JP4395682B2 - Information processing apparatus and method, and presentation system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information processing apparatus and method, and a presentation system, and more particularly, to an information processing apparatus and method that presents a swing corresponding to an image, and a presentation system.
[0002]
[Prior art]
In an amusement park, a game center, a game arcade, or the like, an apparatus that displays an image and gives the user a vibration or a swing corresponding to the image to increase a sense of presence felt by the user is used.
[0003]
[Problems to be solved by the invention]
However, since a swing signal for controlling the swing of such a device is generated using various sensors such as an acceleration sensor or a vibration sensor, it takes a lot of trouble to acquire the swing signal. It is. Therefore, the same swing signal has to be used, and the swing given to the user has not changed.
[0004]
The present invention has been made in view of such circumstances, and an object of the present invention is to make it possible to easily change the swing given to a user in accordance with the selection of a fee or a part.
[0005]
[Means for Solving the Problems]
  An information processing apparatus according to claim 1 is provided.A first reception control means for controlling the reception of the first data relating to the parts transmitted by the second terminal apparatus; a transmission control means for controlling the transmission of the first data to the first terminal apparatus; A collecting means for collecting advertising expenses for parts transmitted by the second terminal device;Terminal deviceSecond showing the selected part sent fromControl the reception of data2Receiving control means,FirstGenerating means for generating a swing signal corresponding to the image based on the image displayed by the terminal device;2The amplitude of the oscillation signal is corrected according to the data of3Recording control means for controlling the recording of the data, and2Based on the data of3Selecting means for selecting the data of the3And correction means for correcting the amplitude of the oscillation signal based on the above data.
[0006]
The information processing apparatus may further include billing processing means for executing billing processing corresponding to provision of the swing signal.
[0007]
  The recording control means corrects the amplitude for each component included in the swing signal.3The data recording is controlled, and the correction means3Based on this data, the amplitude can be corrected for each component included in the oscillation signal.
[0008]
  The information processing method according to claim 4 comprises:A first reception control step for controlling the reception of the first data relating to the component transmitted by the second terminal device; and a transmission control step for controlling the transmission of the first data to the first terminal device; A collecting step for collecting advertising expenses for parts transmitted by the second terminal;Terminal deviceSecond showing the selected part sent fromControl the reception of data2Receiving control steps ofFirstA generating step for generating a swing signal corresponding to the image based on the image displayed by the terminal device;2The amplitude of the oscillation signal is corrected according to the data of3A recording control step for controlling the recording of the data, and2Based on the data of3A selection step to select the data of the3And a correction step for correcting the amplitude of the oscillation signal based on the data.
[0009]
  The presentation system according to claim 5 is:FirstThe terminal deviceFirst reception control means for controlling reception of first data related to a component transmitted from the information processing device, and first control for controlling transmission of second data indicating the selected component to the information processing device The second terminal device includes second transmission control means for transmitting the first data,Information processing deviceA second reception control means for controlling the reception of the first data transmitted by the second terminal apparatus; and a third transmission control means for controlling the transmission of the first data to the first terminal apparatus; Collecting means for collecting advertising expenses for parts transmitted by the second terminal; third receiving control means for controlling reception of the second data transmitted from the first terminal apparatus;Generating means for generating a swing signal corresponding to the image based on the image displayed by the terminal device;2The amplitude of the oscillation signal is corrected according to the data of3Recording control means for controlling the recording of the data, and2Based on the data of3Selecting means for selecting the data of the3And correction means for correcting the amplitude of the oscillation signal based on the above data.
[0010]
  The information processing apparatus according to claim 6 is:A first reception control means for controlling the reception of the first data relating to the parts transmitted by the second terminal device;Control transmission of first data to terminal deviceFirstTransmission control means;FirstA second control unit that controls reception of second data transmitted from the terminal device and indicating the selected component;2Receiving control means,FirstBased on the image displayed by the terminal device, the generation means for generating the oscillation signal corresponding to the image and the recording of the third data for correcting the amplitude of the oscillation signal in correspondence with the second data are controlled. A recording control unit; a selection unit that selects recorded third data based on the second data; and a correction unit that corrects the amplitude of the oscillation signal based on the selected third data.The third reception control means for controlling the reception of the fourth data corresponding to the use result of the swing signal, and the second transmission control for controlling the transmission of the fourth data to the second terminal device And refund information receiving means for receiving refund information transmitted from the second terminal and refunded based on the fourth data.It is characterized by including.
[0011]
The information processing apparatus may further include billing processing means for executing billing processing corresponding to provision of the swing signal.
[0012]
The information processing apparatus may further include a billing processing unit that executes billing processing corresponding to the distribution of the first data.
[0013]
The recording control unit controls the recording of the second data for correcting the amplitude for each component included in the swing signal, and the correction unit determines the amplitude for each component included in the swing signal based on the second data. Can be corrected.
[0014]
  Information processing equipmentThe secondBased on 4 data,FirstRefund processing execution means for executing refund processing for the user of the terminal device can be further provided.
[0015]
  The information processing method according to claim 11 comprises:A first reception control step for controlling reception of the first data relating to the component transmitted by the second terminal device;To the terminal deviceThe secondControl transmission of 1 dataFirstA transmission control step;FirstControl reception of second data transmitted from the terminal device and indicating the selected componentSecondA reception control step;FirstBased on the image displayed by the terminal device, the generation step for generating the oscillation signal corresponding to the image and the recording of the third data for correcting the amplitude of the oscillation signal in correspondence with the second data are controlled. A recording control step, a selection step for selecting the recorded third data based on the second data, and a correction step for correcting the amplitude of the oscillation signal based on the selected third data;The third reception control step for controlling the reception of the fourth data corresponding to the use result of the swing signal, and the second transmission control for controlling the transmission of the fourth data to the second terminal device A refund information receiving step for receiving refund information transmitted from the second terminal and refunded based on the fourth data;It is characterized by including.
[0016]
  The presentation system according to claim 12 includes:FirstThe terminal device transmits a first reception control means for controlling the reception of the first data related to the component transmitted from the information processing device, and the second data indicating the selected component to the information processing device. First transmission control means for controlling,The second terminal device includes second transmission control means for transmitting the first data;Information processing deviceA second reception control means for controlling reception of the first data transmitted by the second terminal device;Control the transmission of the first data to the terminal device;3Transmission control means,FirstSent from the terminalThe secondControl the reception of the second data3Receiving control means,FirstBased on the image displayed by the terminal device, the generation means for generating the oscillation signal corresponding to the image and the recording of the third data for correcting the amplitude of the oscillation signal in correspondence with the second data are controlled. A recording control unit; a selection unit that selects recorded third data based on the second data; and a correction unit that corrects the amplitude of the oscillation signal based on the selected third data.The fourth reception control means for controlling the reception of the fourth data corresponding to the use result of the swing signal and the fourth transmission control for controlling the transmission of the fourth data to the second terminal device Means, and refund information receiving means for receiving refund information transmitted from the second terminal and refund processed based on the fourth data;It is characterized by including.
[0022]
  In the information processing apparatus according to claim 1 and the information processing method according to claim 4,The reception of the first data related to the component transmitted by the second terminal device is controlled, the transmission of the first data to the first terminal device is controlled, and the second terminal device transmits the component data. Advertising expenses are collected and the firstTerminal deviceSecond showing the selected part sent fromData reception is controlled,FirstBased on the image displayed by the terminal device, a swing signal corresponding to the image is generated,2The amplitude of the oscillation signal is corrected according to the data of3Data recording is controlled and2Based on the data of3Data is selected and the selected3Based on the data, the amplitude of the oscillation signal is corrected.
[0023]
  In the presentation system according to claim 5,The second transmission unit of the second terminal device transmits the first data regarding the component, the second reception control unit of the information processing device receives the first data, and the third transmission unit of the information processing device Transmits the first data to the first terminal device, and the first reception control means of the first terminal device receives the first data. Further, the collection means of the information processing apparatus collects the advertising expenses for the parts transmitted from the second terminal apparatus. Further, the first transmission unit of the first terminal device transmits the second data indicating the selected part, and the third reception control unit of the information processing device receives the second data. The generation unit of the information processing device generates a swing signal corresponding to the image based on the image displayed by the first terminal device, and the recording control unit of the information processing device swings according to the second data. The recording of the third data for correcting the amplitude of the signal is controlled, the selection means of the information processing device selects the recorded third data based on the second data, and the correction means of the information processing device Based on the selected third data, the amplitude of the oscillation signal is corrected.
[0024]
  In the information processing apparatus according to claim 6 and the information processing method according to claim 11,The reception of the first data relating to the component transmitted by the second terminal device is controlled, and the firstThe transmission of the first data to the terminal device is controlled,FirstThe reception of the second data indicating the selected component transmitted from the terminal device is controlled,FirstBased on the image displayed by the terminal device, a swing signal corresponding to the image is generated, and the recording of the third data for correcting the amplitude of the swing signal is controlled in correspondence with the second data. Based on the data, the recorded third data is selected, and the amplitude of the oscillation signal is corrected based on the selected third data.The fourth data corresponding to the use result of the swing signal is controlled, the transmission of the fourth data to the second terminal device is controlled, and the fourth data transmitted from the second terminal is transmitted. Refund information that has been refunded based on the data is received.
[0025]
  In the presentation system according to claim 12,The second transmission unit of the second terminal device transmits the first data regarding the component, the second reception control unit of the information processing device receives the first data, and the third transmission of the information processing device. The means transmits the first data to the first terminal device, and the first reception control means of the first terminal device receives the first data. In addition, the first transmission unit of the first terminal device transmits the second data indicating the selected part, and the third reception control unit of the information processing device receives the second data. Further, the generation unit of the information processing device generates a swing signal corresponding to the image based on the image displayed by the first terminal device, and the recording control unit of the information processing device corresponds to the second data, The recording of the third data for correcting the amplitude of the oscillation signal is controlled, and the selection means of the information processing device selects the recorded third data on the basis of the second data. The correcting unit corrects the amplitude of the swing signal based on the selected third data. Still further, the fourth reception control means of the information processing device controls the reception of the fourth data corresponding to the use result of the swing signal, and the fourth transmission control means of the information processing device is the second terminal. The transmission of the fourth data to the apparatus is controlled, and the refund information receiving means of the information processing apparatus receives the refund information that has been refunded based on the fourth data transmitted from the second terminal.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram showing a first embodiment of a game system according to the present invention. The terminal device 1 executes, for example, a car racing game, a motorcycle racing game, or a game such as skiing or snowboarding in response to a user operation. When the terminal device 1 executes the game, the terminal device 1 displays an image and presents a swing to the user.
