JP2013012032A - Information processing system, terminal device, information processing method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To easily predict a result to be caused by user's motions.SOLUTION: An information processing system comprises: a motion detection unit 1 for detecting motions of a holder of a terminal device; a result acquisition unit 2 for acquiring a result caused by the motions of the holder of the terminal device; an information storage unit 3 for storing the motions detected by the motion detection unit 1 and the result which is caused by the motions and acquired by the result acquisition unit 2 in association as log information; and a result prediction unit 4 for predicting a result to be caused by motions of the holder of the terminal device on the basis of the log information stored in the information storage unit 3.

Description

  The present invention relates to an information processing system, a terminal device, an information processing method, and a program for predicting a result caused by a user's movement.

  In golf, when a hole-in-one or Albatros comes out, a souvenir or the like is presented. Therefore, the golf organizer bears the cost of purchasing a memorabilia or the like when a hole-in-one or Albatross comes out. In view of this expense for souvenirs and the like, hole-in-one insurance is sold (see, for example, Patent Document 1). In the same way as general life insurance, this hole-in-one insurance pays a fixed premium, so that when a hole-in-one or Albatros is issued, a predetermined insurance money is paid, and a souvenir etc. is paid with the insurance money. Can be purchased.

JP 2002-133119 A

  However, in the above-mentioned hole-in-one insurance, the amount of premium is presented regardless of the ability of golf, so it is felt that the premium is high because the applicability is low for beginners. Is hesitant. Therefore, it is conceivable to set an insurance premium according to the golf ability, but in order to determine the golf ability, it is necessary to predict a result caused by a movement related to the play such as a swing of the golf player.

  However, as described above, it is difficult to predict a result caused by a user's movement unless an expert regarding the movement is used.

  The present invention has been made in view of the problems of the above-described technology, and includes an information processing system, a terminal device, an information processing method, and a program capable of easily predicting a result caused by a user's movement. The purpose is to provide.

In order to achieve the above object, the present invention provides:
Movement detection means for detecting movement of the owner of the terminal device;
A result acquisition means for acquiring a result generated by the movement of the owner of the terminal device;
Information storage means for associating the movement detected by the movement detection means with the result obtained by the movement and acquired by the result acquisition means as log information;
And a result predicting means for predicting a result caused by the movement of the owner of the terminal device based on the log information stored by the information storing means.

Also, a terminal device used for predicting a result caused by movement,
Movement detecting means for detecting movement of the owner of the terminal device;
A result acquisition means for acquiring a result generated by the movement of the owner of the terminal device;
Information storage means for associating the movement detected by the movement detection means with the result obtained by the movement and acquired by the result acquisition means as log information;
And a result predicting means for predicting a result caused by the movement of the owner of the terminal device based on the log information stored by the information storing means.

Also, a terminal device used for predicting a result caused by movement,
Movement detecting means for detecting movement of the owner of the terminal device;
A result acquisition means for acquiring a result generated by the movement of the owner of the terminal device;
Log information associating the movement detected by the movement detection unit with the result generated by the movement and acquired by the result acquisition unit, and the result generated by the movement of the owner of the terminal device as the log information And a first communication means for transmitting to the server that predicts based on.

In addition, a program for causing a terminal device used for predicting a result caused by movement,
A motion detection procedure for detecting the motion of the owner of the terminal device;
A result acquisition procedure for acquiring a result generated by the movement of the owner of the terminal device;
An information storage procedure for storing the motion detected by the motion detection procedure and the result generated by the motion and acquired by the result acquisition procedure as log information;
Based on the log information stored in the information storage procedure, a result prediction procedure for predicting a result caused by the movement of the owner of the terminal device is executed.

In addition, a program for causing a terminal device used for predicting a result caused by movement,
A motion detection procedure for detecting the motion of the owner of the terminal device;
A result acquisition procedure for acquiring a result generated by the movement of the owner of the terminal device;
Log information associating the motion detected in the motion detection procedure with the result generated by the motion and acquired in the result acquisition procedure is the log information indicating the result generated by the motion of the owner of the terminal device. And a communication procedure to be transmitted to the server to be predicted based on the above.

  Since the present invention is configured as described above, it is possible to easily predict a result caused by the movement of the terminal device holder.

