size that can protect the entire user 84 sitting or lying on each deck chair 82 from sunlight and ultraviolet rays. The position and attitude control signal generation unit 116 of the defense device 1E has an attitude control function that can change and control the inclination direction and inclination angle of the umbrella unit 6E according to the position of the sun, and also is equipped with a function to control the position and attitude appropriately to protect against the rain. As a mechanism for controlling the attitude of this umbrella portion 6E, the attitude control is not performed in the flight state as in the first embodiment, but in the state located at the base 83, as in the fifth embodiment described above. Similarly to the configuration, the configuration may be such that the posture of the umbrella portion 6E can be controlled.

In the sixth embodiment, each of the deck chairs 82 is provided with a device 85 for transmitting activation information to the defense device 1E. This transmitter 85 is connected to a sensor that detects whether the user 84 is sitting or lying down on the deck chair 82, and detects whether the user 84 is sitting or lying down on the deck chair 82. When this is detected, activation information is transmitted to the defense device 1E. In this example, a sensor that detects the pressure applied to the deck chair 82 is used as the sensor connected to the transmitting device 85. However, the sensor connected to this transmitting device 85 may be a human sensor as long as it can detect the user 84 using the deck chair 82.

The defense device 1E receives the activation information from the transmitting device 85, starts up, images the user 84 with the object camera 109, and uses the imaged image information to detect the moving object to be followed and moved. It is stored in the object image storage unit 118 as captured image information.

Therefore, as shown in FIG. 16, when the user 84 moves away from the deck chair 82, the protection device 1E follows the movement and moves in flight. When the protection device 1E detects that the user 84 enters the room and sunlight as a disturbance does not reach the user 84, the protection device 1E returns to its own base 83 and stores the information in the object image storage unit 118. The user's captured image information will be deleted.

In this example, when the user 84 is swimming in the pool 81, the protection device 1E operates to cover the sky above the user 84 and block 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 have a structure in which a so-called quadcopter is provided with an aerial flight mechanism section 2 having an umbrella section attached. is not limited to the configuration of a quadcopter, but may be any mechanism as long as it is equipped with an umbrella and can hover or fly above a moving object.

Furthermore, although the object to be moved is a person in the above-described embodiment, it is not limited to a person and may also be an animal. For example, the object to be moved may be a piece of luggage that is moved on a cart that is moved by remote control by wireless. The defense device and defense system of the present invention can also be applied to the defense of.

Further, in the above embodiment, rain, snowfall, sunlight, ultraviolet rays, etc. have been explained as disturbances, but any disturbance can be targeted as long as it can be protected by the umbrella section. For example, as mentioned above, rain, snow, hail, sleet, hail, sunlight, ultraviolet rays, dust, dust, smoke, exhaust gas, volcanic ash, pollen, etc. can be used as disturbances to be protected.

In addition, in the first to third embodiments, the trigger for generating the activation information of the protection device is explained using the button operation by the user or the staff as an example, but the trigger for generating the activation information of the protection device is explained using the case where the button is operated by the user or the staff member. The activation information may be transmitted in response to an operation or a gesture operation.

Furthermore, in the above-described embodiment, the protection device determines that the follow-up movement has ended when it detects that the disturbance has entered an area or building where it cannot reach, but the rain sensor is not limited to this. The end of the tracking movement may be determined by detecting that the presence of a disturbance has not occurred for a predetermined period of time or longer using a disturbance detection sensor, such as by detecting that the sleet or hail has stopped. As a disturbance detection sensor, a light sensor is used if the disturbance is sunlight, an ultraviolet sensor if it is ultraviolet light, a dust sensor if it is dust or dust, a smoke sensor if it is smoke, a gas sensor if it is exhaust gas, and a gas sensor if it is volcanic ash. A particle sensor is used for volcanic ash, and a pollen sensor is used for pollen.

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

Claims (33)

