JP2004193796A - Motion control instrument, and operational information creating unit and program for creating operational information thereon - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a motion control instrument for a camera which is reduced in size and weight so as to be excellent in portability and easily operated. <P>SOLUTION: The motion control instrument is equipped with an object mounting unit 1, a camera mounting unit 2, a rail unit 3, a θ axis motor 4, a leg unit 5, and a control box 10. The θ axis motor 4 is fixed to the square board of the rail unit 3 and rotated clockwise or counterclockwise under the control of the control box 10 and the like. By this instrument, an object 7 is photographed while a camera 6 is moved to an optional position which is determined on a spherical surface by the rotation of the rail unit 3 and the movement of the camera mounting unit 2 along the rail 3, so that the dynamic moving image of the object 7 which requires the photographing position of the camera 6 to the object 7 varying continuously can be formed. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a motion control device that controls the position, angle, focus, and the like of a camera, an operation information generation device that generates operation information for the motion control device, and an operation information generation program.
[0002]
[Prior art]
Conventionally, the so-called camera work, which continuously changes the position (position), angle (angle), or size (frame) of a camera for photographing a subject, and realizes motion control capable of creating an active image. The apparatus is provided with a number of mechanisms for controlling the camera position, angle, camera lens focus, and the like to realize complicated camera work.
[0003]
Further, such a conventional motion control device is large and heavy in order to secure a moving range of the camera and to mount a number of mechanisms. For example, as shown in Non-Patent Document 1, a conventional motion control device includes a rail and the like so that a crane unit for hanging a camera and a device main unit can slide.
[0004]
[Non-patent document 1]
"TECHNICAL INFORMATION ~ Technical Information", [online], [searched October 28, 2002], Internet <URL: http: // www. imagica. com / ve / sfx / # techinfo>
[0005]
[Problems to be solved by the invention]
However, the above-described conventional motion control device has a problem that it is expensive because of its high functionality and large size, and that operation of the device requires specialized knowledge.
[0006]
Furthermore, the conventional motion control device has a problem that it cannot be easily transported because it is large and heavy, that is, there is no portability.
[0007]
From such a problem, there has been a problem that the use of the conventional motion control device is limited to a program or the like having a sufficient budget, and a place where the device can be used is limited to a studio or the like.
[0008]
Accordingly, the present invention has been made to solve the above-described problem, and is excellent in portability by reducing the size and weight and is easy to operate, and an operation for generating operation information of the camera. An object of the present invention is to provide an information generation device and an operation information generation program.
[0009]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the present invention has the following features. First, a first feature of the present invention is a motion control device for continuously changing a position of a camera for photographing a subject, the subject mounting portion on which the subject is mounted, and a camera mounting device on which the camera is mounted. A rail portion that supports the camera mounting portion, and that can move the camera mounting portion to an arbitrary position on a circular orbit formed around the subject by rotating about the center line of the subject mounting portion as a rotation axis, Control means for controlling the rotation of the rail portion so that the rail portion can move to an arbitrary position is provided.
[0010]
According to this feature, since the position of the camera is determined only by the rail that rotates about the center line of the subject mounting portion as the rotation axis, the structure is simple. High portability.
[0011]
According to this feature, since the camera moves on a circular orbit about the subject, the subject can be photographed from an arbitrary position on the circular orbit.
[0012]
According to a second feature of the present invention, in the first feature of the present invention, the camera mounting portion is configured to be movable to an arbitrary height along the rail portion, and the control means moves the subject to an arbitrary height. Therefore, it is preferable to control the movement of the camera mounting unit so as to enable photographing.
[0013]
According to this feature, since the camera mounting section moves along the rail section, the subject can be photographed from an arbitrary height.
[0014]
According to a third feature of the present invention, in the first or second feature of the present invention, it is preferable that the rail portion has a structure in which a distance between the subject and the camera mounting portion is constant.