It is a block diagram which shows the outline of the information processing system of this invention. It is a figure which shows an example of the hole-in-one insurance setting system used as one Embodiment of the information processing system shown in FIG. 1, (a) is a figure which shows the whole structure, (b) is a portable terminal shown to (a) FIG. It is a flowchart for demonstrating the data collection method for setting hole-in-one insurance in the hole-in-one insurance setting system shown in FIG. It is a flowchart for demonstrating the method of setting a hole-in-one insurance based on the data collected in the hole-in-one insurance setting system shown in FIG.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a block diagram showing an outline of an information processing system of the present invention.

  As shown in FIG. 1, the information processing system according to the present invention includes a motion detection unit 1 as a motion detection unit, a result acquisition unit 2 as a result acquisition unit, an information storage unit 3 as an information storage unit, and a result prediction unit. The result prediction unit 4 is configured as follows.

  In the information processing system configured as described above, the motion detection unit 1 detects the movement of the owner of the terminal device used in the information processing system, and the result acquisition unit 2 detects the owner of the terminal device. Get the result produced by the movement of Then, the information storage unit 3 stores the movement detected by the movement detection unit 1 and the result obtained by the movement and acquired by the result acquisition unit 2 as log information. Thereafter, the result prediction unit 4 predicts a result generated by the movement of the owner of the terminal device based on the log information stored in the information storage unit 3.

  The information processing system described above will be described below with a specific example.

  2 is a diagram showing an example of a hole-in-one insurance setting system as an embodiment of the information processing system shown in FIG. 1, wherein (a) is a diagram showing the overall configuration, and (b) is a diagram showing (a). It is a figure which shows the structure of the shown portable terminal.

  As shown in FIG. 2, the hole-in-one insurance setting system in the present embodiment is configured such that a mobile terminal 10 serving as a terminal device and a server 30 can be connected via a network 40.

  As shown in FIG. 1B, the portable terminal 10 includes a CPU 11, a ROM 12, a RAM 13, a power processing unit 14, an input / output processing unit 15, an acceleration sensor 16, a gyro sensor 17, and a position acquisition unit. GPS 18, a sensor control unit 19, a swing acquisition unit 20, a flight distance acquisition unit 21, a log acquisition unit 22, a terminal control unit 23, a communication control unit 24 serving as a first communication means, and log storage The acceleration sensor 16, the gyro sensor 17, and the swing acquisition unit 20 correspond to the motion detection unit 1 shown in FIG. 1, and the flight distance acquisition unit 21 acquires the result shown in FIG. It corresponds to part 2.

  The CPU 11 and the terminal control unit 23 govern the operation of the mobile terminal 10.

  The ROM 12 is written with a program or the like for operating the mobile terminal 10, and the program or the like is read onto the RAM 13 to operate the mobile terminal 10.

  The power processing unit 14 includes a battery and the like, and controls a power source for operating the mobile terminal 10.

  The input / output processing unit 15 includes input means such as key buttons, a touch panel, and a microphone, and output means such as a display panel and a speaker, and inputs and outputs information. And course information including the full length of a course, the position of a cup, etc. is inputted as the environment where the holder of portable terminal 10 plays golf.

  The acceleration sensor 16 and the gyro sensor 17 are sensors for detecting the swing motion of the golf club that is the movement of the holder of the portable terminal 10.

  The GPS 18 is for detecting the position where the golf ball flew by acquiring the position information of the mobile terminal 10.

  The sensor control unit 19 controls the acceleration sensor 16, the gyro sensor 17, and the GPS 18.

  The swing acquisition unit 20 acquires the swing motion of the golf club of the owner of the mobile terminal 10 detected by the acceleration sensor 16 and the gyro sensor 17 via the log acquisition unit 22.

  The flight distance acquisition unit 21 acquires the position information of the mobile terminal 10 acquired by the GPS 18 via the log acquisition unit 22, calculates the moving distance of the owner of the mobile terminal 10 based on the position information, The flight distance of the golf ball is acquired using this calculation result.