[0029]
The terminal device 1 is provided with an image data recording unit 11 therein. The image data recording unit 11 records data corresponding to an image displayed by the terminal device 1.
[0030]
When the terminal device 1 executes a game, it collects a usage fee from the user and acquires data corresponding to the user's operation (hereinafter referred to as operation data).
[0031]
The usage fee collected by the terminal device 1 from the user includes a usage fee for the terminal device 1, a fee for generating the swing signal for the swing signal generating device 2, and a charge for using the component characteristic data supplied from the terminal device 3. included.
[0032]
The terminal device 1 displays image data (displayed when a game is executed) recorded in the image data recording unit 11 via a wired or wireless transmission path such as a dedicated communication line, a public telephone line, or the Internet (not shown). Corresponding to the image to be transmitted) to the swing signal generating device 2 in advance.
[0033]
When the user requests the start of the game, the terminal device 1 causes the swing signal generating device 2 to charge a fee corresponding to the generation of the swing signal of the swing signal generating device 2 (hereinafter referred to as a swing use fee). ), And the usage fee data, operation data, and the selection of components such as shock absorbers, suspension springs, wheels, or tires, which indicate the fees corresponding to the usage of the component characteristic data supplied from the terminal device 3. Information (hereinafter referred to as selected component information) is transmitted.
[0034]
The swing signal generation device 2 receives usage fee data, operation data, and selected component information transmitted from the terminal device 1. When receiving the usage fee data, the operation data, and the selected part information, the oscillation signal generation device 2 receives a wired or wireless transmission path such as a dedicated communication line, a public telephone line, or the Internet (not shown). Then, the usage fee data indicating the usage fee of the component characteristic data supplied from the terminal device 3 is transmitted to the terminal device 3.
[0035]
The terminal device 3 is a device managed by a manufacturer who manufactures parts such as a shock absorber, a suspension spring, a wheel, or a tire. When the terminal device 3 receives the usage fee data transmitted by the swing signal generation device 2, the manufacturer manufactures (or sells) the shock absorber, the suspension spring, the suspension spring, Part characteristic data indicating the characteristic of a part such as a wheel or a tire is transmitted to the swing signal generating device 2.
[0036]
The swing signal generating device 2 generates a swing signal based on the component characteristic data received from the terminal device 3, the image data recorded in advance, the operation data received from the terminal device 1, and the swing usage fee. To do. The swing signal generation device 2 supplies the generated swing signal to the terminal device 1 via the transmission path.
[0037]
The terminal device 1 presents an image to the user and presents the user with a swing corresponding to the image based on the swing signal received from the swing signal generation device 2.
[0038]
FIG. 2 is a diagram illustrating a configuration of the swing signal generation device 2. The swing signal generation device 2 includes an image processing device 21, a swing generation level generation device 22, and a display unit 23.
[0039]
The image processing device 21 includes a feature amount detection unit 41, a feature amount processing unit 42, and a gain controller 42.
[0040]
The image processing device 21 receives the video signal corresponding to the image selected based on the operation data, the fluctuation generation level signal supplied from the fluctuation generation level generation device 22, and the fluctuation signal corresponding to the video signal. Is generated.
[0041]
The swing generation level generation device 22 includes a conversion unit 51, generates a swing generation level signal for controlling the amplitude of the swing signal based on the swing usage fee and the selected component information, and generates the generated swing. The motion generation level signal is supplied to the image processing device 21.
[0042]
The display unit 23 is configured by an image display device such as a CRT (Cathode-Ray Tube) or a liquid crystal display device, and displays an image based on a video signal corresponding to an image selected based on operation data.
[0043]
Next, details of the image processing device 21 and the swing generation level generation device 22 will be described.
[0044]
FIG. 3 is a block diagram illustrating a configuration of the feature amount detection unit 41 of the image processing apparatus 21. The video signal input to the feature amount detection unit 41 is delayed by one frame by the delay unit 71 and then supplied to the frame buffer 72-1. The video signal input to the feature amount detection unit 41 is also supplied to the frame buffer 72-2.
[0045]
The reading units 73-1 and 73-2 read video signals from the corresponding frame buffers 72-1 and 72-2, respectively, according to predetermined patterns stored in the memory 74, and output them to the motion vector detection unit 75. .
[0046]
The motion vector detection unit 75 detects a motion vector from the supplied video signal, and outputs the detected motion vector to the feature amount processing unit 42.
[0047]
Next, the operation of the feature quantity detection unit 41 shown in FIG. 3 will be described. At time t, the video signal input to the feature amount detection unit 41 is supplied to the delay unit 71 and the frame buffer 72-2. The frame buffer 72-2 stores the input video signal for one frame. Since the delay unit 71 delays the video signal by one frame, at the time t, the frame buffer 72-1 stores the video signal at the time t−1 before the time t (the video signal one frame before the time t). ) Is stored.
[0048]
The video signal at time t-1 stored in the frame buffer 72-1 is read out by the reading unit 73-1, and the video signal at time t stored in the frame buffer 72-2 is read out by the reading unit 73-2. It is.
[0049]
The reading units 73-1 and 73-2 read out video signals corresponding to the patterns stored in the memory 74 among the video signals stored in the corresponding frame buffers 72-1 and 72-2, respectively. . Here, the patterns stored in the memory 74 will be described with reference to FIG.
[0050]
FIG. 4 is a diagram illustrating an example of a pattern stored in the memory 74. Of the pixels constituting one frame, a portion not related to swinging, for example, a portion corresponding to a dashboard or a hood of an automobile as shown in FIG. 5 is determined as a region not related to swinging. A pixel located at the center of the area excluding the area is defined as a convergence point P. For example, 25 representative points Q (including the convergence point) that are symmetrical in the vertical and horizontal directions around the convergence point P are set. For each representative point Q, a block B having a predetermined number of pixels centered on the representative point Q, for example, a block B having 33 × 33 pixels is set. In the memory 74, the coordinates of each representative point Q in the screen of such a frame and the size of the block B are stored as a pattern.
[0051]
Of the video signal at time t-1 stored in the frame buffer 72-1, the reading unit 73-1 stores pixel data corresponding to the above-described pattern stored in the memory 74, that is, the representative point Q. The pixel data in each block B is read out based on the coordinates and the size of the block B, and is output to the motion vector detection unit 75 as reference block data. Similarly, the readout unit 73-2 reads out pixel data corresponding to the pattern stored in the memory 74 from the video signal at time t stored in the frame buffer 72-2, and sends it to the motion vector detection unit 75. Output as search block data.
[0052]
The motion vector detection unit 75 detects a motion vector at each representative point Q by performing block matching using the input reference block data and search block data. Therefore, in this example, 25 motion vectors are detected.
[0053]
The feature amount calculation unit 76 uses the 25 motion vectors detected by the motion vector detection unit 75 to use the horizontal component u, vertical component v, and enlargement component v of the swing of the frame (screen)._zoom, And rotational component v_rotAre calculated based on the following formula.
Horizontal component u = (1 / n) Σu_i  ... (1)
Vertical component v = (1 / n) Σv_i  ... (2)
Expansion component v_zoom= (1 / n) Σv_zoomi/ D_i  ... (3)
Rotational component v_rot= (1 / n) Σv_roti/ D_i    ... (4)
The subscript i is the representative point Q_iIn this example, the number varies from 1 to 25. Since n is the number of representative points, it is 25 in this example. The values obtained by the equations (1) to (4) are components u, v, v obtained from 25 motion vectors._zoom, V_rotIs the average value.
[0054]
Each component u, v, v described above_zoom, V_rotThe relationship will be described with reference to FIG. Representative point Q to be processed_iThe horizontal component of the motion vector T of_iAnd the vertical component is v_iAnd di is the representative point Q from the convergence point P_iIt is a scalar quantity that represents the distance to. Further, (Px, Py) represents the coordinates of the convergence point P, and the coordinates (Q_ix, Q_iRepresentative point Q of y)_iThe distance to is calculated.
[0055]
The component of this motion vector T (u_i, V_i) Is representative point Q_iThis is the component when is the origin. Convergence point P and representative point Q of motion vector T_iV in the direction parallel to the straight line connecting_zoomiAnd convergence point P and representative point Q_iThe component in the direction orthogonal to the straight line connecting_rotiAnd Also, the convergence point P and the representative point Q_iIs an angle formed by a straight line connecting the two and the motion vector T. At this time, v_zoomiAnd v_rotiIs obtained according to the following equation.
v_zoomi= (U_i ²+ V_i ²)^(1/2)COSθ (5)
v_roti = (U_i ²+ V_i ²)^(1/2)SINθ (6)
[0056]
The feature amount calculation unit 76 uses the equations (1) to (4) from the motion vector output from the motion vector detection unit 75 and uses the four component data u, v, v as the feature amount._zoom, V_rotIs calculated. Calculated four-component data u, v, v_zoom, V_rotIs supplied to the feature amount processing unit 42.
[0057]
Here, for example, when the user is caused to experience a feeling of riding in a car, what kind of swing should be applied to the chair on which the user is sitting is considered. The swing applied to the chair of an automobile includes the inclination of the road in the front-rear direction when the car is running on a sloped road such as a slope, the vibration received from the road surface when running on a bumpy road, the inclination There is a slope of the left and right direction of the road surface when running on a rough road surface.
[0058]
These swings are stimuli actually applied to a vehicle equipped with a sensor that generates a swing signal (actual stimuli), and are also applied to a chair of a user who observes an image. What is necessary is just to add the same oscillation as the stimulus. For example, if the actual stimulus is tilted to the right, the user's chair may be tilted to the right. These swings are swings that can be applied to a chair for a user by using an actuator or the like.