[0015]
According to a fourth feature of the present invention, in the first or second feature of the present invention, it is preferable that the rail portion has an arcuate shape.
[0016]
According to this feature, since the rail portion has an arcuate shape, the subject can be photographed from an arbitrary position on the spherical surface formed by the rotation of the rail portion.
[0017]
According to a fifth aspect of the present invention, in the second aspect of the present invention, the rail portion intersects a vertical rail member standing upright in a direction substantially perpendicular to the subject mounting portion in a direction substantially orthogonal to the vertical rail member. A cross rail member that moves along the vertical rail member and moves in a direction substantially orthogonal to the vertical rail member, and rotates the vertical rail member about the center line of the subject mounting portion as a rotation axis. It is preferable that the camera mounting part is fixed to the cross rail member.
[0018]
According to such a feature, since the cross rail member moves along the vertical rail member and moves in a direction substantially orthogonal to the vertical rail member, any cross section on the spherical surface formed by the rotation of the rail portion is provided. The subject can be photographed from the position.
[0019]
According to a sixth aspect of the present invention, in the first or second aspect of the present invention, the camera mounting unit has a mechanism for changing a focus or zoom ratio of the camera, and the control unit controls the camera with respect to the camera mounting unit. It is preferable to further control the focus or zoom ratio.
[0020]
According to this feature, the camera mounting unit changes the focus or zoom of the camera, so that the subject can be appropriately and effectively photographed.
[0021]
According to a seventh feature of the present invention, in the first or second feature of the present invention, the camera mounting unit further has a mechanism for panning or tilting the camera, and the control unit controls the panning or the camera with respect to the camera mounting unit. It is preferable to further control the tilt.
[0022]
According to an eighth aspect of the present invention, in the first or second aspect of the present invention, the camera mounting unit further includes a mechanism for rolling the camera, and the control unit further controls the roll of the camera with respect to the camera mounting unit. Is preferred.
[0023]
According to this feature, the camera mounting unit changes the angle of the camera, so that the subject can be more appropriately and effectively photographed.
[0024]
According to a ninth feature of the present invention, in the first or second feature of the present invention, it is preferable that a storage unit for storing control information for the rail unit or the camera mounting unit is further provided.
[0025]
According to this feature, since the storage unit stores the control information, a series of camera operations can be reproduced based on the stored control information.
[0026]
According to a tenth feature of the present invention, in the first or second feature of the present invention, it is preferable that a communication unit that transmits and receives control information for the rail unit or the camera mounting unit is further provided.
[0027]
According to this feature, since the transmission / reception means transmits / receives control information, the control information is transmitted / received to / from another motion control device via a communication network or the like, so that a plurality of motion control devices can be controlled based on the same control information. Can be operated synchronously.
[0028]
An eleventh feature of the present invention is a camera operation information generation device that generates operation information for a motion control device that continuously changes the position of a camera that shoots a subject, wherein the motion control device includes A subject mounting portion, a camera mounting portion to which a camera is mounted, and a camera mounting portion, the camera mounting portion supporting a camera mounting portion, and a circular orbit formed around the subject by rotation about the center line of the subject mounting portion as a rotation axis. And a control unit for controlling rotation of the rail unit, the rail unit being movable to the position of the camera mounting unit.
The camera mounting section is configured to be movable to an arbitrary height along the rail section, and the operation information generating device obtains operation information for acquiring desired operation information for the rail section or the camera mounting section. An acquisition unit, a control information generation unit that generates control information for the control unit based on the obtained operation information, and a rail unit or a camera mounting unit based on the control information generated by the control information generation unit. A gist comprising a pseudo-image display unit that generates and displays a pseudo image of a subject photographed by operating, and a transmission unit that transmits control information generated by the control information generation unit to the motion control device. I do.
