JP6963640B2 - Presentation system, presentation method, and program - Google Patents

Description

The present invention relates to presentation systems, presentation methods, and programs.

Conventionally, in a golf course, a caddy who is familiar with the golf course accompanies the user who makes a round and supports the user's play on the golf course. In recent years, self-play that rounds without a caddy has become common. Therefore, in recent golf courses, the introduction of devices and the like for supporting users who make rounds is progressing.

For example, Patent Document 1 discloses an invention of a golf support device capable of providing useful information to a user who plays golf.
In the invention of Patent Document 1, an image as shown in FIG. 10 is displayed on the screen of a golf support device carried by a user to support a user who makes a round. That is, the layout of the plane from the user's current position to the green on the golf course is displayed, and the distance from the current position to the cup is displayed.

Japanese Unexamined Patent Publication No. 2018-011992

In the invention of Patent Document 1 described above, the layout from the current position to the green on the golf course is only displayed in a plan view. Therefore, for many users, except for users who frequently use the golf course, although it can be used as a guide to some extent, it has not been possible to concretely imagine an actual golf course.

Therefore, for example, it is conceivable to take a picture of a standard movement route from the tee ground to the green on a golf course using a drone or the like, and present an image of the movement route to a user during the round.
However, after the tee shot, since the user has advanced to a certain extent in the golf course, even if the image of the movement route is distributed from the beginning, an unnecessary image is presented halfway. In addition, the current position of the user who makes a round may deviate significantly from the standard movement path taken due to the shot being disturbed or the like.
Therefore, there has been a demand for a technique capable of presenting an appropriate image even when the current position of the user who rounds the golf course deviates from the movement path.

The present invention has been made in view of the above circumstances, and is a presentation system, a presentation method, and a program capable of presenting an appropriate image that allows a user who rounds a golf course to imagine a route from the current position to the green. The purpose is to provide.

The presentation system according to the first aspect of the present invention is
It is a presentation system in which the distribution server and the user terminal are connected so that they can communicate with each other.
The distribution server
A storage unit that stores video data taken along the movement route from the tee ground to the green on the golf course,
A receiving unit that receives position information indicating the current position sent from the user terminal, and
According to the received position information, a frame at a point closest to the current position on the movement path, or a frame at a point on the movement path that is separated from the green by the distance between the current position and the green. With the specific part specified from the video data,
A distribution unit that distributes the moving image data from the specified frame when distributing the video data to the user terminal is provided.
The user terminal is transported and moves on the golf course.
A transmission unit that transmits the position information indicating the current position on the golf course to the distribution server, and
A playback unit that reproduces a video according to the moving image data distributed from the distribution server is provided.
It is characterized by that.

In addition, in the presentation system related to the above viewpoint,
The storage unit stores wide-angle moving image data taken with a predetermined wide-angle lens along the movement path, and stores the wide-angle moving image data.
A generator that generates moving image data along a path different from the moving path by extracting partial data according to the position information from the wide-angle moving image data is further provided.
The specific unit may specify the frame from the generated moving image data.

In addition, in the presentation system related to the above viewpoint,
The generation unit estimates an alternative movement route from the current position to the green based on the shape of the movement route, and extracts partial data according to the alternative movement route from the wide-angle moving image data to obtain a moving image. Data may be generated.

In addition, in the presentation system related to the above viewpoint,
The transmission unit transmits the direction information indicating the direction of the user terminal together with the position information to the distribution server.
The receiving unit receives the current position and the orientation information sent from the user terminal, and receives the information.
The generation unit may generate moving image data along a route different from the moving route by extracting partial data according to the orientation information together with the position information from the wide-angle moving image data.

In addition, in the presentation system related to the above viewpoint,
The storage unit stores a plurality of moving image data captured along a plurality of movement paths from the tee ground to the green.
A selection unit for selecting the movement route closest to the current position according to the position information among the plurality of movement routes is further provided.
The specific unit may specify the frame from the moving image data of the selected movement route.

In addition, in the presentation system related to the above viewpoint,
The storage unit stores a plurality of wide-angle moving image data captured along the plurality of movement paths from the tee ground to the green.
A selection unit for selecting the movement route closest to the current position according to the position information among the plurality of movement routes is further provided.
The generation unit may generate moving image data along a route different from the selected moving path from the wide-angle moving image data of the selected moving path.

In addition, in the presentation system related to the above viewpoint,
The user terminal further includes a detection unit that detects the walking state of the user carrying the user terminal.
The transmission unit may transmit at least the position information to the distribution server according to the detected walking state to request distribution of the moving image data.

The presentation method according to the second aspect of the present invention is
It is a presentation method on a distribution server that stores video data taken along the movement route from the tee ground to the green on a golf course and distributes the video to the user terminal.
A reception step in which the distribution server receives position information indicating the current position sent from the user terminal, and
According to the received position information, the distribution server receives a frame from the point closest to the current position on the movement path, or from the green by the distance between the current position and the green on the movement path. A specific step to identify the frame of the descent point from the video data, and
When the distribution server distributes the video data to the user terminal, the distribution step of distributing from the specified frame and the distribution step.
It is characterized by having.