[0059]
On the other hand, the centrifugal force when the car bends, the inertial force when accelerating or decelerating, and the force corresponding to the swing of the car when the car bends, it is physical to apply an attractive force to the user. Therefore, it is necessary to add to the user as an alternative swing (alternative stimulus). For example, to express inertial force during acceleration, the chair cannot be moved forward in response to acceleration to apply inertial force to the user. It is necessary to add to.
[0060]
The relationship between the swing related to the actual stimulus and the alternative stimulus described above, the component of the swing signal actually applied to the chair for the user, and the relationship between the four components calculated by the feature amount calculation unit 76 described below. .
Real stimulus
Represented component Swing signal component Relationship with 4 components
Low frequency component of road pitch slope Σv
Vibration from road surface High frequency component of z-Σv
Left-right slope of the road roll -Σv_rot
Alternative stimulus
Represented component Swing signal component Relationship with 4 components
Centrifugal force when turning roll u
Centrifugal force by acceleration / deceleration pitch dv_zoomLow frequency component of / dt
Car swing when turning yaw -u
[0061]
The feature quantity processing unit 42 generates a swing signal to be supplied to the gain controller 3 using the relationship described above.
[0062]
FIG. 7 is a block diagram illustrating a configuration of the feature amount processing unit 42. Of the four components output from the feature quantity detector 41, the rotation component v_rotIs added to the adder 91-1, the horizontal component u is added to the adder 91-2 and the sign inverter 92-1, and the vertical component v is added to the adder 91-3._zoomAre respectively input to the adder 91-5 and the delay unit 93-3. The data output from the adder 91-1 is input to the adder 91-1 after being delayed by one clock by the delay device 93-1. Similarly, the data output from the adder 91-3 is input to the adder 91-3 after being delayed by one clock by the delay unit 93-2.
[0063]
The data output from the delay device 93-1 is input to the adder 91-2. The data output from the delay unit 93-2 is output to the HPF (High Pass Filter) 94 through the sign inverter 92-2 and the adder 91- through the LPF (Low Pass Filter) 95-1. 4 is also output. Expanded component v input to adder 91-5_zoomIs the expanded component v delayed by one clock by the delay unit 93-3_zoomIs subtracted and input to the adder 91-4 via the LPF 95-2.
[0064]
Next, calculation of the swing signal components roll, yaw, z, and pitch performed by the feature amount processing unit 42 will be described. Rotation component v input to the feature quantity processing unit 42_rotIs input to the adder 91-1. The adder 91-1 receives the rotation component v input at time t._rotAnd the data at time t-1 one unit time before output from the delay unit 93-1. In this way, the adder 91-1 performs the rotation component v_rotIs cumulatively added (integrated) to obtain a rocking signal component roll (Σv_rot) Is calculated. However, the rocking signal component roll expressing the left / right inclination of the road surface is −Σv_rotTherefore, the adder 91-2 uses data obtained by inverting the sign of the data input from the delay unit 93-1, for the calculation.
[0065]
The swing signal component roll (horizontal component u) is also used to express the centrifugal force at the time of the curve. Therefore, the adder 91-2 adds the data obtained by inverting the sign of the data input from the delay unit 93-1, and the horizontal component u (subtracts the output of the delay unit 93-1 from the horizontal component u). Thus, the swing signal component roll supplied to the gain controller 43 is calculated.
[0066]
Since the swing signal component yaw of the car swinging when turning is obtained by inverting the value of the horizontal component u, the feature quantity processing unit 42 converts the input value of the horizontal component u into the sign inverter 92- 1, the swing signal component yaw is calculated by inverting the sign.
[0067]
The adder 91-3 adds the vertical component v input at time t and the vertical component v output at time t-1 one unit time before output from the delay unit 93-2. In this way, the vertical component v is cumulatively added (integrated) in the adder 91-3. The data accumulated and added by the adder 91-3 and the delay unit 93-2 is input to the sign inverter 92-2, the sign is inverted, and only the high frequency component is extracted by the HPF 94. In this way, the swing signal component z representing the vibration received from the road surface is calculated.
[0068]
Further, the data output from the delay device 93-2 is also output to the LPF 95-1, and the low frequency component is extracted. In this way, the rocking signal component pitch expressing the front / rear inclination of the road surface is calculated. The swing signal component pitch is also used as a swing signal component expressing the inertial force due to acceleration / deceleration. Therefore, the swing signal component pitch output from the LPF 95-1 is added to the swing signal component pitch representing the inertial force by the adder 91-4.
[0069]
The fluctuation signal component pitch expressing the inertial force is an enlarged component v input to the feature amount processing unit 42._zoomIs calculated from The enlarged component v input to the feature quantity processing unit 42_zoomIs input to the adder 91-5 and the delay unit 93-3. The adder 91-5 receives the expanded component v input at time t._zoomt and the expanded component v at time t−1 delayed by one unit time by the delay device 93-3_zoomt-1 is input. The adder 91-5 receives the enlarged component v at the input time t._zoomFrom t, the expanded component v at time t−1_zoomBy subtracting t-1, the expanded component v_zoomIs differentiated. Then, a low-frequency component is extracted from the value output from the adder 91-5 by the LPF 95-2, thereby calculating a swing signal component pitch representing an inertial force due to acceleration / deceleration.
[0070]
The adder 91-4 adds the value output from the LPF 95-1 and the value output from the LPF 95-2 to calculate the swing signal component pitch supplied to the presentation device 3.
[0071]
FIG. 8 is a diagram illustrating a configuration of the conversion unit 51 of the fluctuation generation level generation device 22. The conversion unit 51 includes a conversion processing unit 101, a conversion table 102, a conversion processing unit 103, a conversion table 104, and a multiplier 105.
[0072]
The conversion processing unit 101 receives the swing usage fee, and acquires the swing generation level signal from the conversion table 102 based on the input swing usage fee. For example, as shown in FIG. 9, the conversion table 102 records a swing generation level corresponding to the swing usage fee.
[0073]
One fluctuation generation level (corresponding to one fluctuation usage fee) recorded in the conversion table 102 is four level values (real values) corresponding to each of roll, yaw, z, and pitch. Consists of
[0074]
In the example shown in FIG. 9, the conversion table 102 corresponds to the swing usage fee of 100 yen, and the swing generation level (the first level value is set to roll) that is (0.25, 0.25, 0.25, 0.25). Corresponding, the second level value corresponds to yaw, the third level value corresponds to z, and the fourth level value corresponds to pitch) Corresponding to the charge, record the swing generation level (0.50,0.50,0.50,0.50), and correspond to the swing use charge of 300 yen, (0.75,0.75,0.75,0.75) The motion generation level is recorded, and the swing generation level of (1.00, 1.00, 1.00, 1.00) is recorded corresponding to the swing usage fee of 400 yen.
[0075]
The conversion processing unit 101 reads the swing generation level corresponding to the input swing usage fee from the conversion table 102. That is, for example, when the swing usage fee is 200 yen, the conversion processing unit 101 corresponds to the swing usage fee of 200 yen recorded in the conversion table 102 (0.50, 0.50, 0.50, 0.50). ) Is obtained.
[0076]
The conversion processing unit 101 outputs the acquired fluctuation generation level to the multiplier 105 as a fluctuation generation level signal.
[0077]
The conversion processing unit 103 receives the selected component information, and acquires the swing generation level signal from the conversion table 104 based on the input selected component information. For example, as shown in FIG. 10, the conversion table 104 records the swing generation level corresponding to the selected component.
[0078]
One fluctuation generation level (corresponding to one selected component) recorded in the conversion table 104 is composed of four level values (real values) corresponding to roll, yaw, z, and pitch, respectively. Is done.
[0079]
In the example shown in FIG. 10, the conversion table 104 corresponds to the selected component that is A, the swing generation level that is (1.10,1.00,1.00,0.90) (the first level value corresponds to roll, The second level value corresponds to yaw, the third level value corresponds to z, and the fourth level value corresponds to pitch), and corresponds to the selected part that is B, Record the swing generation level (1.00, 1.10, 1.10, 1.00), record the swing generation level (0.90, 1.10, 1.00, 1.10) corresponding to the selected part C, and Corresponding to a selected part, the swing generation level (1.00, 1.00, 1.10, 1.10) is recorded.
[0080]
The conversion processing unit 103 reads the swing generation level corresponding to the input selected component information from the conversion table 104. That is, for example, when the selected component information indicates a selected component of A, the conversion processing unit 103 corresponds to the selected component of A recorded in the conversion table 104 (1.10,1.00,1.00,0.90). The fluctuation generation level is acquired.
[0081]
The conversion processing unit 103 outputs the acquired fluctuation generation level to the multiplier 105 as a fluctuation generation level signal.
[0082]
The multiplier 105 uses the fluctuation generation level signal supplied from the conversion processing unit 101 and the fluctuation generation level signal supplied from the conversion processing unit 103 for each level corresponding to roll, yaw, z, or pitch. Multiply and output to the image processing device 21 as the obtained swing generation level signal.
[0083]
For example, the multiplier 105 is supplied with a fluctuation generation level signal (0.50, 0.50, 0.50, 0.50) from the conversion processing unit 101, and the fluctuation processing level 103 is (1.10, 1.00, 1.00, 0.90) from the conversion processing unit 103. When the motion generation level signal is supplied, a swing generation level signal of (0.55, 0.50, 0.50, 0.45) is generated and supplied to the image processing device 21.
[0084]
The conversion processing unit 103 and the conversion table 104 generate a swing generation level signal for each category of parts (for example, a shock absorber, a spring, a wheel, or a tire). May be multiplied by the fluctuation generation level signal.
[0085]
FIG. 11 is a diagram for explaining the configuration of the gain controller 43 of the image processing apparatus 21. The gain controller 43 includes a multiplier 121.