[0029]
A twelfth feature of the present invention is a camera operation information generation program for causing a computer to execute information generation processing for an operation of a motion control device that continuously changes the position of a camera that shoots a subject. A subject mounting portion on which a subject is mounted, a camera mounting portion on which a camera is mounted, and a camera mounting portion, which are formed around the subject by rotation about a center line of the subject mounting portion as a rotation axis. The camera mounting unit includes a rail that can move to an arbitrary position on a circular orbit, and a control unit that controls rotation of the rail. The camera mounting unit can move to an arbitrary height along the rail. An operation information generation program configured to obtain information on a desired operation performed on the rail unit or the camera mounting unit; A control information generation process for generating control information for the control means based on the crop information, and an image taken by operating the rail unit or the camera mounting unit based on the control information generated by the control information generation process The gist of the present invention is to include a pseudo video display process of generating and displaying a pseudo video of a subject and a transmission process of transmitting control information generated by the control information generation process to the motion control device.
[0030]
According to this feature, a pseudo image of the subject to be photographed is displayed based on the acquired information on the operation of the camera, and control information for the control unit is generated based on the acquired information on the operation of the camera. Therefore, even an operator without specialized knowledge can easily handle the motion control device.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
(Schematic configuration of motion control device according to the present embodiment)
An embodiment of the present invention will be described with reference to the drawings. First, a schematic configuration of the motion control device according to the present embodiment will be described. FIG. 1 is a schematic perspective view of the motion control device according to the present embodiment.
[0032]
As shown in the figure, the motion control device according to the present embodiment includes a subject mounting portion 1, a camera mounting portion 2, a rail portion 3, a θ-axis motor 4, a leg portion 5, a control box 10, It has.
[0033]
The subject mounting portion 1 is for mounting the subject 7, has a circular shape in the present embodiment, and is supported and fixed by the legs 5. The subject mounting section 1 may have any shape that does not hinder the rotation of the rail section 3 and may have, for example, a square or polygonal shape. Although FIG. 1 illustrates a person (female) as the subject 7 placed on the subject placement unit 1, any object that can be placed on the subject placement unit 1 can be used. For example, animals such as dogs and cats may be used.
[0034]
The camera mounting section 2 is for mounting the camera 6. Further, the camera mounting section 2 is supported by the rail section 3 and can move along the rail section 3. Specifically, the camera mounting unit 2 can move based on control from the control box 10 or the like in a range from the upper end to the lower end of the bow portion formed by the rail unit 3.
[0035]
The camera mounting section 2 has a mechanism for changing the focus and the zoom magnification of the camera lens of the camera 6 to be mounted. Further, the camera mounting section 2 also has a mechanism for changing (panning) the angle of the camera 6 to be mounted in the horizontal (left / right) direction and changing (tilting) in the vertical (up / down) direction.
[0036]
The camera mounting unit 2 can be provided with a mechanism for rotating (rolling) the camera 6 around the center line of the camera lens of the camera 6 to be mounted as a rotation axis. The mounting of the roll mechanism of the camera 6 on the camera mounting unit 2 is performed by comparing the necessity of the roll mechanism with the price increase and weight increase of the motion control device accompanying the mounting of the roll mechanism, and mounting the roll mechanism when necessary. What is necessary is just to manufacture the device which did. As for the focus, zoom, pan and tilt mechanisms described above, only necessary mechanisms can be mounted according to the use of the motion control device.
[0037]
The rail section 3 supports the camera mounting section 2 and rotates about the center line of the subject mounting section 1 as a rotation axis, thereby moving the camera mounting section 2 to an arbitrary position on a circular orbit formed around the subject 7. Is to move. The rail portion 3 according to the present embodiment includes an arcuate portion forming an arc and a square plate portion fixed to the θ-axis motor 4. As shown in FIG. 1, the arc formed by the rail portion 3 is configured such that the head portion of the subject 7 placed on the subject placing portion 1 is substantially at the center point, and the camera mounting portion 2 Even when moving along an arc, the distance between the camera mounting unit 2 and the subject 7 is always constant.