The program according to the third aspect of the present invention
A computer that stores video data taken along the movement route from the tee ground to the green on a golf course and distributes the video to the user terminal.
A receiver that receives position information indicating the current position sent from the user terminal,
According to the received position information, a frame at a point closest to the current position on the movement path, or a frame at a point on the movement path that is separated from the green by the distance between the current position and the green. Is specified from the moving image data,
A distribution unit that distributes the moving image data from the specified frame when distributing the video data to the user terminal.
It is characterized by functioning as.

The above program can be distributed and sold via a computer communication network independently of the computer on which the program is executed.
Further, the information recording medium for recording the above program is a non-transitory recording medium, and can be distributed and sold independently of the computer. Here, the non-temporary recording medium means a tangible recording medium. The non-temporary recording medium is, for example, a compact disk, a flexible disk, a hard disk, a magneto-optical disk, a digital video disk, a magnetic tape, a semiconductor memory, or the like. Further, the transient recording medium refers to the transmission medium (propagation signal) itself. The temporary recording medium is, for example, an electric signal, an optical signal, an electromagnetic wave, or the like. The temporary storage area is an area for temporarily storing data or a program, and is, for example, a volatile memory such as a RAM (Random Access Memory).

According to the present invention, a user who rounds a golf course can present an appropriate image that can image the route from the current position to the green.

It is a block diagram which shows an example of the whole structure of the presentation system which concerns on this embodiment. It is a block diagram which shows an example of the outline structure of the typical information processing apparatus which realizes the distribution server and the like which concerns on this Embodiment. It is a block diagram which shows an example of the functional structure of the distribution server which concerns on Embodiment 1. FIG. It is a schematic diagram for demonstrating the movement path in a golf course. It is a schematic diagram which shows an example of moving image data. Both (a) and (b) are schematic diagrams for explaining points on the movement path according to the current position. It is a block diagram which shows an example of the functional structure of the user terminal which concerns on this embodiment. It is a schematic diagram which shows an example of the image which is displayed on the display part of a user terminal. It is a flowchart for demonstrating the presentation process which concerns on Embodiment 1. It is a schematic diagram for demonstrating a plurality of movement routes in a golf course. It is a block diagram which shows an example of the functional structure of the distribution server which concerns on Embodiment 2. It is a schematic diagram which shows an example of the wide-angle moving image data photographed by using a wide-angle lens. Both (a) and (b) are schematic diagrams for explaining an alternative movement route. It is a flowchart for demonstrating the presentation process which concerns on Embodiment 2.

An embodiment of the present invention will be described below. In the embodiment of the present invention, a presentation system for presenting an image from the user's current position to the cup (green) to a user (user terminal) who rounds a golf course at a golf course will be described. Not limited to golf courses, as will be described later, the same applies to, for example, a presentation system that presents an image from the user's current position to the destination to a user who moves to the destination in the city or the like. be.
The following embodiments are for illustration purposes only and do not limit the scope of the present invention. Therefore, those skilled in the art can adopt embodiments in which each or all of these elements are replaced with equivalent ones, but these embodiments are also included in the scope of the present invention.

(overall structure)
The presentation system 100 according to the embodiment of the present invention is, for example, a system that presents a useful image to a user who rounds a golf course, and includes a distribution server 200 and a user terminal 300 as shown in FIG. It is composed. The distribution server 200 and the user terminal 300 are connected to each other so as to be able to communicate with each other via the Internet 900.
Although only three user terminals 300 are shown in FIG. 1, this is for facilitating the understanding of the invention, and in reality, a large number of user terminals are used according to the number of users who round each golf course. It is assumed that 300 is included.

The distribution server 200 is, for example, a server device (server computer), and stores in advance moving image data taken aerial by a plurality of movement routes on a golf course. The distribution server 200 selects video data according to the position information sent from the user terminal 300, and when delivering the selected video data to the user terminal 300, distributes the selected video data from a frame corresponding to the current position indicated in the position information. ..

The user terminal 300 is, for example, a smartphone, which is carried by a user who rounds the golf course and moves together with the user in the golf course.
For example, the user terminal 300 is operated by a user who wants to know the specific aspect of the golf course from the user's current position to the cup (green) before the golf ball is shot, and is accompanied by position information indicating the current position. By accessing the distribution server 200, a video obtained by reproducing the moving image data distributed from the distribution server 200 is presented to the user.
The user terminal 300 may be carried by a caddy, for example, or may be installed in a golf cart. That is, the user terminal 300 is transported and moves on the golf course, and it is sufficient that the user can view the video of the moving image data distributed from the distribution server 200.

(Outline configuration of information processing device)
A typical information processing device 400 in which the distribution server 200 and the user terminal 300 according to the present embodiment are realized will be described.

As shown in FIG. 2, the information processing device 400 includes a CPU (Central Processing Unit) 401, a ROM (Read Only Memory) 402, a RAM (Random Access Memory) 403, a NIC (Network Interface Card) 404, and an image. It includes a processing unit 405, a voice processing unit 406, an auxiliary storage unit 407, an interface 408, an operation unit 409, a display unit 410, and a positioning unit 411.