[0086]
The multiplier 121 includes a swing signal (including a component corresponding to roll, yaw, z, or pitch) supplied from the feature amount processing unit 42 and a swing generation level supplied from the swing generation level generation device 22. A signal (including a level value corresponding to roll, yaw, z, or pitch) and a component corresponding to roll, yaw, z, or pitch, respectively, and each corresponding to roll, yaw, z, or pitch By multiplying the level value, a swing signal whose amplitude is corrected is generated based on the swing generation level signal.
[0087]
The image processing apparatus 21 supplies a swing signal whose amplitude is corrected based on the swing generation level signal to the terminal device 1 via the transmission path.
[0088]
FIG. 12 is a diagram illustrating a configuration of the presentation device 131 that constitutes a part of the terminal device 1. The video signal (generated by the terminal device 1 itself) and the swing signal (supplied from the swing signal generating device 2) input from the information input unit 141 are recorded in the information storage unit 142.
[0089]
The information storage unit 142 supplies the recorded video signal to the image presenting unit 143 and transmits the recorded swing signal (corresponding to the video signal supplied to the image presenting unit 143) to the swing presenting unit 144. To supply.
[0090]
The image presentation unit 143 includes an image display device such as a projector, a CRT, or a liquid crystal display device, and displays an image based on a video signal.
[0091]
The swing presentation device 144 presents the swing to the user based on the swing signal.
[0092]
FIG. 13 is a diagram illustrating an example of a relationship between a screen 151 (an image is projected by a projector or the like (not shown)) that configures the image presentation unit 143 and a chair 152 that configures the swing presentation unit 144.
[0093]
The image presentation unit 143 displays an image corresponding to the video signal on the screen 151. The swing presentation unit 144 swings the chair 152 in response to the swing signal, and makes the user sitting on the chair 152 feel the swing.
[0094]
As described above, this oscillation is constituted by the rotational components (roll, pitch, yaw) around the X, Y, and Z axes and the translational components (x, y, z) in the three axial directions.
[0095]
The configuration of the swing presentation unit 144 is shown in FIGS. FIG. 14 is a side view of the swing presentation unit 144, and FIG. 15 is a top view of the swing presentation unit 144. The swing presentation unit 144 includes six pistons 171-1 to 171-6, and the base 172 is supported by these pistons. A chair 152 is fixed to the pedestal 172, and a user 173 sits on the chair 152.
[0096]
The pistons 171-1 to 171-6 are constituted by air cylinders, hydraulic cylinders, or the like, and extend and contract along the central axes. As the pistons 171-1 to 171-6 expand and contract, the pedestal 172 swings, and the chair 152 fixed to the pedestal 172 swings. Signals for controlling the pistons 171-1 to 171-6 are supplied by the swing signal generating device 2 as described above.
[0097]
Next, presentation processing in the first embodiment of the present invention will be described with reference to the flowchart of FIG.
[0098]
In step 101, the terminal device 1 transmits an image to the swing signal generation device 2 via the transmission path.
[0099]
In step S <b> 201, the swing signal generation device 2 receives the image transmitted by the terminal device 1. The received image is recorded in the swing signal generation device 2.
[0100]
In step S102, the terminal device 1 reads data such as a game start instruction corresponding to the user's operation.
[0101]
In step S <b> 103, the terminal device 1 acquires selected component information corresponding to a component selection operation by the user.
[0102]
In step S <b> 104, the terminal device 1 uses the terminal device 1 usage fee, the oscillation signal generation device 2 oscillation usage fee, and the component characteristic data usage fee supplied from the terminal device 3, which are input by the user. Get usage fees, including
[0103]
In step S <b> 105, the terminal device 1 performs a usage fee billing process for the terminal device 1.
[0104]
In step S106, the terminal device 1 uses the usage fee data (consisting of the oscillation usage fee of the oscillation signal generation device 2 and the usage fee of the component characteristic data supplied from the terminal device 3), and data corresponding to the operation. , And the selected component information are transmitted to the oscillation signal generating device 2 through the transmission path.
[0105]
In step S <b> 202, the swing signal generation device 2 receives the usage fee data, the data corresponding to the operation, and the selected component information transmitted from the terminal device 1. In step S <b> 203, the swing signal generation device 2 performs a swing usage fee billing process.
[0106]
In step S <b> 203, the swing signal generation device 2 transmits the usage fee data corresponding to the usage fee of the selected component information and the component characteristic data to the terminal device 3 via the transmission path.
[0107]
In step S <b> 301, the terminal device 3 receives the selected part information and the usage fee data transmitted from the swing signal generating device 2. In step S <b> 302, the terminal device 3 executes a fee billing process corresponding to the use of the component characteristic data.
[0108]
In step S <b> 303, the terminal device 3 transmits component characteristic data corresponding to the selected component information to the swing signal generating device 2 via the transmission path.
[0109]
In step S <b> 205, the swing signal generation device 2 receives the part characteristic data transmitted from the terminal device 3. The received component characteristic data is stored in the conversion table 104. In step S206, the swing signal generation device 2 selects the image received in the process of step S201 based on the data corresponding to the operation received in the process of step S202.
[0110]
In step S207, the conversion unit 51 of the swing signal generation device 2 calculates a swing generation level signal based on the swing usage fee and the selected component information.
[0111]
In step S208, the image processing device 21 of the swing signal generation device 2 generates a swing signal based on the video signal corresponding to the selected image and the swing generation level signal calculated in the process of step S207. To do. Details of the process of generating the swing signal in step S208 will be described later with reference to the flowchart of FIG.
[0112]
In step S209, the swing signal generation device 2 transmits the generated swing signal to the terminal device 1 via the transmission path.
[0113]
In step S <b> 107, the terminal device 1 receives the swing signal transmitted from the swing signal generation device 2. In step S108, the terminal device 1 presents an image to the user based on the video signal generated inside, and presents the rocking to the user based on the rocking signal received in the process of step S107. Then, the process ends.
[0114]
As described above, the swing signal generation device 2 generates the swing signal based on the video signal and the swing use fee or the selected component information, and supplies the generated swing signal to the terminal device 1. The terminal device 1 can present a swing to the user based on the swing signal supplied from the swing signal generation device 2.
[0115]
For example, the amplitude of the swing presented to the user changes corresponding to the part selected by the user. When a hard spring is selected, the terminal device 1 presents a stronger or fine swing to the user. When the soft spring is selected, the terminal device 1 presents less swing to the user.
[0116]
  Further, for example, the amplitude of the swing presented to the user changes corresponding to the fee paid by the user. For example, fewer usersChargeWhen the terminal device 1 is paid, the terminal device 1 presents a more rough swing to the user. For example, when the user pays more fees, the terminal device 1 presents stronger or finer swing to the user.
[0117]
Next, details of the swing signal generation processing in step S208 of FIG. 16 executed by the swing signal generation device 2 will be described with reference to the flowchart of FIG.
[0118]
In step S11, the feature amount detection unit 41 of the image processing device 21 extracts a feature amount based on an image corresponding to the video signal. In step S12, the feature amount processing unit 42 of the image processing device 21 generates a swing signal based on the feature amount.
[0119]
In step S13, the image processing device 21 corrects the amplitude of the swing signal generated in step S12 based on the swing generation level signal, and the process ends.
[0120]
As described above, the swing signal generation device 2 can generate a swing signal with the amplitude corrected based on the video signal, the swing usage fee, and the selected component information.
[0121]
FIG. 18 is a diagram showing a second embodiment of the game system according to the present invention. The same parts as those shown in FIG. 1 are denoted by the same reference numerals, and the description thereof is omitted.
[0122]
The terminal device 201 executes, for example, a car racing game, a motorcycle racing game, or a game such as skiing or snowboarding in response to a user operation. When the terminal device 201 executes the game, the terminal device 201 displays an image and presents a swing to the user.
[0123]
The terminal device 201 is provided with the image data recording unit 11 therein.
[0124]
The terminal device 201 receives manufacturer information and component information from the terminal device 203 via the swing signal generation device 202. The manufacturer information and the component information are used to provide or advertise to the user of the terminal device 201 information related to the manufacturer who manages the terminal device 203 and information related to parts manufactured or sold by the manufacturer. Information.
[0125]
When the user selects a component, the terminal device 201 displays, for example, an image corresponding to manufacturer information and component information, as shown in FIG.
[0126]
When the terminal device 201 executes the game, it collects a usage fee from the user and acquires operation data.
[0127]
The usage fee collected by the terminal device 201 from the user includes a usage fee for the terminal device 201 and a fee for generating the swing signal of the swing signal generating device 202.
[0128]
The terminal device 201 displays image data (displayed when executing a game) recorded in the image data recording unit 11 via a wired or wireless transmission path such as a dedicated communication line, a public telephone line, or the Internet (not shown). (Corresponding to the image to be displayed) is transmitted to the swing signal generating device 202 in advance.
[0129]
When the user requests the start of the game, the terminal device 201 transmits the swing usage fee data, operation data, and selected component information of the swing signal generation device 202 to the swing signal generation device 202.
[0130]
The swing signal generation device 202 receives the usage fee data, operation data, and selected component information transmitted from the terminal device 201.
[0131]
The terminal device 203 is a device managed by a manufacturer who manufactures parts such as a shock absorber, a suspension spring, a wheel, or a tire. The terminal device 203 includes, through the transmission path, component characteristic data indicating the characteristics of components such as a shock absorber, suspension spring, wheel, or tire manufactured (or sold) by the manufacturer, and advertising expenses. Is transmitted to the oscillation signal generator 202.
[0132]
  The swing signal generation device 202 receives the advertising expenses received from the terminal device 203.FromThen, an advertising expense (advertisement expense corresponding to the swing signal generating apparatus 202) for distributing the manufacturer information and the part information to the terminal device 201 is collected.
[0133]
The swing signal generation device 202 generates a swing signal based on the part characteristic data received from the terminal device 203, the image data recorded in advance, the operation data received from the terminal device 201, and the swing usage fee. To do. The swing signal generation device 202 supplies the generated swing signal and the advertising expenses corresponding to the terminal device 201 to the terminal device 201 via the transmission line.