A rail suspended in the air,
a protection device that is attached to the rail and protects a moving object from a predetermined disturbance;
a drive control device that is provided on the protection device or is provided separately from the protection device and causes the protection device to follow the moving object and move using the rail;
a sensor device that detects that the moving object has arrived at a defense starting position;
a communication device that transmits activation information to the drive control device;
A defense system comprising:
The sensor device includes:
transmitting a detection signal to the communication device when detecting that the moving object has arrived at the defense starting position;
The communication device includes:
When the detection signal is received from the sensor device, the position information of the defense start position is acquired based on the detection signal, and the activation information including the acquired position information of the defense start position is used for driving the activation information. send to the control device,
The protection device includes:
an umbrella section for protecting the moving object from the predetermined disturbance;
a moving mechanism for moving the umbrella part using the rail;
an imaging unit for imaging the moving object;
Equipped with
The drive control device includes:
a communication unit that receives the activation information from the communication device;
Extracting means for extracting the position information included in the activation information received by the communication unit;
means for moving the defense device, by the movement mechanism, to the defense start position corresponding to the position information extracted by the extraction means;
means for storing captured image information obtained by imaging the moving object by the imaging unit at the defense starting position as stored image information of the moving object;
By controlling the moving mechanism to follow the movement of the moving object based on stored image information of the moving object and captured image information of the moving object captured by the imaging unit, a follow-up moving means that controls the moving object to be protected from the predetermined disturbance by an umbrella part;
A defense system comprising: When the sensor device detects that the moving object has arrived at the defense starting position, the sensor device transmits a detection signal including identification information of the sensor device to the communication device,
The communication device stores the identification information of the sensor device in association with the position information of the defense start position detected by the sensor device, and when receiving the detection signal from the sensor device, The defense system according to claim 1, wherein the position information stored in correspondence with the identification information included in the detection signal is acquired as the position information of the defense start position detected by the sensor device. . 3. A plurality of defense start positions of the moving target are provided, and the sensor device is provided at each of the plurality of defense start positions. defense system. The drive control device includes:
If it is detected that the moving object enters an area where the disturbance does not reach, based on the captured image of the imaging unit, control is performed to end the following movement of the moving object. The defense system according to any one of claims 1 to 3. The defense system according to claim 1, wherein the defense device is on standby at a predetermined base. The drive control device includes:
A claim characterized in that, when it is detected that the moving object has entered an area where the disturbance does not reach, based on the captured image of the imaging unit, the defense device is controlled to return to the base. The defense system according to item 5. The drive control device includes:
If it is detected that the moving object has entered an area where the disturbance does not reach, based on the captured image of the imaging unit, the stored image information and/or the position information of the moving object is erased. The defense system according to any one of claims 1 to 6, characterized by: comprising one or more disturbance detection sensors for detecting disturbance;
The drive control device includes:
If it is detected that the presence of the disturbance does not exist for a predetermined period of time or more based on the detection output of the one or more disturbance detection sensors, the tracking movement of the moving object by the protection device is terminated. The defense system according to any one of claims 1 to 7. comprising one or more disturbance detection sensors for detecting disturbance;
The drive control device includes:
A claim characterized in that, when it is detected that the presence of the disturbance does not exist for a predetermined period of time or more based on the detection output of the one or more disturbance detection sensors, the defense device is controlled to return to the base. The defense system according to claim 5 or claim 6. comprising one or more disturbance detection sensors for detecting disturbance;
The drive control device includes:
If it is detected based on the detection output of the one or more disturbance detection sensors that the presence of the disturbance is not present for a predetermined period of time or more, the stored image information and/or the position information of the moving object are erased. The defense system according to any one of claims 1 to 9, characterized by: The disturbance detection sensor is
Rain sensors that use rain, snow, hail, sleet, and hail as disturbances, optical sensors that use sunlight as disturbances, ultraviolet sensors that use ultraviolet rays as disturbances, dust sensors that use dust and dust as disturbances, smoke sensors that use smoke as disturbances, The defense according to any one of claims 8 to 10, characterized in that the sensor is a gas sensor that uses exhaust gas as a disturbance, a particle sensor for volcanic ash that uses volcanic ash as a disturbance, and/or a pollen sensor that uses pollen as a disturbance. system. The drive control device is provided on the defense device that is movably attached using the rail, and uses the movement mechanism to autonomously move the defense device using the rail. The defense system according to any one of claims 1 to 11, comprising a mechanism. The drive control device is provided separately from the protection device that is movably attached using the rail, and the drive control device is configured to move the protection device to the object to be moved by the moving mechanism using a rope. The defense system according to any one of claims 1 to 11, comprising a mechanism that moves an object to protect it from the predetermined disturbance. The protection device is configured to control a position and/or attitude of the umbrella in the sky above the moving object, depending on the amount, strength, and/or direction of the disturbance reaching the moving object. The defense system according to any one of claims 1 to 13, further comprising a control means. The moving object is a person who gets out of a parked car,