The CPU 401 controls the operation of the entire information processing device 400, is connected to each component, and exchanges control signals and data.

The IPL (Initial Program Loader) executed immediately after the power is turned on is recorded in the ROM 402, and when this is executed, the program stored in the auxiliary storage unit 407 is read into the RAM 403 and the CPU 401 of the program is executed. Execution starts.

The RAM 403 is for temporarily storing data and programs, and holds programs and data read from the auxiliary storage unit 407, and other data necessary for communication.

The NIC 404 is for connecting the information processing device 400 to a computer communication network such as the Internet, and conforms to the 10BASE-T / 100BASE-T standard used when constructing a LAN (Local Area Network), or Consists of an analog modem for connecting to the Internet using a telephone line, an ISDN (Integrated Services Digital Network) modem, an ADSL (Asymmetric Digital Subscriber Line) modem, a cable modem for connecting to the Internet using a cable television line, etc. Will be done.

The image processing unit 405 processes the image data read from the auxiliary storage unit 407 or the like by an image calculation processor (not shown) included in the CPU 401 or the image processing unit 405, and then the image processing unit 405 includes the image data. Record in frame memory (not shown). The image information recorded in the frame memory is converted into a video signal at a predetermined synchronization timing and output to the display unit 410 via the interface 408 or the like. That is, the image processing unit 405 generates an image necessary for the progress of the processing performed by the information processing device 400 under the control of the CPU 401, and displays the image on the display unit 410.

The voice processing unit 406 converts the voice data read from the auxiliary storage unit 407 and the like into a voice signal, and outputs the voice data to the speaker via the interface 408. That is, the voice processing unit 406 generates voice to be generated in the progress of the processing performed by the information processing device 400 under the control of the CPU 401, and outputs the voice from the speaker.

The auxiliary storage unit 407 is a hard disk or the like, and stores various programs and various data necessary for operating control of the entire information processing apparatus 400. For example, the auxiliary storage unit 407 stores a program for realizing the distribution server 200 or the like according to the present embodiment. Then, under the control of the CPU 401, the auxiliary storage unit 407 appropriately reads out the stored programs and data, and temporarily stores them in the RAM 403 or the like.

An operation unit 409, a display unit 410, and a positioning unit 411 are connected to the interface 408. The interface 408 may send and receive necessary information to and from other connected external devices.

The operation unit 409 receives an operation input of a worker or the like who uses the information processing device 400.

The display unit 410 draws an image corresponding to the image data output by the image processing unit 405 and presents it to an operator or the like who uses the information processing device 400.

The positioning unit 411 receives, for example, signals sent from a plurality of GPS (Global Positioning System) satellites, and positions the current position of the information processing device 400 at predetermined timing intervals.
Instead of using such GPS satellites, the positioning unit 411 may position the current position of the information processing device 400 by using the radio wave strength (reception strength, etc.) from a plurality of base stations.
Further, the positioning unit 411 may have an electronic compass function and a walking detection function. For example, the positioning unit 411 includes a geomagnetic sensor, an acceleration sensor, a gyro sensor, and the like. Then, the positioning unit 411 measures the orientation of the information processing device 400 and detects whether or not the user carrying the information processing device 400 is in a walking state.

In addition to this, the information processing device 400 may include a drive unit such as a DVD (Digital Versatile Disc) -ROM instead of the auxiliary storage unit 407. In this case, the information processing device 400 reads a program or data from a DVD-ROM or the like mounted on the drive unit, and operates in the same manner as described above.

First, the functional configuration of the distribution server 200 realized by the information processing apparatus 400 will be described with reference to FIGS. 3 to 6. When the power is turned on to the information processing apparatus 400, a program that functions as the distribution server 200 is executed, and the distribution server 200 according to the present embodiment (first embodiment) is realized.

(Functional configuration of distribution server)
FIG. 3 is a block diagram showing an example of the functional configuration of the distribution server 200 according to the first embodiment. As shown in the figure, the distribution server 200 includes a storage unit 210, a reception unit 220, a transmission unit 230, and a control unit 240.

The storage unit 210 stores moving image data corresponding to each golf course.
For example, as shown in FIG. 4, in the golf course GC, moving image data along a standard movement path PS from the tee ground TG to the green GR is captured in advance, and this moving image data is stored in the storage unit 210. ing. Specifically, moving image data of a golf course GC taken from the movement path PS by flying a GPS receiver and an unmanned aerial vehicle (drone) equipped with a camera along the movement path PS at a predetermined altitude. Is acquired and stored in the storage unit 210. From the unmanned aerial vehicle, along with the moving image data, the position data at which the image was taken (as an example, the latitude / longitude data in which the altitude is omitted) is also acquired.
Therefore, the storage unit 210 stores the moving image data MD composed of a plurality of frame FMs as shown in FIG. 5 corresponding to the movement path PS of the golf course GC. Then, each frame FM shown in FIG. 5 is associated with a shooting position FP (that is, a position on the movement path PS).