[0134]
  The terminal device 201 receives the advertising expenses received from the swing signal generation device 202.That is,Advertising costs (paid from the manufacturer managing the terminal device 203) for displaying images corresponding to the manufacturer information and the component information are collected.
[0135]
The terminal device 201 presents an image to the user, and presents the user with a swing corresponding to the image based on the swing signal received from the swing signal generating device 202.
[0136]
FIG. 20 is a diagram illustrating a configuration of the swing signal generation device 202. The same parts as those in the swing signal generating device 2 shown in FIG. 2 are denoted by the same reference numerals, and the description thereof is omitted.
[0137]
The oscillation generation level generation device 221 includes a conversion unit 231, generates an oscillation generation level signal for controlling the amplitude of the oscillation signal based on the selected component information, and generates the generated oscillation generation level signal. This is supplied to the image processing device 21.
[0138]
FIG. 21 is a diagram illustrating a configuration of the conversion unit 231 of the fluctuation generation level generation device 221. As illustrated in FIG. The conversion unit 231 includes a conversion processing unit 251 and a conversion table 252.
[0139]
The conversion processing unit 251 receives the selected component information, and acquires the swing generation level signal from the conversion table 252 based on the input selected component information. Since the data recorded in the conversion table 252 is the same as the data recorded in the conversion table 104, description thereof is omitted.
[0140]
The conversion processing unit 251 reads the swing generation level corresponding to the input selected component information from the conversion table 252. The conversion processing unit 251 outputs the acquired swing generation level to the image processing device 21 of the swing signal generation device 202 as a swing generation level signal.
[0141]
Next, presentation processing by the game system according to the second embodiment will be described with reference to a flowchart of FIG.
[0142]
In step 1101, the terminal device 201 transmits an image to the swing signal generation device 202 via the transmission path.
[0143]
In step S <b> 2101, the swing signal generation device 202 receives the image transmitted by the terminal device 201. The received image is recorded in the swing signal generator 202.
[0144]
In step S3101, the terminal device 203 transmits pre-recorded manufacturer information and component information to the swing signal generation device 202 via the transmission line.
[0145]
In step S2102, the swing signal generation device 202 receives the manufacturer information and the component information transmitted from the terminal device 203. In step S2103, the swing signal generation device 202 transmits manufacturer information and component information to the terminal device 201 via the transmission path.
[0146]
In step S <b> 1102, the terminal device 201 receives manufacturer information and part information transmitted from the swing signal generation device 202. In step S1103, the terminal device 201 displays an image or text corresponding to the manufacturer information and the component information.
[0147]
In step S1104, the terminal device 201 reads data such as a game start instruction corresponding to the user's operation.
[0148]
In step S1105, the terminal device 201 acquires selected component information corresponding to a component selection operation by the user.
[0149]
In step S <b> 1106, the terminal device 201 acquires a usage fee including the usage fee of the terminal device 201 and the swing usage fee of the swing signal generation device 202 input from the user.
[0150]
In step S <b> 1107, the terminal device 201 executes usage fee billing processing corresponding to the use of the terminal device 201.
[0151]
In step S1108, the terminal device 201 transmits the usage fee data (the oscillation usage fee of the oscillation signal generation device 202), the data corresponding to the operation, and the selected component information via the transmission path. 202.
[0152]
In step S <b> 2104, the swing signal generation device 202 receives the usage fee data, the data corresponding to the operation, and the selected component information transmitted from the terminal device 201. In step S <b> 2105, the swing signal generation apparatus 202 executes a swing usage fee billing process.
[0153]
In step S3102, the terminal device 203 responds to the advertising expenses (the advertising expenses corresponding to the distribution of the manufacturer information and parts information of the swing signal generation apparatus 202 and the manufacturer information and parts information of the terminal apparatus 201 via the transmission line. (Including advertising expenses for displaying images or text to be displayed) is transmitted to the swing signal generator 202.
[0154]
In step S <b> 2107, the swing signal generation device 202 receives the advertising cost transmitted from the terminal device 203. In step S <b> 2107, the swing signal generation device 202 collects advertising expenses for distribution of manufacturer information and part information.
[0155]
In step S3103, the terminal device 203 transmits the part characteristic data to the swing signal generation device 202 via the transmission path.
[0156]
In step S <b> 2108, the swing signal generation device 202 receives the part characteristic data transmitted from the terminal device 203. The received component characteristic data is stored in the conversion table 252. In step S2109, the swing signal generation device 202 selects the image received in the process of step S2101 based on the data corresponding to the operation received in the process of step S2104.
[0157]
In step S2110, the conversion unit 231 of the swing signal generation device 202 calculates a swing generation level signal based on the selected component information.
[0158]
In step S2111, the image processing device 21 of the swing signal generation device 202 generates a swing signal based on the video signal corresponding to the selected image and the swing generation level signal calculated in the process of step S2110. To do. The details of the processing for generating the swing signal in step S2111 are the same as the processing in step S208, and thus the description thereof is omitted.
[0159]
In step S2112, the swing signal generation device 202 transmits to the terminal device 201 advertising costs for the display of an image or text corresponding to the manufacturer information and part information on the terminal device 201 via the transmission path.
[0160]
In step S1109, the terminal device 201 receives the advertising expense transmitted from the swing signal generating device 202. In step S1110, the terminal device 201 collects advertising expenses.
[0161]
In step S <b> 2113, the swing signal generation device 202 transmits the generated swing signal to the terminal device 201 via the transmission path.
[0162]
In step S <b> 1111, the terminal device 201 receives the swing signal transmitted from the swing signal generation device 202. In step S <b> 1112, the terminal device 201 presents an image to the user based on the internally generated video signal, and presents the swing to the user based on the swing signal received in step S <b> 1111. Then, the process ends.
[0163]
As described above, the swing signal generation device 202 generates a swing signal based on the video signal and the component characteristic data corresponding to the selected component information, and supplies the generated swing signal to the terminal device 201. The terminal device 201 can present a swing to the user based on the swing signal supplied from the swing signal generation device 202.
[0164]
Further, since the terminal device 203 transmits the advertising expenses to the terminal device 201 via the swing signal generation device 202, the manufacturer of the terminal device 203 displays the manufacturer information or the component information on the terminal device 201. On the other hand, advertising expenses can be paid to the administrator of the terminal device 201.
[0165]
Further, since the terminal device 203 transmits the advertising cost to the swing signal generation device 202, the manufacturer of the terminal device 203 does not respond to the generation of the swing signal for the component by the swing signal generation device 202. Advertising expenses can be paid to the administrator of the motion signal generator 202.
[0166]
FIG. 23 is a diagram showing a third embodiment of the game system according to the present invention. The terminal device 301 executes, for example, a car racing game, a motorcycle racing game, or a game such as skiing or snowboarding in response to a user operation. When the terminal device 301 executes the game, the terminal device 301 displays an image and presents a swing to the user.
[0167]
The terminal device 301 receives component information from the terminal device 303 via the swing signal generation device 302. The component information is information for providing or advertising to the user of the terminal device 301 information related to components manufactured or sold by the manufacturer who manages the terminal device 303.
[0168]
When the user selects a component, the terminal device 301 displays an image corresponding to the component information, for example, as shown in FIG. The part information image shown in FIG. 24 is displayed on an image presentation device provided with a touch panel, and displays an image display field for displaying the external shape of the part, a swing presentation instruction field for designating a part, an image display field, or a swing presentation. A numeric keypad or a cross key for entering data is included in the instruction field.
[0169]
The terminal device 301 collects a usage fee from the user when the terminal device 301 executes the game.
[0170]
When the presentation is requested by the user, the terminal device 301 transmits a video signal, an image ID, accounting personal information, selected component information, and the like to the swing signal generation device 302.
[0171]
The personal information for billing includes a credit card number or a bank account number.
[0172]
The swing signal generation device 302 receives the video signal, the image ID, the charging personal information, and the selected component information transmitted from the terminal device 301. The swing signal generation device 302 transmits the billing generator information to the terminal device 303 via a wired or wireless transmission path such as a dedicated communication line, a public telephone line, or the Internet (not shown). The charge generator information includes information for specifying the swing signal generation device 302.
[0173]
The terminal device 303 is a device managed by a manufacturer who manufactures parts such as a shock absorber, a suspension spring, a wheel, or a tire. When the terminal device 303 receives the billing generator information, the terminal device 303 executes billing processing based on the billing generator information.
[0174]
The swing signal generation device 302 generates a swing signal based on the video signal received from the terminal device 301. The swing signal generation device 302 supplies the generated swing signal together with the image ID to the terminal device 301 via the transmission path.
[0175]
The terminal device 301 presents an image to the user, and presents the user with a swing corresponding to the image based on the swing signal received from the swing signal generating device 302.
[0176]
The terminal device 301 acquires the data entered in the questionnaire regarding the presented image and the swing, and transmits the acquired data to the swing signal generation device 302 via the transmission path.
[0177]
When the swing signal generating device 302 receives the presented image and the data entered in the questionnaire regarding the swing, the swing signal generating device 302 performs a refund process based on the personal information for billing such as a credit card number or a bank account number. Execute and send the refund information to the terminal device 301.
[0178]
The terminal device 301 receives the refund information transmitted by the swing signal generation device 302.
[0179]
Note that the swing signal generation device 302 may execute a refund process such as sending a discount ticket to the address of the user of the terminal device 301.
[0180]
FIG. 25 is a block diagram illustrating a configuration of the terminal device 301.
[0181]
The information input unit 321 includes selected part information corresponding to the operation of the touch panel, a presentation request, billing personal information, data entered in a questionnaire, a swing signal supplied from the swing signal generation device 302, and an unillustrated The image ID supplied from the processing unit is input.
[0182]
The information input unit 321 supplies the presentation request and the selected part information to the information storage unit 322, supplies the swing signal to the swing presentation unit 327, and supplies the data entered in the questionnaire to the output unit 323, thereby providing the presentation request. And the image ID are supplied to the image information storage unit 325, and charging personal information is supplied to the output unit 323 and the charging processing unit 326.
[0183]
The information storage unit 322 records the presentation request and selected part information, and supplies the recorded presentation request and selected part information to the output unit 323.