  As described above, the log acquisition unit 22 mediates the acquisition in the swing acquisition unit 20 of the swing motion of the golf club of the owner of the mobile terminal 10 detected by the acceleration sensor 16 or the gyro sensor 17, and transmits it to the GPS 18. The acquisition in the flight distance acquisition unit 21 of the position information of the mobile terminal 10 acquired in this way is mediated.

  The communication control unit 24 acquires the swing motion of the golf club of the owner of the mobile terminal 10 acquired by the swing acquisition unit 20 and the golf ball generated by the swing motion and acquired by the flight distance acquisition unit 21. The log information in which the flight distance is associated is transmitted to the server 30, and the log storage unit 25 stores the information. In addition, the swing information of the log information stored in the log storage unit 25 and the course information input via the input / output processing unit 15 are transmitted to the server 30.

  The server 30 includes a communication unit 31 serving as a second communication unit, an information storage unit 32, a condition acquisition unit 33 serving as an environment reception unit, and an insurance premium setting unit 34. 32 corresponds to the information storage unit 3 shown in FIG. 1, and the insurance premium setting unit 34 corresponds to the result prediction unit 4 shown in FIG.

  The communication unit 31 receives log information, swing motion, and course information transmitted from the mobile terminal 10.

  The information storage unit 32 stores log information received via the communication unit 31. The log information received via the communication unit 31 is generated by the swing motion of the golf club of the owner of the mobile terminal 10 acquired by the swing acquisition unit 20 and the flight distance acquisition unit 21 by the swing motion. Since the obtained golf ball flight distance is associated with each other, these are stored in the associated state.

  The condition acquisition unit 33 acquires swing motion and course information received via the communication unit 31.

  The insurance premium setting unit 34 displays the log information stored in the information storage unit 32, the swing motion of the golf club of the owner of the portable terminal 10 acquired by the condition acquisition unit 33, and the input / output processing unit 15. Based on the course information input via the terminal, the probability of hole-in-one or Albatross is predicted, and an insurance premium corresponding to the probability is set.

  Below, the insurance setting method used as the information processing method in the hole-in-one insurance setting system comprised as mentioned above is demonstrated.

  First, a data collection method for setting hole-in-one insurance will be described.

  FIG. 3 is a flowchart for explaining a data collection method for setting hole-in-one insurance in the hole-in-one insurance setting system shown in FIG.

  A golf player carries the portable terminal 10 and plays. Before starting the play, first, when the type of golf club to be used (driver, X iron, etc.) is registered via the input / output processing unit 15 of the portable terminal 10, the terminal control unit 23 registers the registered golf club. Are stored in the log storage unit 25 (step 1).

  Next, when the golf player swings using the golf club, the acceleration sensor 16 or the gyro sensor 17 detects the swing motion of the golf club, and the swing acquisition unit 20 converts the swing motion into the sensor control unit 19. The information is acquired via the terminal control unit 23 and the log acquisition unit 22, and stored in the log storage unit 25 in association with the type of golf club registered in the log storage unit 25 in step 1 (step 2). As a result, the log storage unit 25 stores the type of golf club used by the player and the swing motion in association with each other.

  Further, the flight distance acquisition unit 21 uses the sensor control unit 19 to control the position information of the mobile terminal 10 when the golf player swings the position information of the mobile terminal 10 acquired by the GPS 18. It acquires through the unit 23 and the log acquisition unit 22 (step 3).

  The flight distance acquisition unit 22 determines whether or not the player has moved to the next hole based on the position information of the mobile terminal 10 acquired thereafter by the GPS 18 (step 4), and moves to the next hole. If it is determined that it is not, then the terminal control unit 23 determines whether or not a change in the golf club has been input via the input / output processing unit 15 (step 5). In addition, the flight distance acquisition unit 22 registers the position information of each hole, and the flight distance acquisition unit 22 includes the position information of each hole and the position information of the mobile terminal 10 acquired by the GPS 18. Based on this, it can be determined whether the player has moved to the next hole.

  If it is determined in step 5 that the change in the type of the golf club has been registered through the input / output processing unit 15, the terminal control unit 23 selects the type of golf club registered through the input / output processing unit 15. Save in the log storage unit 25 (step 6). At this timing, the log storage unit 25 does not associate a swing motion with the changed type of golf club.