The auxiliary storage unit 407 and the like described above can function as such a storage unit 210.

Returning to FIG. 3, the receiving unit 220 receives various information sent from the user terminal 300.
For example, the receiving unit 220 receives the position information (position information indicating the current position of the user terminal 300) sent from the user terminal 300.

The NIC 404 or the like described above can function as such a receiving unit 220.

The transmission unit 230 transmits various information to the user terminal 300.
For example, the transmission unit 230 transmits the moving image data distributed from the control unit 240 (distribution unit 242) to the user terminal 300, as will be described later.

The NIC 404 or the like described above can function as such a transmission unit 230.

The control unit 240 controls the entire distribution server 200. The control unit 240 includes a specific unit 241 and a distribution unit 242.

The identification unit 241 first identifies the video data of the golf course that the user is rounding according to the position information received by the reception unit 220, and then the frame at the point closest to the current position on the movement path, or , The frame of the point that is off the green by the distance between the current position and the green on the movement route is specified from the video data.
For example, as shown in FIG. 6A, the identification unit 241 identifies a frame shot at the point P1 closest to the current position CP on the movement path PS from the moving image data.
Further, as shown in FIG. 6B, the specific unit 241 moves a moving image of a frame shot at a point P2 that is traced back from the green by the distance L between the current position CP and the green GR on the movement path PS. Identify from the data.

Returning to FIG. 3, the distribution unit 242 distributes the moving image data to the user terminal 300 through the transmission unit 230. At that time, the distribution unit 242 distributes the moving image data from the frame specified by the specific unit 241 described above.
That is, the distribution unit 242 distributes the moving image data from the frame specified by the specific unit 241 so that the video is reproduced from the position corresponding to the current position of the user terminal 300.

The CPU 401 and the like described above can function as a control unit 240 having such a configuration.

Next, the functional configuration of the user terminal 300 realized by the information processing apparatus 400 described above will be described with reference to FIGS. 7 and 8. When the power is turned on to the information processing device 400, a program for functioning as the user terminal 300 is executed, and the user terminal 300 according to the present embodiment is realized.

(Functional configuration of user terminal)
FIG. 7 is a block diagram showing an example of the functional configuration of the user terminal 300 according to the present embodiment. As shown in the figure, the user terminal 300 includes a positioning unit 310, an operation unit 320, a transmission / reception unit 330, a control unit 340, and a display unit 350.

The positioning unit 310 positions the current position of the user terminal 300 at predetermined timing intervals. The positioning unit 310 supplies the position information indicating the current position of positioning to the control unit 340.
The positioning unit 310 may have an electronic compass function and a walking detection function. For example, the positioning unit 310 measures the direction of the user (for example, the back direction of the user terminal 300) and detects whether or not the user is in a walking state.
Then, the positioning unit 411 described above can function as such a positioning unit 310.

The operation unit 320 receives various operations from the user.
For example, the operation unit 320 accepts an operation for requesting the distribution server 200 to distribute the moving image data on the golf course. That is, before the golf ball is shot, the operation unit 320 is operated by a user who wants to know the specific aspect of the golf course from the shot position to the cup (green).
The operation unit 409 described above can function as such an operation unit 320.

The transmission / reception unit 330 transmits / receives various information to / from the distribution server 200.
For example, the transmission / reception unit 330 is controlled by the control unit 340, and transmits the position information indicating the current position positioned by the positioning unit 310 described above to the distribution server 200.
In addition, the transmission / reception unit 330 receives the moving image data distributed from the distribution server 200.
The NIC 404 described above can function as such a transmission / reception unit 330.

The control unit 340 controls the entire user terminal 300. The control unit 340 includes a reproduction unit 341.

The reproduction unit 341 reproduces a video according to the moving image data distributed from the distribution server 200.
For example, the reproduction unit 341 reproduces the video by streaming the distributed moving image data.
Further, the reproduction unit 341 may reproduce the video by downloading and reproducing the distributed moving image data.

The CPU 401 and the like described above can function as a control unit 340 having such a configuration.

The display unit 350 displays the image reproduced by the reproduction unit 341.
For example, the display unit 350 displays the video MV up to the green GR as shown in FIG.
The display unit 410 described above can function as such a display unit 350.

(Operation of distribution server)
Hereinafter, in the presentation system 100 having such a configuration, the most characteristic operation of the distribution server 200 will be described with reference to FIG. FIG. 9 is a flowchart showing the flow of the presentation process executed by the distribution server 200. This presentation process is started, for example, when the user performs an operation requesting distribution of moving image data in the user terminal 300.

First, the distribution server 200 receives the location information sent from the user terminal 300 (step S11).
That is, the receiving unit 220 receives the position information indicating the current position of the user terminal 300 sent from the user terminal 300 via the Internet 900.