The defense starting position is a parking space for the automobile,
The sensor device detects that the moving object has arrived at the defense starting position by detecting that the automobile is parked in the parking space. Defense system described in Crab. A rail suspended in the air, a protection device attached to the rail to protect a moving object from a predetermined disturbance, a sensor device that detects when the moving object has arrived at a defense starting position, and the protection device. a communication device that transmits activation information to the communication device, the sensor device transmits a detection signal to the communication device when detecting that the moving object has arrived at the defense start position, and the communication device , when the detection signal is received from the sensor device, the position information of the defense start position is acquired based on the detection signal, and the activation information including the acquired position information of the defense start position is The defense device in the defense system that transmits to the defense device,
an umbrella section for protecting the moving object from the predetermined disturbance;
a moving mechanism for moving the umbrella part using the rail;
an imaging unit for imaging the moving object;
a communication unit that receives the activation information from the communication device;
a control unit;
Equipped with
The control unit includes:
Extracting means for extracting the position information included in the activation information received by the communication unit;
means for moving the defense device, by the movement mechanism, to the defense start position corresponding to the position information extracted by the extraction means;
means for storing captured image information obtained by imaging the moving object by the imaging unit at the defense starting position as stored image information of the moving object;
By controlling the moving mechanism to follow the movement of the moving object based on stored image information of the moving object and captured image information of the moving object captured by the imaging unit, a follow-up moving means that controls the moving object to be protected from the predetermined disturbance by an umbrella part;
A defense device comprising: The defense device according to claim 16, wherein the defense device waits at a predetermined base. The control unit includes:
18. The moving object is controlled to return to the base when it is detected based on the captured image of the imaging unit that the moving object enters an area where the disturbance does not reach. protection device. The control unit includes:
If it is detected that the moving object enters an area where the disturbance does not reach, based on the captured image of the imaging unit, control is performed to end the following movement of the moving object. The defense device according to any one of claims 16 to 18. The control unit includes:
If it is detected that the moving object has entered an area where the disturbance does not reach, based on the captured image of the imaging unit, the stored image information and/or the position information of the moving object is erased. The defense device according to any one of claims 16 to 19, characterized by: comprising one or more disturbance detection sensors for detecting disturbance;
The control unit includes:
If it is detected that the presence of the disturbance does not exist for a predetermined period of time or more based on the detection output of the one or more disturbance detection sensors, control is performed to end the following movement of the moving object. The defense device according to any one of claims 16 to 20. The disturbance detection sensor is
Rain sensors that use rain, snow, hail, sleet, and hail as disturbances, optical sensors that use sunlight as disturbances, ultraviolet sensors that use ultraviolet rays as disturbances, dust sensors that use dust and dust as disturbances, smoke sensors that use smoke as disturbances, The protection device according to claim 21, wherein the protection device is a gas sensor using exhaust gas as a disturbance, a particle sensor for volcanic ash using volcanic ash as a disturbance, and/or a pollen sensor using pollen as a disturbance. Position and orientation control means for controlling the position and/or attitude of the umbrella section above the moving object according to the amount, strength, and/or direction of the disturbance reaching the moving object. The defense device according to any one of claims 16 to 22, characterized by: A rail suspended in the air, a protection device attached to the rail to protect a moving object from a predetermined disturbance, a sensor device that detects when the moving object has arrived at a defense starting position, and the protection device. a communication device that transmits activation information to the communication device, the sensor device transmits a detection signal to the communication device when detecting that the moving object has arrived at the defense start position, and the communication device , when the detection signal is received from the sensor device, the position information of the defense start position is acquired based on the detection signal, and the activation information including the acquired position information of the defense start position is The defense device in the defense system transmits information to the defense device, including an umbrella section for protecting the moving object from the predetermined disturbance, and an umbrella section for moving the umbrella section using the rail. A computer included in a defense device including a moving mechanism, an imaging unit for capturing an image of the moving object, and a communication unit that receives the activation information from the communication device,
Extracting means for extracting the position information included in the activation information received by the communication unit;
means for moving the defense device, by the movement mechanism, to the defense start position corresponding to the position information extracted by the extraction means;
means for storing captured image information obtained by imaging the moving object by the imaging unit at the defense starting position as stored image information of the moving object;
By controlling the moving mechanism to follow the movement of the moving object based on stored image information of the moving object and captured image information of the moving object captured by the imaging unit, a follow-up moving means that controls the moving object to be protected from the predetermined disturbance by an umbrella portion;
A defense device program to function as a.