  Thereafter, when the golf player swings using the golf club and the acceleration sensor 16 or the gyro sensor 17 detects the swing motion of the golf club (step 7), the flight distance acquisition unit 21 sets the GPS 18 during the swing. The flight distance of the golf ball is calculated from the position information of the mobile terminal 10 acquired in step S3 and the position information acquired in step 3 (step 8). Then, the flight distance acquisition unit 21 stores the calculated flight distance in the log storage unit 25 in association with the type of golf club and the swing motion stored in the log storage unit 25 in association with each other in step 2. . As a result, the log storage unit 25 stores the type of golf club used by the player, the swing motion, and the flight distance of the golf ball in association with each other.

  The swing acquisition unit 20 acquires the swing motion detected by the acceleration sensor 16 or the gyro sensor 17, and the golf club change is input via the input / output processing unit 15 in step 5. If it is determined in step 6 that it is associated with the type of golf club registered in the log storage unit 25, or if no change in the golf club is input via the input / output processing unit 15 in step 5, 1 is stored in the log storage unit 25 in association with the type of golf club registered in the log storage unit 25 (step 9). As a result, the log storage unit 25 stores the type of golf club used by the player and the swing motion using the golf club in association with each other. If it is determined in step 5 that the change in the type of the golf club has not been registered via the input / output processing unit 15, the process in step 6 is not performed and the state of waiting for the detection of the swing motion in step 7 is awaited. It becomes.

  On the other hand, when it is determined in step 4 that the ball has moved to the next hole, the flight distance acquisition unit 21 acquires the position of the cup of the previous hole as the position where the golf ball flew and acquired it in step 3. The flight distance is calculated based on the position and the position of the cup of the previous hole (step 10). In addition, the position information of the cup of each hole is registered in the flight distance acquisition unit 22, and the flight distance acquisition unit 22 includes the position information of the cup of each hole and the position of the mobile terminal 10 acquired by the GPS 18. The flight distance of the golf ball can be calculated based on the information. Then, the flight distance acquisition unit 21 stores the calculated flight distance in the log storage unit 25 in association with the type of golf club and the swing motion stored in the log storage unit 25 in association with each other in step 2. . As a result, similar to step 8, the type of golf club used by the player, the swing motion, and the flight distance of the golf ball are stored in the log storage unit 25 in association with each other.

  The above-described series of processing is repeated until all holes are completed (step 11). After all holes are completed, the communication control unit 24 transmits the log information stored in the log storage unit 25 to the server 30 via the network 40. (Step 12). Whether or not all the holes have been completed may be determined based on information via the input / output processing unit 15 or may be determined based on the location information of the mobile terminal 10 acquired by the GPS 18. Good. Further, the log information may be transmitted to the server 30 in accordance with a command input via the input / output control unit 15 of the mobile terminal 10.

  In addition, after the process in step 9, the process returns to the process in step 4, and the flight distance acquisition unit 22 moves to the next hole based on the position information of the mobile terminal 10 acquired thereafter by the GPS 18. The calculation of the flight distance in step 8 and step 10 is performed by calculating the flight distance in step 8 and step 10 and the position information of the mobile terminal 10 acquired by the GPS 18 at that time and the cup. Calculated based on the position and the position information of the portable terminal 10 acquired by the GPS 18 during the processing of step 8 in the previous loop, and the flight distance, swing form, and type of golf club correspond to each other in the same manner as described above. Then, it is stored in the log storage unit 25.

  When the server 30 receives the log information transmitted from the mobile terminal 10 via the communication unit 31, the information storage unit 32 associates the log information with the type of golf club, the swing motion, and the golf ball. Corresponding to the flight distance of and save. In addition, since the server 30 receives logs from all users who use the present system in the above-described processing, it holds log information of a large number of golfers.

  Next, a method for setting hole-in-one insurance based on the data collected as described above will be described.

  FIG. 4 is a flowchart for explaining a method for setting hole-in-one insurance based on data collected by the hole-in-one insurance setting system shown in FIG.

  In the mobile terminal 10, a swing form acquired in the same manner as described above when the owner of the mobile terminal 10 swings in the last round or the like is stored in the log storage unit 25.