The distribution server 200 identifies a frame corresponding to the position information from the moving image data (step S12). That is, the distribution server 200 specifies the video data of the golf course rounded by the user according to the position information, and then specifies the frame to start distribution in the video data.
That is, the control unit 240 (specific unit 241) sets the frame of the point closest to the current position on the movement path, or the current position and the green on the movement path, according to the position information received in step S11. The frame of the point that goes back from the green by the distance is specified from the video data.
For example, as shown in FIG. 6A described above, the control unit 240 sets the frame captured at the point P1 closest to the current position CP on the movement path PS, or in FIG. 6B described above. As shown, the frame shot at the point P2 that is behind the green by the distance L between the current position CP and the green GR on the movement path PS is specified from the moving image data.

The distribution server 200 distributes the video data starting from the specified frame to the user terminal 300 (step S13).
That is, the control unit 240 (distribution unit 242) distributes the moving image data from the frame specified in step S12 above. That is, when the moving image data is distributed to the user terminal 300 through the transmitting unit 230, the control unit 240 distributes the moving image data from the specified frame.

By such presentation processing, when the moving image data is distributed to the user terminal 300, it is distributed from the frame taken at the point corresponding to the current position of the user terminal 300. Then, the user terminal 300 reproduces the image of the golf course from the current position to the green based on the distributed moving image data.
That is, the image MV as shown in FIG. 8 is displayed on the display unit 350 of the user terminal 300. For example, even a user who uses the golf course for the first time can display the green GR from the current position. It becomes possible to grasp the route to reach more concretely.

As a result, the user who rounds the golf course can present an appropriate image that can image the route from the current position to the green.

(Modified example of the first embodiment)
In the first embodiment described above, a case where moving image data taken along one (one way) movement path PS as shown in FIG. 4 is stored in the storage unit 210 for the golf course will be described. However, each moving image data taken along the plurality of movement paths may be stored in the storage unit 210.
For example, as shown in FIG. 10, in the golf course GC, similar moving image data captured along a plurality of movement paths PS1 to PS4 from the tee ground TG to the green GR are stored in the storage unit 210. You may.
In that case, the distribution server 200 shown in FIG. 3 described above further includes a selection unit for selecting the movement route closest to the current position among the plurality of movement routes in the configuration of the control unit 240.
That is, the selection unit selects the movement route closest to the current position according to the position information sent from the user terminal 300 among the movement routes PS1 to PS4 as shown in FIG.
Then, the specifying unit 241 specifies the frame from the moving image data of the movement route selected by the selection unit in the same manner as described above. Then, similarly to the above, the distribution unit 242 distributes the moving image data from the frame specified by the specific unit 241.

In this case as well, the user who rounds the golf course can present an appropriate image that can image the route from the current position to the green.

(Second Embodiment)
In the above embodiment (first embodiment and its modification), a case where the distribution unit 242 distributes the stored moving image data from the frame specified by the specific unit 241 to the user terminal 300 will be described. However, the golf ball shot by the user may fly to a position more than a certain distance from the movement path on the golf course. As a result, the moving image data may be delivered in a state where the current position of the user to be rounded is largely deviated from the movement path. In that case, even if the distributed video data is played back on the user terminal 300, the image away from the current position is displayed on the display unit 350, and the user grasps the route from the current position to the green. It is possible that it is not enough.
Therefore, wide-angle moving image data (video data having a certain width along the moving path) taken by using a wide-angle lens along the moving path is stored in the storage unit 210 of the distribution server 200, and the wide-angle image is stored. Based on the moving image data, the moving image data according to the current position of the user terminal 300 may be generated, and the generated moving image data may be distributed to the user terminal 300.
Hereinafter, the distribution server 200 according to the second embodiment, which is characterized in that the moving image data according to the current position is generated based on the wide-angle moving image data and distributed to the user terminal 300, will be described.

FIG. 11 is a block diagram showing an example of the functional configuration of the distribution server 200 according to the second embodiment. As shown in the figure, the distribution server 200 includes a storage unit 250, a reception unit 220, a transmission unit 230, and a control unit 260.
The receiving unit 220 and the transmitting unit 230 have the same configuration as the receiving unit 220 and the transmitting unit 230 shown in FIG. 3 described above.

The storage unit 250 stores wide-angle moving image data taken with a wide-angle lens according to each golf course.
For example, an unmanned aerial vehicle equipped with a GPS receiver and a camera equipped with a wide-angle lens is flown along the movement path PS along the movement path PS on the golf course GC in the same manner as in FIG. 4 described above. Each wide-angle moving image data is acquired and stored in the storage unit 250. In addition, from the unmanned aerial vehicle, the position where the shooting was performed is also acquired along with the wide-angle moving image data as described above.
Therefore, the storage unit 250 stores wide-angle moving image data WMD composed of a plurality of frame FMs as shown in FIG. 12 corresponding to the movement path PS of the golf course GC. A shooting position FP is associated with each frame FM shown in FIG.
The wide-angle moving image data may be panoramic shot using a 360-degree camera capable of omnidirectional shooting. At that time, the wide-angle moving image data includes not only position data but also orientation data.

The auxiliary storage unit 407 and the like described above can function as such a storage unit 250.

Returning to FIG. 11, the control unit 260 controls the entire distribution server 200. The control unit 260 includes a generation unit 261 and a distribution unit 242.
The distribution unit 242 has the same configuration as the distribution unit 242 shown in FIG. 3 described above.