A rail suspended in the air, a protection device attached to the rail to protect a moving object from a predetermined disturbance, and the protection device is provided separately and the protection device follows the moving object. A drive control device for moving the object using the rails, a sensor device for detecting that the object to be moved has arrived at a defense starting position, and a communication device for transmitting activation information to the drive control device. A defense system comprising: the sensor device transmits a detection signal to the communication device when detecting that the moving object has arrived at the defense start position, and the communication device transmits a detection signal from the sensor device to the communication device. When the detection signal is received, the position information of the defense start position is acquired based on the detection signal, and the activation information including the acquired position information of the defense start position is transmitted to the drive control device. The protection device includes an umbrella section for protecting the moving object from the predetermined disturbance, a moving mechanism for moving the umbrella section using the rail, and an umbrella section for protecting the moving object from the predetermined disturbance. The drive control device in a defense system comprising: an imaging unit for capturing an image;
a communication unit that receives the activation information from the communication device;
Extracting means for extracting the position information included in the activation information received by the communication unit;
means for moving the defense device, by the movement mechanism, to the defense start position corresponding to the position information extracted by the extraction means;
means for storing captured image information obtained by imaging the moving object by the imaging unit at the defense starting position as stored image information of the moving object;
By controlling the moving mechanism to follow the movement of the moving object based on stored image information of the moving object and captured image information of the moving object captured by the imaging unit, a follow-up moving means that controls the moving object to be protected from the predetermined disturbance by an umbrella part;
A drive control device for a defense device, comprising: When it is detected that the moving object has entered a region where the disturbance does not reach, based on the captured image of the imaging unit, control is performed to terminate the following movement of the moving object by the protection device. The drive control device for a defense device according to claim 25. The defense device is on standby at a predetermined base,
A claim characterized in that, when it is detected that the moving object has entered an area where the disturbance does not reach, based on the captured image of the imaging unit, the defense device is controlled to return to the base. A drive control device for a defense device according to claim 25 or 26. If it is detected that the moving object has entered an area where the disturbance does not reach, based on the captured image of the imaging unit, the stored image information and/or the position information of the moving object is erased. The drive control device for a defense device according to any one of claims 25 to 27, characterized in that: comprising one or more disturbance detection sensors for detecting disturbance;
When it is detected that the presence of the disturbance is not present for a predetermined period of time or more based on the detection output of the one or more disturbance detection sensors, the protection device is controlled to terminate the tracking movement of the moving object. The drive control device for a defense device according to any one of claims 25 to 28. comprising one or more disturbance detection sensors for detecting disturbance;
A claim characterized in that, when it is detected that the presence of the disturbance does not exist for a predetermined period of time or more based on the detection output of the one or more disturbance detection sensors, the defense device is controlled to return to the base. 28. A drive control device for a defense device according to item 27. comprising one or more disturbance detection sensors for detecting disturbance;
If it is detected based on the detection output of the one or more disturbance detection sensors that the presence of the disturbance is not present for a predetermined period of time or more, the stored image information and/or the position information of the moving object are erased. The drive control device for a defense device according to any one of claims 25 to 30, characterized in that: 32. The protection apparatus according to claim 25, wherein the protection device is moved by the moving mechanism using a rope so as to protect the moving object from the predetermined disturbance. Drive control device for defense equipment. A rail suspended in the air, a protection device attached to the rail to protect a moving object from a predetermined disturbance, and the protection device is provided separately and the protection device follows the moving object. A drive control device for moving the object using the rails, a sensor device for detecting that the object to be moved has arrived at a defense starting position, and a communication device for transmitting activation information to the drive control device. A defense system comprising: the sensor device transmits a detection signal to the communication device when detecting that the moving object has arrived at the defense start position, and the communication device transmits a detection signal from the sensor device to the communication device. When the detection signal is received, the position information of the defense start position is acquired based on the detection signal, and the activation information including the acquired position information of the defense start position is transmitted to the drive control device. The protection device includes an umbrella section for protecting the moving object from the predetermined disturbance, a moving mechanism for moving the umbrella section using the rail, and an umbrella section for protecting the moving object from the predetermined disturbance. The drive control device in a defense system includes an imaging unit for capturing an image of the drive control device, and the drive control device includes a communication unit that receives the activation information from the communication device,
Extracting means for extracting the position information included in the activation information received by the communication unit;
means for moving the defense device, by the movement mechanism, to the defense start position corresponding to the position information extracted by the extraction means;
means for storing captured image information obtained by imaging the moving object by the imaging unit at the defense starting position as stored image information of the moving object;
By controlling the moving mechanism to follow the movement of the moving object based on stored image information of the moving object and captured image information of the moving object captured by the imaging unit, a follow-up moving means that controls the moving object to be protected from the predetermined disturbance by an umbrella portion;
A program for the drive control device of the defense device to function as a protection device.

Images