[0184]
The image information storage unit 325 records a video signal in advance in association with the video ID. When receiving the presentation request and the image ID from the information input unit 321, the image information storage unit 325 supplies a video signal corresponding to the image ID to the output unit 323 and the image presentation unit 328.
[0185]
The output unit 323 generates the swing request through the transmission path for the presentation request and the selected component information supplied from the information storage unit 322 together with the charging terminal device information supplied from the charging terminal device information generation unit 324. Output to the device 302. The output unit 323 outputs the video signal supplied from the image information storage unit 325 to the swing signal generation device 302 via the transmission path.
[0186]
The output unit 323 outputs the data entered in the questionnaire supplied from the information input unit 321 to the swing signal generation device 302 via the transmission path.
[0187]
The swing presentation unit 327 presents the swing to the user based on the swing signal supplied from the information input unit 321. The image presentation unit 328 presents an image based on the video signal supplied from the image information storage unit 325.
[0188]
Since the swing presentation unit 327 is the same as the swing presentation unit 144, detailed description thereof is omitted. Since the image presentation unit 328 is similar to the image presentation unit 143, detailed description thereof is omitted.
[0189]
FIG. 26 is a block diagram illustrating a configuration of the swing signal generation device 302. The information input unit 341 receives component information supplied from the terminal device 303 and selected component information, a video signal, an image ID, and accounting personal information supplied from the terminal device 301.
[0190]
The information input unit 341 supplies component information and selected component information to the storage unit 342 and supplies a video signal to the swing signal generation unit 343.
[0191]
The information input unit 341 supplies the image ID to the signal output unit 344 and also supplies the charging personal information to the charging processing unit 345.
[0192]
The storage unit 342 records the component information and the selected component information, supplies the recorded component information to the signal output unit 344, and supplies the recorded selected component information to the swing signal generation unit 343.
[0193]
The swing signal generation unit 343 has the same configuration as that of the swing signal generation device 202 shown in FIG. 20, and thus detailed description thereof is omitted.
[0194]
The signal output unit 344 receives the oscillation signal supplied from the oscillation signal generation unit 343, the component information supplied from the storage unit 342, and the image ID supplied from the information input unit 341 via a transmission line. Output to the device 301.
[0195]
The signal output unit 344 outputs the charging generator information supplied from the charging generator information generation unit 346 to the terminal device 303.
[0196]
The charge generator information generation unit 346 prerecords charge generator information including information for identifying the swing signal generation device 302.
[0197]
The information input unit 347 receives the data entered in the questionnaire supplied from the terminal device 301 and supplies the data entered in the questionnaire to the refund processing unit 348. The data entered in the questionnaire includes personal information such as the address of the respondent (user of the terminal device 301) in addition to the questionnaire response such as impressions about the presentation of the swing.
[0198]
When the refund processing unit 348 receives the data entered in the questionnaire from the information input unit 347, the refund processing unit 348 executes a refund process based on the personal information of the respondent.
[0199]
FIG. 27 is a block diagram illustrating a configuration of the terminal device 303. The information input unit 381 receives the billing generator information supplied from the swing signal generation device 302 and supplies the received billing generator information to the billing processing unit 382. The accounting processing unit 382 executes accounting processing for use of the component information of the swing signal generation device 302 based on the accounting generator information supplied from the information input unit 381.
[0200]
The component information storage unit 383 records component information in advance. The component information storage unit 383 supplies the recorded component information to the signal output unit 384.
[0201]
The signal output unit 384 supplies the component information supplied from the component information storage unit 383 to the swing signal generation device 302 via the transmission path.
[0202]
Next, presentation processing by the game system according to the third embodiment will be described with reference to a flowchart of FIG.
[0203]
In step S3201, the terminal device 303 transmits component information recorded in advance to the swing signal generation device 302 via the transmission path.
[0204]
In step S <b> 2201, the swing signal generation device 302 receives the component information transmitted from the terminal device 303. In step S2202, the swing signal generation device 302 transmits component information to the terminal device 301 via the transmission path.
[0205]
In step S <b> 1201, the terminal device 301 receives the component information transmitted by the swing signal generation device 302.
[0206]
In step S2203, the swing signal generation device 302 transmits the billing generator information recorded in advance to the terminal device 303 via the transmission path.
[0207]
In step S3202, the terminal device 303 receives the billing generator information transmitted from the swing signal generating device 302. In step S3203, the terminal device 303 executes a billing process corresponding to the provision of the component information based on the received billing generator information.
[0208]
In step S1202, the terminal device 301 displays an image or text corresponding to the component information.
[0209]
In step S1203, the terminal device 301 reads data such as a game start instruction corresponding to the user's operation.
[0210]
In step S1204, the terminal device 301 acquires selected component information corresponding to the user's operation.
[0211]
In step S <b> 1205, the terminal device 301 acquires a usage fee including the usage fee of the terminal device 301 and the swing usage fee of the swing signal generation device 302 input from the user.
[0212]
In step S <b> 1206, the terminal device 301 executes usage fee billing processing corresponding to the use of the terminal device 301.
[0213]
In step S1207, the terminal device 301 transmits the image, the selected part information, the image ID, and the charging terminal device information to the swing signal generation device 302 via the transmission path.
[0214]
In step S2204, the swing signal generation device 302 receives the image, selected component information, image ID, and billing terminal device information transmitted from the terminal device 301. In step S2205, the swing signal generation device 302 executes a swing usage fee billing process based on the billing terminal device information.
[0215]
In step S2206, the swing signal generation device 302 selects the image received in the process of step S2204.
[0216]
In step S2207, the swing signal generation unit 343 of the swing signal generation device 302 calculates a swing generation level signal based on the selected component information.
[0217]
In step S2208, the swing signal generation unit 343 of the swing signal generation device 302 generates a swing signal based on the video signal corresponding to the selected image and the calculated swing generation level signal. The details of the processing for generating the swing signal in step S2208 are the same as the processing in step S208, and thus the description thereof is omitted.
[0218]
In step S2209, the swing signal generation device 302 transmits the image ID and the generated swing signal to the terminal device 301 via the transmission path.
[0219]
In step S1208, the terminal device 301 receives the image ID and the swing signal transmitted from the swing signal generation device 302. In step S1209, the terminal device 301 presents an image to the user based on the video signal generated internally, and presents the rocking to the user based on the rocking signal received in the process of step S1208. .
[0220]
In step S1210, the terminal device 301 acquires data entered in the questionnaire. In step S1211, the terminal device 301 transmits the data entered in the questionnaire to the swing signal generating device 302 via the transmission path.
[0221]
In step S <b> 2210, the swing signal generation device 302 receives the data entered in the questionnaire transmitted from the terminal device 301. In step S2211, the swing signal generation device 302 executes a refund process based on the data entered in the questionnaire. In step S <b> 2212, the swing signal generation device 302 transmits refund information including the refunded amount to the terminal device 301 via the transmission path.
[0222]
In step S1212, the terminal device 301 receives the refund information transmitted from the swing signal generation device 302, and the process ends.
[0223]
As described above, the swing signal generation device 302 provides the component information supplied from the terminal device 303 to the terminal device 301 and also sends the billing generator information to the terminal device 303 in accordance with the use of the component information. Send. The terminal device 303 can execute a billing process corresponding to the provision of the component information based on the billing generator information.
[0224]
Further, when the swing signal generation device 302 receives the data entered in the questionnaire from the terminal device 301, the swing signal generation device 302 executes a refund process corresponding to the questionnaire entry. The refund process may be a discount ticket.
[0225]
FIG. 29 is a diagram showing a fourth embodiment of the game system according to the present invention. The terminal device 401 executes, for example, a car racing game, a motorcycle racing game, or a game such as skiing or snowboarding in response to a user operation. When the terminal device 401 executes the game, the terminal device 401 displays an image and presents a swing to the user.
[0226]
The terminal device 401 receives component information from the terminal device 403 via the swing signal generation device 402. The component information is information for providing or advertising to the user of the terminal device 401 information regarding the components manufactured or sold by the manufacturer who manages the terminal device 403.
[0227]
The terminal device 401 displays component information when the user selects a component.
[0228]
The terminal device 401 collects a usage fee from the user when the terminal device 401 executes the game.
[0229]
When the presentation is requested by the user, the terminal device 401 transmits a video signal, an image ID, billing personal information, selected component information, and the like to the swing signal generation device 402.
[0230]
The swing signal generation device 402 receives the video signal, image ID, billing personal information, and selected component information transmitted from the terminal device 401. The swing signal generating device 402 transmits the charging generator information to the terminal device 403 via a wired or wireless transmission path such as a dedicated communication line, a public telephone line, or the Internet (not shown). The billing generator information is information for identifying the swing signal generating device 402 used for billing processing.
[0231]
The terminal device 403 is a device managed by a manufacturer who manufactures parts such as a shock absorber, a suspension spring, a wheel, or a tire. When the terminal device 403 receives the billing generator information, the terminal device 403 performs billing processing based on the billing generator information.
[0232]
The swing signal generation device 402 generates a swing signal based on the video signal received from the terminal device 401. The swing signal generation device 402 supplies the generated swing signal together with the image ID to the terminal device 401 via the transmission path.
[0233]
The terminal device 401 presents an image to the user, and presents the user with a swing corresponding to the image based on the swing signal received from the swing signal generating device 402.
[0234]
The terminal device 401 acquires the data entered in the presented image and the questionnaire regarding the swing, and transmits the acquired data to the swing signal generation device 402 via the transmission path.
[0235]
When the swing signal generating device 402 receives the presented image and the data entered in the questionnaire regarding the swing, the swing signal generating device 402 executes a refund process, transmits the refund information to the terminal device 401, and is filled in the questionnaire. Data is transmitted to the terminal device 403. The swing signal generation device 402 may perform statistical processing on the presented image and data entered in the questionnaire regarding the swing, for example, and transmit the data to the terminal device 403.
[0236]
When the terminal device 403 receives the data entered in the presented image and the questionnaire regarding the swing, the terminal device 403 executes a refund process and transmits the refund information to the swing signal generation device 402.