The generation unit 261 identifies the wide-angle video data of the golf course that the user is rounding according to the position information received by the reception unit 220, and extracts partial data according to the position information from the wide-angle video data. , Generate video data according to the current position.
For example, as shown in FIG. 13A, when the golf ball shot by the user deviates significantly from the movement path PS and is caught by the bunker BK, the user moves from the current position CP in the bunker BK toward the green GR. You will shoot a golf ball.
In that case, the generation unit 261 generates the moving image data from the current position CP to the green GR based on the wide-angle moving image data.
Specifically, the generation unit 261 first estimates the alternative movement route EPS from the current position CP to the green GR. Note that FIG. 13A shows a case where the estimated alternative movement path EPS is a straight line, but this is just an example, and the alternative movement path EPS having a shape other than the straight line may be estimated.
For example, as shown in FIG. 13B, when the golf ball shot by the user deviates significantly from the movement path PS and deviates toward the pond PD, the user moves from the current position CP in front of the pond PD. The golf ball will be shot toward the green GR.
In that case, the generation unit 261 may estimate the alternative movement path EPS that approximates the shape of the movement path PS as shown in FIG. 13 (b).

When the alternative movement route EPS is estimated in this way, the generation unit 261 generates moving image data along the alternative movement route EPS based on the wide-angle moving image data.
For example, the generation unit 261 extracts partial data corresponding to each position of the alternative movement path EPS from each frame FM of the wide-angle moving image data as shown in FIG. 12 described above, from the current position CP to the green GR. (That is, the moving image data along the alternative movement route EPS) is generated. When extracting partial data from wide-angle moving image data, the generation unit 261 performs image processing such as adjusting the aspect ratio and correcting distortion due to the wide-angle lens by affine transformation or the like to make the moving image data more natural. May be generated.

In addition, the distribution unit 242 distributes the moving image data generated by the generation unit 261 to the user terminal 300.

The CPU 401 and the like described above can function as a control unit 260 having such a configuration.

(Operation of distribution server)
Hereinafter, the operation of the distribution server 200 having such a configuration will be described with reference to FIG. FIG. 14 is a flowchart showing the flow of the presentation process according to the second embodiment executed by the distribution server 200. This presentation process is started, for example, when the user performs an operation requesting distribution of moving image data in the user terminal 300.

First, the distribution server 200 receives the location information sent from the user terminal 300 (step S21).
That is, the receiving unit 220 receives the position information indicating the current position of the user terminal 300 sent from the user terminal 300 via the Internet 900.

The distribution server 200 generates video data from the current position to the green (step S22). That is, the distribution server 200 identifies the wide-angle video data of the golf course that the user is rounding according to the position information, and then generates the video data from the current position to the green based on the wide-angle video data. do.
That is, the control unit 260 (generation unit 261) estimates an alternative movement route from the current position to the green, and extracts partial data according to the alternative movement route from the wide-angle video data to move from the current position to the green. Generate video data of.
Specifically, the control unit 260 estimates the alternative movement route EPS from the current position CP to the green GR, as shown in FIGS. 13 (a) and 13 (b) described above. Then, the control unit 260 extracts partial data corresponding to each position of the alternative movement path EPS from each frame FM of the wide-angle moving image data as shown in FIG. 12 described above, from the current position CP to the green GR. Generate video data of. When extracting partial data from wide-angle moving image data, the control unit 260 performs image processing such as adjusting the aspect ratio and correcting distortion due to the wide-angle lens by affine transformation or the like to make the moving image data more natural. May be generated.

The distribution server 200 distributes the generated moving image data to the user terminal 300 (step S23).
That is, the control unit 260 (distribution unit 242) distributes the moving image data generated in step S22 to the user terminal 300.

By such presentation processing, moving image data from the current position to the green is generated based on the wide-angle moving image data, and the generated moving image data is distributed to the user terminal 300. Then, the user terminal 300 reproduces the image of the golf course from the current position to the green based on the distributed moving image data.

As a result, the user who rounds the golf course can present an appropriate image that can image the route from the current position to the green.

(Modified example of the second embodiment)
In the second embodiment described above, the storage unit 250 stores wide-angle moving image data taken along one (one way) movement path PS as shown in FIG. 4 for the golf course. However, wide-angle moving image data taken along a plurality of movement paths may be stored in the storage unit 250.
For example, as shown in FIG. 10 described above, in the golf course GC, similar wide-angle moving image data captured along a plurality of movement paths PS1 to PS4 from the tee ground TG to the green GR are stored in the storage unit 250. It may be remembered.
In that case, the distribution server 200 shown in FIG. 11 described above further includes a selection unit for selecting the movement route closest to the current position among the plurality of movement routes in the configuration of the control unit 260.
That is, the selection unit selects the movement route closest to the current position according to the position information sent from the user terminal 300 among the movement routes PS1 to PS4 as shown in FIG.
Then, the generation unit 261 generates the moving image data from the current position to the green in the same manner as described above based on the wide-angle moving image data of the movement route selected by the selection unit. Then, in the same manner as described above, the distribution unit 242 distributes the generated moving image data to the user terminal 300.