[0038]
The θ-axis motor 4 is fixed to the rectangular plate portion of the rail portion 3 and rotates clockwise or counterclockwise based on control from the control box 10 or the like. The rotation of the θ-axis motor 4 causes the rail 3 and the camera mounting unit 2 supported by the rail 3 to move on a circular orbit about the subject 7 as a center point. Can photograph the subject 7 from any direction on the circular orbit.
[0039]
Furthermore, since the above-described camera mounting section 2 can move along the rail section 3, the camera 6 is controlled by controlling the rotation of the rail section 3 and the movement of the camera mounting section 2 along the rail section 3. The subject 7 can be photographed from an arbitrary direction and an arbitrary height on the circular orbit. That is, by photographing the subject 7 while moving the camera 6 to an arbitrary position on a spherical surface formed by the rotation of the rail 3 and the movement of the camera mounting unit 2 along the rail 3, the photographing of the subject 7 is performed. An active moving image whose position (position) continuously changes can be created.
[0040]
In the present embodiment, a disc-shaped linear motor is used as the θ-axis motor 4 to reduce resonance of the rail portion 3 and the like due to rotation, improve responsiveness to a control signal sent from the control box 10 and the like, and determine positioning accuracy. Is being improved. The rectangular plate portion of the rail portion 3 and the θ-axis motor 4 are provided with holes penetrating in the rotation axis direction of the θ-axis motor 4. The lower surface of the θ-axis motor 4 is fixed to the leg 5, and a columnar portion forming a part of the leg 5 is provided in the square plate portion of the rail 3 and the θ-axis motor 4. The subject mounting portion 1 is supported and fixed by the cylindrical portion.
[0041]
The leg portion 5 supports the subject mounting portion 1 and the θ-axis motor 4 as described above. In FIG. 1, the leg 5 has a cross shape, but any shape may be used as long as it can support the subject mounting section 1 and the rail section 3 in a stable state.
[0042]
The control box 10 controls the rotation of the rail unit 3 by the θ-axis motor 4, the movement of the camera mounting unit 2, and the focus, zoom, pan, tilt mechanism and the like of the camera mounting unit 2. In an embodiment, a control unit is configured. The control box 10 according to the present embodiment is attached to an end of the rectangular plate portion of the rail portion 3 and has a function as a so-called balance weight that contributes to smooth rotation of the rail portion 3. The logical block configuration inside the control box 10 will be described later.
[0043]
According to the motion control device according to the present embodiment having the above-described configuration, the rotation of the rail unit 3 by the θ-axis motor 4, the movement of the camera mounting unit 2, and the focus, zoom, pan, By sequentially controlling the tilt mechanism and the like, and continuously changing the position or angle of the camera 6 for photographing the subject 7, the photographing position (position) and the photographing angle (angle) with respect to the subject 7 are continuously changed. It is possible to create an active moving image that changes.
[0044]
(Specific structural example of the motion control device according to the present embodiment)
Next, a specific structure example of the motion control device according to the present embodiment will be described with reference to FIGS. In FIGS. 2 and 3, the components shown in FIG. 1 are denoted by the same reference numerals, and the description of the components that do not need to be described is omitted.
[0045]
2A and 2B are a plan view and a front view, respectively, of the motion control device according to the present embodiment.
[0046]
The rail portion 3 shown in FIG. 2 has a bow-shaped portion reinforced by a reinforcing member 3a and a wire 3b. By reinforcing the arcuate portion with the reinforcing member 3a and the wire 3b, the occurrence of vibration due to the rotation of the rail portion 3 is reduced, and the vibration that interferes with the photographing of the subject 7 is transmitted to the camera 6. Can be prevented.
[0047]
Further, as shown in FIG. 2B, the rail portion 3 includes two rails 3c and 3d that form an arc having the head of the subject 7 as a substantially central point, and a connection that connects the rails 3c and 3d. The camera mounting part 2 is supported by the rail 3c. The subject mounting section 1 is provided with a mechanism for adjusting the vertical position of the subject 7 so that the head of the subject 7 can be positioned near the center of the arc formed by the rails 3c and 3d.