[0237]
The swing signal generation device 402 receives the refund information transmitted from the terminal device 403.
[0238]
The terminal device 401 receives the refund information transmitted by the swing signal generation device 402.
[0239]
Note that the swing signal generating device 402 and the terminal device 403 may execute a refund process such as sending a discount ticket to the address of the user of the terminal device 401.
[0240]
Since the terminal device 401 has the same configuration as the terminal device 301, the description thereof is omitted.
[0241]
FIG. 30 is a block diagram illustrating a configuration of the swing signal generation device 402. The same parts as those of the swing signal generating device 302 are denoted by the same reference numerals, and the description thereof is omitted.
[0242]
The information input unit 421 receives the data entered in the questionnaire supplied from the terminal device 401 and supplies the data entered in the questionnaire to the refund processing unit 348 and the information statistics processing unit 422. The data entered in the questionnaire includes personal information such as the address of the respondent (user of the terminal device 401) in addition to the answers to the questionnaire.
[0243]
When receiving the data entered in the questionnaire from the information input unit 421, the information statistical processing unit 422 performs statistical processing on the data entered in the questionnaire and supplies the data to the terminal device 403 as questionnaire information.
[0244]
The information statistics processing unit 422 may supply the data entered in the questionnaire from the information input unit 421 to the terminal device 403 as it is.
[0245]
FIG. 31 is a block diagram illustrating a configuration of the terminal device 403. The same parts as those of the terminal device 303 are denoted by the same reference numerals, and the description thereof is omitted.
[0246]
The information input unit 441 receives the billing generator information and the questionnaire information supplied from the swing signal generating device 402, supplies the received billing generator information to the billing processing unit 382, and refunds the questionnaire information. To the unit 442.
[0247]
The refund processing unit 442 executes a refund process based on the questionnaire information supplied from the information input unit 441.
[0248]
Next, presentation processing by the game system of the fourth embodiment will be described with reference to the flowcharts of FIGS. Since the processing from step S3301 to step S1312 is the same as the processing from step S3201 to step S1212 in FIG. 28, the description thereof is omitted.
[0249]
In step S2313, the swing signal generation device 402 transmits the data entered in the questionnaire to the terminal device 403 via the transmission path.
[0250]
In step S 3304, the terminal device 403 receives data entered in the questionnaire transmitted from the swing signal generation device 402. In step S3305, the terminal device 403 executes a refund process for the user of the terminal device 401 based on the data entered in the questionnaire. In step S <b> 3306, the terminal device 403 transmits refund information including the refunded amount of money to the swing signal generation device 402 via the transmission path.
[0251]
In step S2314, the swing signal generation device 402 receives the refund information transmitted from the terminal device 403, and the process ends.
[0252]
Thus, when the terminal device 403 receives the data entered in the questionnaire from the swing signal generating device 402, the terminal device 403 executes a refund process corresponding to the questionnaire entry. The refund process may be a discount ticket.
[0253]
Note that by changing the fluctuation generation level of the component in each component of the oscillation signal, the influence of the component is set to 0, that is, the amplitude of the component is set to 0. As a result, the use or non-use of each component is determined. You may make it select.
[0254]
The series of processes described above can be executed by hardware, but can also be executed by software. When a series of processing is executed by software, a program constituting the software may execute various functions by installing a computer incorporated in dedicated hardware or various programs. For example, it is installed from a recording medium in a general-purpose personal computer.
[0255]
FIG. 34 is a diagram illustrating an example of the configuration of a personal computer that executes the series of processes described above. A CPU (Central Processing Unit) 501 actually executes an application program that executes the processing described with reference to the flowchart and an OS (Operating System). A ROM (Read-only Memory) 502 generally stores basically fixed data among programs used by the CPU 501 and calculation parameters. A RAM (Random-Access Memory) 503 stores programs used in the execution of the CPU 501 and parameters that change as appropriate in the execution. These are connected to each other by a host bus 504 including a CPU bus.
[0256]
The host bus 504 is connected to an external bus 506 such as a PCI (Peripheral Component Interconnect / Interface) bus via a bridge 505.
[0257]
The keyboard 508 is operated by the user when inputting various commands to the CPU 501. The pointing device 509 includes a mouse, a trackball, a digitizer, or the like, and is operated by the user when instructing or selecting a point on the screen of the display 510. The display 510 includes a liquid crystal display device, a CRT (Cathode Ray Tube), or the like, and displays various types of information as text and images. An HDD (Hard Disk Drive) 511 drives a hard disk and causes the program and information executed by the CPU 501 to be recorded or reproduced.
[0258]
The drive 512 reads out data or a program recorded in the mounted magnetic disk 551, optical disk 552, magneto-optical disk 553, or semiconductor memory 554, and the data or program is read out to the interface 507, external bus 506, bridge. 505 and the RAM 503 connected via the host bus 504. These keyboard 508 to drive 512 are connected to an interface 507, and the interface 507 is connected to the CPU 501 via an external bus 506, a bridge 505, and a host bus 504.
[0259]
The communication unit 513 includes a modem or a NIC (Network Interface Card), and is connected to a transmission line such as a public telephone line, a network, or a satellite communication line. The communication unit 513 stores the data supplied from the CPU 501 or the HDD 511 in a packet of a predetermined method, transmits the packet via the transmission path, and stores the data in the packet received via the transmission path. Data is output to the CPU 501, RAM 503, or HDD 511.
[0260]
The communication unit 513 is connected to the CPU 501 via the external bus 506, the bridge 505, and the host bus 504.
[0261]
As shown in FIG. 34, a recording medium storing a program for executing a series of processing is distributed to provide a program to a user separately from a computer. Including a floppy disk), optical disk 552 (including compact disc-read only memory (CD-ROM), DVD (digital versatile disc)), magneto-optical disk 553 (including MD (mini-disc)), or semiconductor memory 554 In addition to a package medium composed of the above, etc., it is configured by a ROM 502, a HDD 511, and the like that are provided to the user in a state of being pre-installed in a computer and in which a program is recorded.
[0262]
In the present specification, the step of describing the program stored in the recording medium is not limited to the processing performed in chronological order according to the described order, but is not necessarily performed in chronological order. It also includes processes that are executed individually.
[0263]
Further, in this specification, the system represents the entire apparatus constituted by a plurality of apparatuses.
[0264]
【The invention's effect】
According to the information processing apparatus according to claim 1 and the information processing method according to claim 4,The reception of the first data related to the component transmitted by the second terminal device is controlled, the transmission of the first data to the first terminal device is controlled, and the second terminal device transmits the component data. Advertising expenses are collected and the firstTerminal deviceSecond showing the selected part sent fromData reception is controlled,FirstBased on the image displayed by the terminal device, a swing signal corresponding to the image is generated,2The amplitude of the oscillation signal is corrected according to the data of3Data recording is controlled and2Based on the data of3Data is selected and the selected3Since the amplitude of the oscillation signal is corrected based on the data ofDepending on the part selection,Easily change the shaking given to the userAnd collect advertising expensesWill be able to.
[0265]
  According to the presentation system of claim 5,The first data regarding the component is transmitted from the second terminal device to the information processing device, and further transmitted to the first terminal device. Second data indicating the selected component is transmitted from the first terminal device to the information processing device. The information processing device collects advertising expenses for parts transmitted by the second terminal device. The second data indicating the selected component transmitted from the first terminal device is received by the information processing device. In the information processing apparatus, the firstBased on the image displayed by the terminal device, a swing signal corresponding to the image is generated,2The amplitude of the oscillation signal is corrected according to the data of3Data recording is controlled and2Based on the data of3Data is selected and the selected3Since the amplitude of the oscillation signal is corrected based on the data ofDepending on the part selection,Easily change the shaking given to the userAnd collect advertising expensesWill be able to.
[0266]
  According to the information processing apparatus according to claim 6 and the information processing method according to claim 11,The reception of the first data relating to the component transmitted by the second terminal device is controlled, and the firstThe transmission of the first data to the terminal device is controlled,FirstThe reception of the second data indicating the selected component transmitted from the terminal device is controlled,FirstBased on the image displayed by the terminal device, a swing signal corresponding to the image is generated, and the recording of the third data for correcting the amplitude of the swing signal is controlled in correspondence with the second data. Based on the data, the recorded third data is selected, and the amplitude of the oscillation signal is corrected based on the selected third data.The fourth data corresponding to the use result of the swing signal is controlled, the transmission of the fourth data to the second terminal device is controlled, and the fourth data transmitted from the second terminal is transmitted. Refund information received based on data is receivedSo, depending on the part selection, you can easily change the swing given to the userAnd refund the userWill be able to.
[0267]
  According to the presentation system of claim 12,The first data regarding the component is transmitted from the second terminal device to the information processing device, and further transmitted to the first terminal device. Second data indicating the selected component is transmitted from the first terminal device to the information processing device. The second data indicating the selected component transmitted from the first terminal device is received by the information processing device. In the information processing apparatus, the firstBased on the image displayed by the terminal device, a swing signal corresponding to the image is generated, and the recording of the third data for correcting the amplitude of the swing signal is controlled in correspondence with the second data. Based on the data, the recorded third data is selected, and the amplitude of the oscillation signal is corrected based on the selected third data.The fourth data corresponding to the use result of the swing signal is controlled, the transmission of the fourth data to the second terminal device is controlled, and the fourth data transmitted from the second terminal is transmitted. Refund information received based on data is receivedSo, depending on the part selection, you can easily change the swing given to the userAnd refund the userWill be able to.
[Brief description of the drawings]
FIG. 1 is a diagram showing a first embodiment of a game system according to the present invention.
FIG. 2 is a diagram illustrating a configuration of a swing signal generation device 2;
FIG. 3 is a block diagram illustrating a configuration of a feature amount detection unit 41 of the image processing apparatus 21;
4 is a diagram illustrating patterns stored in a memory 74. FIG.
FIG. 5 is a diagram illustrating an example of an image.
FIG. 6 is a diagram illustrating a swing component.
FIG. 7 is a block diagram illustrating a configuration of a feature amount processing unit.