  Then, in order to take out the hole-in-one insurance, the player possessing the mobile terminal 10 inputs course information of a golf course to be played from now on through the input / output processing unit 15, and the input course information and log storage unit 25. When the swing form stored in is transmitted from the communication control unit 24 of the mobile terminal 10, the condition acquisition unit 33 acquires these pieces of information via the communication unit 31 of the server 30 (step 21).

  Then, the insurance premium setting unit 34 first refers to the log information stored in the information storage unit 32 and extracts a flight distance associated with a swing form similar to the swing form acquired by the condition acquisition unit 33. Then, the flight distance of the golf ball of the player who is going to take out the hole-in-one insurance is estimated (step 22). This is done by referring to the flight distance associated with the player's own swing form stored in the information storage unit 32 and the flight distance associated with the swing form of another player similar to that swing form. The distance will be estimated. At this time, since the type of the golf club is also stored in the information storage unit 32, the type of the golf club may be transmitted from the portable terminal 10, and the type of the golf club may be used for estimating the flight distance.

  Further, the insurance premium setting unit 34 predicts the probability that a hole-in-one or Albatros will occur based on the estimated flight distance and the total length of the course or the position of the cup included in the course information acquired by the condition acquisition unit 33 ( Step 23).

  Then, the insurance premium setting unit 34 sets an insurance premium based on the predicted probability (step 24), and the communication unit 31 transmits this insurance premium to the portable terminal 10 (step 25).

  The insurance premium transmitted to the mobile terminal 10 is displayed on the display panel of the input / output processing unit 15 of the mobile terminal and notified to the player.

  As described above, in the present embodiment, the following two effects can be obtained by presenting an appropriate insurance premium corresponding to the player's golf ability to the golf player.

  (1) Beginners who are unlikely to be covered by insurance will be presented with low premiums, and it will be easier for insured persons who have had high premiums for their own ability to get insurance. , Insurance subscribers increase.

  (2) The insurance company can collect an appropriate premium from the insured who is likely to receive insurance.

(Other embodiments)
In the embodiment described above, in order to set the hole-in-one insurance in golf, the description has been given by taking the example of predicting the flight distance from the swing form of the player. It can be applied to various things as long as the movement of the player and the result caused by the movement are associated with each other, such as archery, archery, shooting, baseball, darts, etc.

  Also, as in the above-described embodiment, it is also possible to predict the flight distance from the player's swing form and reflect this in the premium of the hole-in-one insurance, instead of simply setting the score and round combination. Conceivable. Further, based on the swing form acquired by the condition acquisition unit 33 and the log stored in the information storage unit 32, it is possible to perform a club to be used next, a recommendation in a target direction, or the like. Furthermore, it is good also as a structure which preserve | saves the log information mentioned above for every golf implementation place and golf course, and uses log information according to the implementation place and golf course which actually play.

  In the embodiment described above, as an embodiment of the information processing system illustrated in FIG. 1, a configuration in which the mobile terminal 10 and the server 30 are configured to be connectable via the network 40 is given as an example. As described above, the mobile terminal 10 has the configuration of the server 30, the log information of other players is acquired by the mobile terminal 10 via the network 40, stored in the log storage unit 25, and the mobile terminal 10 alone It is also conceivable to perform the above-described processing.

  In addition, the terminal device used in the present invention is not limited to the above-described portable terminal or smartphone, but may be a portable music player, a portable game machine, a tablet PC, a notebook PC, or the like.

  In addition, in the present invention, the processing in the terminal device is recorded on a recording medium readable by the terminal device, in addition to the processing realized based on the dedicated hardware described above. The program recorded on the recording medium may be read by the terminal device and executed. The recording medium readable by the terminal device is an IC card, memory card, or a removable recording medium such as a floppy disk (registered trademark), a magneto-optical disk, a DVD, or a CD, or a built-in terminal device. Refers to HDD. The program recorded on this recording medium is read by the control block, for example, and the same processing as described above is performed based on the control of the control block.