[0048]
As shown in FIG. 2B, a roller 31b is attached to the camera mounting unit 2, and the camera mounting unit 2 is configured to be able to slide on the rail 3c. Further, the camera mounting section 2 is driven by a Z-axis motor 31a (not shown in FIG. 2) connected via a pulley provided on the rail section 3 and a timing belt (not shown), and is mounted on the rail 3c. Can be moved. The Z-axis motor 31a can be installed inside the lower end of the rail 3, for example.
[0049]
3A and 3B show a left side view and a front view of the motion control device according to the present embodiment, respectively. FIG. 3 (b) is for showing the correspondence with the left side view shown in FIG. 3 (a), and is the same as FIG. 2 (b).
[0050]
As shown in FIG. 3A, the motion control device according to the present embodiment has two rails 3d. Although not shown in FIG. 3A, the present apparatus has two rails 3c located on the center point side of the arc formed by the rail 3d.
[0051]
The motion control device shown in FIGS. 2 and 3 facilitates transportation during transportation or the like, for example, to improve so-called portability. For example, disassembling and assembling the subject mounting portion 1, the rail portion 3, the leg portion 5, and the like. Can be easily done. Further, by adopting a structure in which the rails 3c and 3d can be divided into a plurality of portions, portability can be further improved.
[0052]
Further, the structure of the motion control device shown in FIGS. 2 and 3 is one embodiment, and a device in which the size of the subject mounting portion 1 or the rail portion 3 is reduced or increased according to the application. Of course, it is also possible.
[0053]
(Block configuration of motion control device control box and the like according to the present embodiment)
Next, a logical block configuration of the control box 10 and components connected to the control box 10 of the motion control device according to the present embodiment will be described with reference to FIG.
[0054]
As described above, the control box 10 controls the rotation of the rail unit 3 by the θ-axis motor 4, the movement of the camera mounting unit 2, and the focus, zoom, pan, tilt mechanism, and the like of the camera mounting unit 2. It is. The control box 10 according to the present embodiment includes a θ-axis control unit 11, a Z-axis control unit 12, a focus control unit 13, a zoom control unit 14, a pan control unit 15, a tilt control unit 16, a roll control It has a unit 17, a control information storage unit 18, and a communication unit 19.
[0055]
The control box 10 is connected to the operation box 20, the operation information generation device 40, and the like. The operation box 20 and the operation information generation device 40 control the θ-axis motor 4, the Z-axis motor 31a, and the like by transmitting a control signal to the control box 10. The logical block configuration of the operation information generation device 40 will be described later.
[0056]
The θ-axis control unit 11 controls the rotation of the θ-axis motor 4 based on a control signal sent from the operation box 20 or the operation information generation device 40. As described above, the θ-axis motor 4 is fixed to the square plate portion of the rail portion 3, and the rotation of the θ-axis motor 4 causes the rail portion 3 shown in FIGS. 1 to 3 to rotate. I have.
[0057]
The Z-axis control unit 12 controls the rotation of the Z-axis motor 31a based on a control signal sent from the operation box 20 or the operation information generation device 40. As described above, the Z-axis motor 31a can drive the camera mounting section 2 via the pulley and the timing belt.
[0058]
The focus control unit 13 controls the rotation of the focus control motor 32a based on a control signal transmitted from the operation box 20 or the operation information generation device 40. The focus control motor 32a can change the focus of the camera lens of the camera 6 via the camera lens control module 33 that can control the focus of the camera lens of the camera 6.
[0059]
The zoom control unit 14 controls the rotation of the zoom control motor 32b based on a control signal sent from the operation box 20 or the operation information generation device 40. The zoom control motor 32b can change the zoom ratio of the camera lens of the camera 6 via the camera lens control module 33 that can control the zoom ratio of the camera lens.