8 is a diagram showing a configuration of a conversion unit 51 of the fluctuation generation level generation device 22. FIG.
9 is a diagram showing an example of data recorded in a conversion table 102. FIG.
10 is a diagram illustrating an example of data recorded in a conversion table 104. FIG.
11 is a diagram illustrating a configuration of a gain controller 43 of the image processing apparatus 21. FIG.
12 is a diagram showing a configuration of a presentation device 131. FIG.
13 is a diagram illustrating an example of a relationship between a screen 151 and a chair 152. FIG.
14 is a side view of the swing presentation unit 144. FIG.
15 is a top view of the swing presentation unit 144. FIG.
FIG. 16 is a flowchart illustrating a presentation process according to the first embodiment of the present invention.
FIG. 17 is a flowchart illustrating processing for generating a swing signal.
FIG. 18 is a diagram showing a second embodiment of the game system according to the present invention.
FIG. 19 is a diagram illustrating an example of manufacturer information and component information.
20 is a diagram illustrating a configuration of a swing signal generation device 202. FIG.
FIG. 21 is a diagram showing a configuration of a conversion unit 231 of the fluctuation generation level generation device 221.
FIG. 22 is a flowchart illustrating a presentation process by the game system according to the second embodiment.
FIG. 23 is a diagram showing a third embodiment of the game system according to the present invention.
FIG. 24 is a diagram illustrating an example of component information.
25 is a block diagram showing a configuration of a terminal device 301. FIG.
26 is a block diagram showing a configuration of a swing signal generation device 302. FIG.
27 is a block diagram showing a configuration of the terminal device 303. FIG.
FIG. 28 is a flowchart illustrating a presentation process by the game system according to the third embodiment.
FIG. 29 is a diagram showing a fourth embodiment of the game system according to the present invention.
30 is a block diagram showing a configuration of a swing signal generation device 402. FIG.
FIG. 31 is a block diagram showing a configuration of a terminal device 403;
FIG. 32 is a flowchart illustrating a presentation process by the game system according to the fourth embodiment.
FIG. 33 is a flowchart illustrating a presentation process by the game system according to the fourth embodiment.
FIG. 34 is a diagram illustrating an example of the configuration of a personal computer.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Terminal device, 2 Oscillation signal generation device, 3 Terminal device, 11 Image data recording part, 21 Image processing device, 22 Oscillation production | generation level production | generation apparatus, 41 Feature-value detection part, 42 Feature-value processing part, 43 Gain controller, 51 conversion unit, 75 motion vector detection unit, 76 feature amount calculation unit, 101 conversion processing unit, 102 conversion table, 103 conversion processing unit, 104 conversion table, 105 multiplier, 121 multiplier, 131 presentation device, 143 image presentation unit , 144 oscillating presentation unit, 201 terminal device, 202 oscillating signal generating device, 203 terminal device, 221 oscillating generation level generating device, 231 conversion unit, 251 conversion processing unit, 252 conversion table, 301 terminal device, 302 oscillating Signal generation equipment, 303 terminal equipment, Section 324 Money terminal device information generation unit, 326 charging processing unit, 327 swing presentation unit, 328 image presentation unit, 345 charging processing unit, 343 swing signal generation unit, 346 charging generator information generation unit, 348 refund processing unit, 382 Charge processing unit, 401 terminal device, 402 swing signal generation device, 403 terminal device, 442 refund processing unit, 501 CPU, 502 ROM, 503 RAM, 511 HDD, 551 magnetic disk, 552 optical disk, 553 magneto-optical disk, 554 semiconductor memory

Claims (12)

In an information processing apparatus that provides a swing signal to a first terminal device that presents swing,
First reception control means for controlling reception of the first data relating to the component transmitted by the second terminal device;
Transmission control means for controlling transmission of the first data to the first terminal device;
A collecting means for collecting the advertising cost of the part, transmitted by the second terminal device;
Second reception control means for controlling reception of second data indicating the selected component transmitted from the first terminal device;
Generating means for generating a swing signal corresponding to the image based on the image displayed by the first terminal device;
Recording control means for controlling the recording of third data for correcting the amplitude of the oscillation signal in correspondence with the second data;
Selection means for selecting the recorded third data based on the second data;
An information processing apparatus comprising: correction means for correcting the amplitude of the oscillation signal based on the selected third data. The information processing apparatus according to claim 1, further comprising billing processing means for performing billing processing corresponding to provision of the swing signal. The recording control means controls the recording of the third data for correcting the amplitude for each component included in the oscillation signal;
The information processing apparatus according to claim 1, wherein the correction unit corrects the amplitude for each component included in the swing signal based on the third data. In the information processing method of the information processing apparatus that provides the swing signal to the first terminal device that presents the swing,
A first reception control step for controlling reception of the first data related to the component transmitted by the second terminal device;
A transmission control step for controlling transmission of the first data to the first terminal device;
A collection step for collecting the advertising cost of the part transmitted by the second terminal device;
A second reception control step for controlling reception of second data indicating the selected component transmitted from the first terminal device;
A generation step of generating a swing signal corresponding to the image based on the image displayed by the first terminal device;
A recording control step for controlling the recording of third data for correcting the amplitude of the oscillation signal in correspondence with the second data;
A selection step of selecting the recorded third data based on the second data;
And a correction step of correcting the amplitude of the oscillation signal based on the selected third data. First terminal device for presenting the swing, before Symbol information processing apparatus for providing an oscillating signal to the first terminal device, and in a presentation system comprising a second terminal device for transmitting data to the information processing apparatus,
The first terminal device is:
First reception control means for controlling reception of first data relating to a component transmitted from the information processing apparatus;
First transmission control means for controlling transmission of second data indicating the selected part to the information processing apparatus ;
The second terminal device is:
Second transmission control means for transmitting the first data
Including
The information processing apparatus includes:
Second reception control means for controlling reception of the first data transmitted by the second terminal device;
Third transmission control means for controlling transmission of the first data to the first terminal device;
A collecting means for collecting the advertising cost of the part, transmitted by the second terminal device;
Third reception control means for controlling reception of the second data transmitted from the first terminal device ;
Generating means for generating a swing signal corresponding to the image based on the image displayed by the first terminal device;
Recording control means for controlling the recording of third data for correcting the amplitude of the oscillation signal in correspondence with the second data;
Selection means for selecting the recorded third data based on the second data;
And a correction unit that corrects the amplitude of the oscillation signal based on the selected third data. In an information processing apparatus that provides a swing signal to a first terminal device that presents swing,
First reception control means for controlling reception of the first data relating to the component transmitted by the second terminal device;
A first transmission control means for controlling the to the first terminal apparatus, transmission of the first data,
Second reception control means for controlling reception of second data indicating the selected component transmitted from the first terminal device;
Generating means for generating a swing signal corresponding to the image based on the image displayed by the first terminal device;
Recording control means for controlling the recording of third data for correcting the amplitude of the oscillation signal in correspondence with the second data;
Selection means for selecting the recorded third data based on the second data;
Correction means for correcting the amplitude of the oscillation signal based on the selected third data ;
Third reception control means for controlling reception of fourth data corresponding to the use result of the swing signal;
Second transmission control means for controlling transmission of the fourth data to the second terminal device;
An information processing apparatus comprising: refund information receiving means for receiving refund information transmitted from the second terminal and refunded based on the fourth data . The information processing apparatus according to claim 6, further comprising billing processing means for performing billing processing corresponding to provision of the swing signal. The information processing apparatus according to claim 6, further comprising billing processing means for executing billing processing corresponding to the distribution of the first data. The recording control means controls the recording of the second data for correcting the amplitude for each component included in the oscillation signal;
The information processing apparatus according to claim 6, wherein the correction unit corrects the amplitude for each component included in the oscillation signal based on the second data. Before SL based on the fourth data processing apparatus according to claim 6, further comprising a refund process execution means for executing a refund process for the user of the first terminal device. In the information processing method of the information processing apparatus that provides the swing signal to the first terminal device that presents the swing,
A first reception control step for controlling reception of the first data related to the component transmitted by the second terminal device;
A first transmission control step of controlling the to the first terminal apparatus, transmission of the first data,
A second reception control step for controlling reception of second data indicating the selected component transmitted from the first terminal device;
A generation step of generating a swing signal corresponding to the image based on the image displayed by the first terminal device;
A recording control step for controlling the recording of third data for correcting the amplitude of the oscillation signal in correspondence with the second data;
A selection step of selecting the recorded third data based on the second data;
A correction step of correcting the amplitude of the oscillation signal based on the selected third data ;
A third reception control step for controlling reception of fourth data corresponding to the use result of the oscillation signal;
A second transmission control step for controlling transmission of the fourth data to the second terminal device;
A refund information receiving step of receiving refund information transmitted from the second terminal and refunded based on the fourth data . First terminal device for presenting the swing, before Symbol information processing apparatus for providing an oscillating signal to the first terminal device, and in a presentation system comprising a second terminal device for transmitting data to the information processing apparatus,
The first terminal device is:
First reception control means for controlling reception of first data relating to a component transmitted from the information processing apparatus;
First transmission control means for controlling transmission of second data indicating the selected part to the information processing apparatus ;
The second terminal device is:
Second transmission control means for transmitting the first data
Including
The information processing apparatus includes:
A second reception control means for controlling the reception of the first data relating to the component transmitted by the second terminal device;
And third transmission control means for controlling the to the first terminal apparatus, transmission of the first data,
Transmitted from the first terminal device, and the third reception control means for controlling the reception of said second data,
Generating means for generating a swing signal corresponding to the image based on the image displayed by the first terminal device;
Recording control means for controlling the recording of third data for correcting the amplitude of the oscillation signal in correspondence with the second data;
Selection means for selecting the recorded third data based on the second data;
Correction means for correcting the amplitude of the oscillation signal based on the selected third data ;
Fourth reception control means for controlling reception of fourth data corresponding to the use result of the oscillation signal;
Fourth transmission control means for controlling transmission of the fourth data to the second terminal device;
And a refund information receiving means for receiving refund information transmitted from the second terminal and refunded based on the fourth data .

Images