DESCRIPTION OF SYMBOLS 1 Motion detection part 2 Result acquisition part 3,32 Information preservation | save part 4 Result prediction part 10 Portable terminal 11 CPU
12 ROM
13 RAM
14 Power Supply Processing Unit 15 Input / Output Processing Unit 16 Acceleration Sensor 17 Gyro Sensor 18 GPS
DESCRIPTION OF SYMBOLS 19 Sensor control part 20 Swing acquisition part 21 Flight distance acquisition part 22 Log acquisition part 23 Terminal control part 24 Communication control part 25 Log storage part 30 Server 31 Communication part 33 Condition acquisition part 34 Insurance premium setting part 40 Network

Claims (10)

Movement detection means for detecting movement of the owner of the terminal device;
A result acquisition means for acquiring a result generated by the movement of the owner of the terminal device;
Information storage means for associating the movement detected by the movement detection means with the result obtained by the movement and acquired by the result acquisition means as log information;
An information processing system comprising: a result predicting unit that predicts a result caused by a movement of the owner of the terminal device based on the log information stored by the information storing unit. The information processing system according to claim 1,
A server connectable to the terminal device via a network;
The terminal device
The motion detection means;
The result acquisition means;
First communication means for transmitting to the server log information associating the movement detected by the movement detection means with the result generated by the movement and acquired by the result acquisition means;
The server
Second communication means for receiving log information transmitted from the terminal device;
The information storage means;
The result prediction means,
The information storage unit stores the log information received by the second communication unit. In the information processing system according to claim 1 or 2,
Having position acquisition means for acquiring position information of the terminal device;
The result acquisition unit calculates a moving distance of the owner of the terminal device based on the position information of the terminal device acquired by the position acquisition unit, and uses the calculation result of the owner of the terminal device An information processing system that acquires results generated by movement. The information processing system according to any one of claims 1 to 3,
An environment receiving means for receiving an environment in which the owner of the terminal device performs the movement;
The result prediction unit predicts a result generated by the movement of the owner of the terminal device based on the log information stored by the information storage unit and the environment received by the environment reception unit. . A terminal device used for predicting a result caused by movement,
Movement detecting means for detecting movement of the owner of the terminal device;
A result acquisition means for acquiring a result generated by the movement of the owner of the terminal device;
Information storage means for associating the movement detected by the movement detection means with the result obtained by the movement and acquired by the result acquisition means as log information;
A terminal device comprising: a result prediction unit that predicts a result caused by a movement of the owner of the terminal device based on the log information stored by the information storage unit. A terminal device used for predicting a result caused by movement,
Movement detecting means for detecting movement of the owner of the terminal device;
A result acquisition means for acquiring a result generated by the movement of the owner of the terminal device;
Log information associating the movement detected by the movement detection unit with the result generated by the movement and acquired by the result acquisition unit, and the result generated by the movement of the owner of the terminal device as the log information A first communication means for transmitting to a server that predicts based on In the terminal device according to claim 5 or 6,
Having position acquisition means for acquiring position information of the terminal device;
The result acquisition unit calculates a moving distance of the owner of the terminal device based on the position information of the terminal device acquired by the position acquisition unit, and uses the calculation result of the owner of the terminal device A terminal device that obtains a result generated by movement. A motion detection process for detecting the movement of the owner of the terminal device;
A result acquisition process for acquiring a result generated by the movement of the owner of the terminal device;
An information storage process for storing the movement detected by the movement detection process and the result obtained by the movement and acquired by the result acquisition process as log information;
An information processing method comprising: a result prediction process for predicting a result caused by the movement of the owner of the terminal device based on the log information stored in the information storage process. To the terminal device used to predict the result caused by movement,
A motion detection procedure for detecting the motion of the owner of the terminal device;
A result acquisition procedure for acquiring a result generated by the movement of the owner of the terminal device;
An information storage procedure for storing the motion detected by the motion detection procedure and the result generated by the motion and acquired by the result acquisition procedure as log information;
A program for executing a result prediction procedure for predicting a result caused by the movement of the owner of the terminal device based on the log information stored in the information storage procedure. To the terminal device used to predict the result caused by movement,
A motion detection procedure for detecting the motion of the owner of the terminal device;
A result acquisition procedure for acquiring a result generated by the movement of the owner of the terminal device;
Log information associating the motion detected in the motion detection procedure with the result generated by the motion and acquired in the result acquisition procedure is the log information indicating the result generated by the motion of the owner of the terminal device. For executing a communication procedure to be transmitted to a server that predicts based on the program.

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