[0060]
Note that the focus control motor 32a and the zoom control motor 32b and the camera lens control module 33 are connected by a flexible cable, and the focus control motor 32a and the zoom control motor 32b are provided inside the lower end of the rail 3, for example. It can be installed together with the Z-axis motor 31a.
[0061]
The pan control unit 15 controls a pan control motor 2 a mounted on the camera mounting unit 2 based on a control signal transmitted from the operation box 20 or the operation information generation device 40. The pan control motor 2a can pan the camera 6 mounted on the camera mounting section 2.
[0062]
The tilt control unit 16 controls the tilt control motor 2b mounted on the camera mounting unit 2 based on a control signal sent from the operation box 20 or the operation information generation device 40. The tilt control motor 2b can tilt the camera 6 mounted on the camera mounting unit 2.
[0063]
Note that the camera mounting section 2 according to the present embodiment has, for example, a case-shaped shape with one end surface free for photographing by the camera 6, and the camera 6 has a support provided in the case. The member is supported by the pan control motor 2a and the tilt control motor 2b so that the angle can be changed.
[0064]
In the present embodiment, the roll control unit 17 can be mounted as an option. The roll control unit 17 controls a roll control motor 2c mounted on the camera mounting unit 2 based on a control signal transmitted from the operation box 20 or the operation information generation device 40. The roll control motor 2c can roll the camera 6 mounted on the camera mounting unit 2.
[0065]
The control information storage unit 18 includes a θ-axis motor 4 that controls the rotation of the rail unit 3, a movement of the camera mounting unit 2 along the rail unit 3, and a focus and zoom mechanism of the camera 6 mounted on the camera mounting unit 2. It stores control information, and in the present embodiment, constitutes storage means. Specifically, the control information storage unit 18 controls each control based on a control signal transmitted from the operation box 20 or the operation information generation device 40 or a control signal received from another motion control device via the communication unit 19. The control information for the unit is stored for a certain time. The control information storage unit 18 can be configured by a nonvolatile memory such as a flash memory.
[0066]
The communication unit 19 controls the rotation of the rail unit 3, the θ-axis motor 4, the movement of the camera mounting unit 2 along the rail unit 3, and the control information for the focus and zoom mechanism of the camera 6 mounted on the camera mounting unit 2. Is transmitted / received to / from another motion control device. In the present embodiment, the transmission / reception unit is configured. Specifically, the communication unit 19 transmits control information based on a control signal for each of the above-described control units transmitted from the operation box 20 or the operation information generation device 40 or control information stored in the control information storage unit 18 to the public. Data can be transmitted and received via a communication network such as a telephone line network or a dedicated line. The control information storage unit 18 is provided, for example, in the TTC (Telegraph and Telephone Technical Committee) standard JT-I. 430a / 431a or the like.
[0067]
The operation box 20 is connected to the control box 10 via a communication interface, and executes a basic operation such as an independent operation of each control unit described above. The operation box 20 according to the present embodiment also has a function of automatically transmitting control signals to the control box 10 based on a series of control information stored in the operation box 20 and automatically operating each control unit (automatic driving operation). Have. Further, the operation box 20 has an emergency button 22 for turning off the main power supply of the motion control device in an emergency such as an operation abnormality.
[0068]
(Configuration and operation of operation information generation apparatus and operation information generation program according to this embodiment)
Next, the configuration and operation of an operation information generation device and an operation information generation program for generating operation information for the motion control device according to the present embodiment will be described.
[0069]
FIG. 5 is a diagram illustrating a logical block configuration of the operation information generation device 40 according to the present embodiment. As shown in the figure, the operation information generation device 40 includes a joystick 41, an operation information acquisition unit 42, a control information generation unit 43, a pseudo video generation unit 44, a storage unit 45, a transmission unit 46, a display And a part 47. Specifically, the operation information generation device 40 can be operated by installing and executing the operation information generation program in a general-purpose personal computer or the like.