In this case as well, the user who rounds the golf course can present an appropriate image that can image the route from the current position to the green.

Further, in the second embodiment described above, the case where the moving image data up to the green is generated by using only the current position has been described, but the moving image data according to the direction of the user may be generated.
For example, when the user is at the current position CP in front of the pond PD as shown in FIG. 13 (b) described above, the moving image data (wide-angle moving image data) along the movement path PS4 is shown as shown in FIG. 10 described above. If it is also shot, it is possible to present to the user video data that jumps over the pond PD and goes straight to the green GR, and video data that goes along the fairway (bypassing the pond PD) to the green GR. It becomes. Therefore, the distribution server 200 generates moving image data according to the orientation of the user.
Specifically, in the user terminal 300, the positioning unit 310 has the above-mentioned electronic compass function, and measures orientation information indicating the orientation of the user (for example, the back orientation of the user terminal 300). Then, the user terminal 300 transmits the direction information together with the position information to the distribution server 200.
On the other hand, in the distribution server 200, the generation unit 261 extracts the partial data according to the orientation information together with the position information from the wide-angle moving image data to generate the moving image data according to the direction of the user. For example, in the current position CP of FIG. 13B described above, when the user is facing the direction of the green GR (when the user is facing the back surface of the user terminal 300 toward the green GR), the generation unit 261 Generates moving image data that jumps over the pond PD and travels in a straight line to the green GR based on the direction information. Further, when the user is facing the direction along the fairway (when the user is facing the back surface of the user terminal 300 in the direction along the fairway), the generation unit 261 is based on the orientation information of the pond. Generates moving image data that bypasses PD and progresses to Green GR. Then, the distribution server 200 distributes the moving image data generated in this way to the user terminal 300.
In this case, an appropriate image can be presented according to the orientation of the user.

In addition to this, when wide-angle moving image data taken panoramicly by using a 360-degree camera capable of omnidirectional shooting is used, moving image data suitable for the user's orientation may be generated.
For example, normally, by generating video data in which the direction of the view is adjusted to the direction of travel, an image shot along the direction of travel (that is, an image in which the direction of the view is the front) is presented at the time of playback. However, by generating video data that matches the view orientation to the user's orientation, the user can create an image in which the view orientation is other than the front (for example, an image shot facing the right side of the fairway). It becomes possible to present to.
Specifically, as shown in FIG. 13A described above, the user at the current position CP in the bunker BK is concerned about the right side of the golf course, for example, and is in the direction of 30 degrees to the right with respect to the direction of the green GR. Suppose that you are facing. In this case, similarly to the above, the user terminal 300 transmits the direction information together with the position information to the distribution server 200.
On the other hand, the generation unit 261 of the distribution server 200 generates the moving image data according to the direction of the user by extracting the partial data according to the orientation information together with the position information from the wide-angle moving image data. That is, the distribution server 200 generates moving image data in which the shooting direction is tilted 30 degrees to the right from the traveling direction. Then, the distribution server 200 distributes such moving image data to the user terminal 300.
As a result, in the image traveling toward the green GR, the image viewed at 30 degrees to the right can be presented to the user.

(Other embodiments)
In the above embodiment, the case where the user requests the distribution server 200 to distribute the video data by manually operating the user terminal 300 (operation unit 320) has been described, but the user terminal 300 detects the user's operation. Then, the distribution server 200 may be automatically requested to distribute the moving image data.
For example, in the user terminal 300, the positioning unit 310 has the above-mentioned walking detection function, and detects whether or not the user is in a walking state. Therefore, for example, when the user terminal 300 detects the walking of the user, the user terminal 300 automatically transmits the position information and the orientation information to the distribution server 200, and requests the distribution server 200 to distribute the moving image data.
In addition to the case where the user's walking is detected, the distribution server 200 may be automatically requested to distribute the moving image data. For example, when it is detected that the user has stopped after walking for a certain period of time (or a certain distance) or more, the distribution server 200 may be automatically requested to distribute the moving image data.
In addition to requesting the distribution server 200 to distribute the moving image data in this way, the playback position in the moving image data may be changed when the user terminal 300 detects the user's operation.
For example, after the video data is distributed from the distribution server 200 to the user terminal 300, when the user terminal 300 detects the walking of the user while the playback of the video data is paused, the user walks. The frame specified from the moving image data may be switched according to the position. That is, when the user is walking, the image at the target position is played back frame by frame as if the still image is being played back and forth according to the walking position.