[0070]
The joystick 41 controls the position of the camera 6 by controlling the rotation direction of the rail unit 3 and the moving direction of the camera mounting unit 2 along the rail unit 3 to realize camera work. Further, the joystick 41 according to the present embodiment has an operation mechanism for changing the focus and zoom magnification of the camera lens of the camera 6 and an operation mechanism for panning and tilting the camera 6. The operating mechanism can be constituted by, for example, a push button or a joystick.
[0071]
In the present embodiment, instead of the joystick 41, a method of designating the position of the camera 6 by a numerical value using a keyboard or a method of designating the position of the camera 6 by a point using a mouse can be used.
[0072]
The operation information acquisition unit 42 acquires desired operation information for the rail unit 3 or the camera mounting unit 2 input by the joystick 41 or the like. Specifically, the operation information acquisition unit 42 is connected to the joystick 41, the keyboard, and the like, acquires operation information input by the joystick 41, the keyboard, and the like, and sends the acquired operation information to the control information generation unit 43. be able to.
[0073]
The control information generation unit 43 generates control information for each control unit of the control box 10 based on the operation information acquired by the operation information acquisition unit 42. Specifically, the control information generation unit 43 can generate control information corresponding to each control unit of the control box 10 from the operation information acquired by the operation information acquisition unit 42. Further, the control information generation unit 43 sends out the generated control information to the pseudo video generation unit 44, the transmission unit 46, and the like.
[0074]
The pseudo video generation unit 44 generates a pseudo video (moving image) of the subject 7 captured by the operation of the rail unit 3 or the camera mounting unit 2 based on the control information generated by the control information generation unit 43. To generate. Specifically, the pseudo video generation unit 44 operates the rail unit 3 or the camera mounting unit 2 based on a series of control information for the rail unit 3 or the camera mounting unit 2 generated by the control information generation unit 43. Accordingly, a pseudo moving image of the subject 7 captured by the camera 6 at a desired position, angle, focus, and zoom magnification can be generated, and the generated pseudo moving image can be displayed on the display unit 47.
[0075]
The storage unit 45 stores the control information generated by the control information generation unit 43. Specifically, the storage unit 45 can be configured by an external storage medium such as a hard disk or a memory card of a general-purpose personal computer used to operate as the operation information generation device 40.
[0076]
In the present embodiment, the transmission unit 46 transmits the control information generated by the control information generation unit 43 to the control box 10 described above. Specifically, the transmission unit 46 has, for example, a plurality of EIA RS-422 interfaces, and can be connected to each control unit of the control box 10 via the RS-422 interface.
[0077]
The display unit 47 displays the pseudo moving image generated by the pseudo video generation unit 44. Specifically, the display unit 47 can be configured by a display (such as a liquid crystal display) of a general-purpose personal computer used to operate as the operation information generation device 40 according to the present embodiment.
[0078]
FIG. 6 is a diagram illustrating an example of an operation screen of the operation information generation program according to the present embodiment. In the present embodiment, the operation screen 60 includes an operation key unit 61, a state display unit 62, and a pseudo video display unit 63.
[0079]
The operation key unit 61 has various keys for executing a process for generating operation information for the camera 6, an environment setting, and the like.
[0080]
The “file” key is for reading or writing an operation information (control information) file for the camera 6.
[0081]
The “transmit” key is for transmitting operation information stored in the operation information generation device 40 to the motion control device.
[0082]
The “environment setting” key is used to specify an operable range of the camera 6 and the like.
[0083]
The “operation switching” key is used to switch to either a continuous operation of the camera 6 or a step operation by designating the position of the camera 6.
[0084]
The “input selection” key is used to select an input method for inputting operation information of the camera 6. Specifically, (1) continuous input using the joystick 41, (2) input by specifying the position of the camera 6 using the joystick 41, and (3) keyboard using the "input selection" key. It is possible to select an input by specifying the position of the camera 6 by a numerical value or (4) an input by specifying a point of the position of the camera 6 using a mouse.