Further, in the above embodiment, the case where the presentation system 100 is applied to a golf course (golf course) has been described, but the present invention is not limited to such a golf course, and moves to a destination, for example, in the city (one example). It is also applicable when presenting an image from the user's current position to the destination to the user (walking).
In this case, the storage units 210 and 250 of the distribution server 200 are filled with moving image data (or moving image data (or an aerial image) taken along a moving route from a predetermined start point (for example, a station) to a predetermined end point (for example, a museum) in the city. It is assumed that (wide-angle video data) is stored.
Then, when the location information is sent from the user terminal 300 of the user moving in the city and the distribution of the moving image data is requested, the distribution server 200 starts from the moving image data as in the first embodiment described above. A frame corresponding to the current position is specified, and moving image data is distributed to the user terminal 300 from the specified frame.
When wide-angle video data is stored in the storage unit 250, the distribution server 200 uses the wide-angle video data as a basis for the video from the current position to the destination, as in the second embodiment described above. Data is generated, and the generated moving image data is distributed to the user terminal 300.

In these cases as well, it is possible to present an appropriate image that can image the route from the current position to the destination.

As described above, according to the present invention, the present invention provides a presentation system, a presentation method, and a program capable of presenting an appropriate image that allows a user who rounds a golf course to imagine a route from the current position to the green. can do.

100 Presentation system 200 Distribution server 210, 250 Storage unit 220 Reception unit 230 Transmission unit 240, 260 Control unit 241 Specific unit 242 Distribution unit 261 Generation unit 300 User terminal 310 Positioning unit 320 Operation unit 330 Transmission / reception unit 340 Control unit 341 Playback unit 350 Display 400 Information processing device 401 CPU
402 ROM
403 RAM
404 NIC
405 Image processing unit 406 Audio processing unit 407 Auxiliary storage unit 408 Interface 409 Operation unit 410 Display unit 411 Positioning unit 900 Internet

Claims (9)

It is a presentation system in which the distribution server and the user terminal are connected so that they can communicate with each other.
The distribution server
A storage unit that stores video data taken along the movement route from the tee ground to the green on the golf course,
A receiving unit that receives position information indicating the current position sent from the user terminal, and
According to the received position information, a frame at a point closest to the current position on the movement path, or a frame at a point on the movement path that is separated from the green by the distance between the current position and the green. With the specific part specified from the video data,
A distribution unit that distributes the moving image data from the specified frame when distributing the video data to the user terminal is provided.
The user terminal is transported and moves on the golf course.
A transmission unit that transmits the position information indicating the current position on the golf course to the distribution server, and
A playback unit that reproduces a video according to the moving image data distributed from the distribution server is provided.
A presentation system characterized by that. The storage unit stores wide-angle moving image data taken with a predetermined wide-angle lens along the movement path, and stores the wide-angle moving image data.
A generator that generates moving image data along a path different from the moving path by extracting partial data according to the position information from the wide-angle moving image data is further provided.
The specific unit identifies the frame from the generated moving image data.
The presentation system according to claim 1. The generation unit estimates an alternative movement route from the current position to the green based on the shape of the movement route, and extracts partial data according to the alternative movement route from the wide-angle moving image data to obtain a moving image. Generate data,
The presentation system according to claim 2. The transmission unit transmits the direction information indicating the direction of the user terminal together with the position information to the distribution server.
The receiving unit receives the current position and the orientation information sent from the user terminal, and receives the information.
The generation unit generates video data along a route different from the movement route by extracting partial data according to the orientation information together with the position information from the wide-angle video data.
The presentation system according to claim 2 or 3. The storage unit stores a plurality of moving image data captured along a plurality of movement paths from the tee ground to the green.
A selection unit for selecting the movement route closest to the current position according to the position information among the plurality of movement routes is further provided.
The specific unit identifies the frame from the video data of the selected movement route.
The presentation system according to claim 1. The storage unit stores a plurality of wide-angle moving image data captured along the plurality of movement paths from the tee ground to the green.
A selection unit for selecting the movement route closest to the current position according to the position information among the plurality of movement routes is further provided.
The generation unit generates moving image data along a route different from the selected moving path from the wide-angle moving image data of the selected moving path.
The presentation system according to any one of claims 2 to 4, wherein the presentation system is characterized in that. The user terminal further includes a detection unit that detects the walking state of the user carrying the user terminal.
The transmission unit transmits at least the position information to the distribution server according to the detected walking state, and requests distribution of the moving image data.
The presentation system according to any one of claims 1 to 6, wherein the presentation system is characterized in that. It is a presentation method on a distribution server that stores video data taken along the movement route from the tee ground to the green on a golf course and distributes the video to the user terminal.
A reception step in which the distribution server receives position information indicating the current position sent from the user terminal, and
According to the received position information, the distribution server receives a frame from the point closest to the current position on the movement path, or from the green by the distance between the current position and the green on the movement path. A specific step to identify the frame of the descent point from the video data, and
When the distribution server distributes the video data to the user terminal, the distribution step of distributing from the specified frame and the distribution step.
A presentation method characterized by comprising. A computer that stores video data taken along the movement route from the tee ground to the green on a golf course and distributes the video to the user terminal.
A receiver that receives position information indicating the current position sent from the user terminal,
According to the received position information, a frame at a point closest to the current position on the movement path, or a frame at a point on the movement path that is separated from the green by the distance between the current position and the green. Is specified from the moving image data,
A distribution unit that distributes the moving image data from the specified frame when distributing the video data to the user terminal.
A program characterized by functioning as.

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