[0085]
The “partial deletion” key is used to delete operation information in a specified time range. The “partial read” key reads operation information in a specified time range from operation information stored in the operation information generation device 40 in advance. Further, the "partial registration" key is used to register operation information in a specified time range as partial operation information. Using the functions of “partial deletion”, “partial reading”, and “partial registration”, operation information can be easily created by combining operation information generated in the past or the like.
[0086]
The “sound read” key is used to read sound information necessary for realizing camera work linked to music or the like. The read sound information such as music can be reproduced at the time of inputting operation information using the joystick 41.
[0087]
The “total time setting” key is used to set the total time for operating the motion control device according to the present embodiment. When the sound information is read by the above-mentioned "sound reading" key, the recording time of the sound information can be set as the total time.
[0088]
The “graph display” key is used to graph and display the relationship among the position, angle, and zoom ratio of the camera 6 per unit time of the generated operation information.
[0089]
The state display unit 62 includes a “current position display area” for displaying the position and the zoom ratio of the camera 6 and a “elapsed time display area” for displaying an elapsed time when a pseudo moving image is displayed based on the generated operation information. And so on. In the present embodiment, the position of the camera 6 is indicated by an angle. For example, as shown in the figure, in the case of “upper / lower: 40 ° / left / right: −45 °”, the camera 6 It is shown that it is located in.
[0090]
The state display unit 62 has operation keys for playing back a pseudo moving image on the pseudo video display unit 63 based on the generated operation information, returning to an arbitrary position, and stopping. I have. The status display unit 62 may have a function of displaying an angle of the camera 6 that is changed by a pan mechanism, a tilt mechanism, or the like.
[0091]
The pseudo video display unit 63 displays a pseudo moving image generated by the pseudo video generation unit 44 based on operation information input by the joystick 41 or the like. The pseudo image display unit 63 according to the present embodiment, for example, when operation information for making a round around the subject 7 placed on the subject placement unit 1 is generated, the front, right, and back of the subject 7 , A series of pseudo moving images that return to the left and to the front can be displayed by a video of a person created by computer graphics.
[0092]
As described above, the pseudo video display unit 63 displays the pseudo video (moving image) based on the input operation information, so that the subject captured by operating the position, angle, or the like of the camera 6 is displayed. Since it is possible to generate and edit operation information while checking the image of 7, it is possible to easily generate appropriate operation information even for a person who does not have specialized knowledge of camera operation using the motion control device. .
[0093]
(First Example of the Motion Control Device According to the Present Embodiment)
FIG. 7 is a diagram illustrating an example of the motion control device according to the present embodiment. The present embodiment utilizes the portability of the motion control device according to the present embodiment.
[0094]
First, as shown in FIG. 7A, in a studio or the like, the shooting position and the shooting angle of the camera 6 that shoots the subject 7 are arbitrarily changed in accordance with the music of the subject 7 that is a singer, for example. Operation information of the camera 6 is generated as a work. The operation information (control information) of the camera 6 can be generated using the operation information generating device 40 described above. Then, by transmitting the generated control information of the camera 6 from the operation information generating device 40 to the motion control device, the control information is stored in the motion control device.
[0095]
Further, the motion control device is operated based on the control information stored in the motion control device, and the subject 7 is photographed. In addition, in preparation for an image synthesis process (chroma key) to be executed later, an image is shot with a so-called chroma key back such as blue as a background.
[0096]
Then, the motion control device storing the control information is transported and installed at a desired outdoor place. For example, as shown in FIG. 7B, it is installed on an observatory where Mt. Fuji can be seen. The motion control device installed on the observatory is operated based on the control information, and an image is taken by the camera 6. In this case, the subject 7 is unnecessary, and only the scenery in which Mt. Fuji can be seen is photographed by the camera 6.
[0097]
Next, the moving image of the subject 7 photographed in the studio and the moving image of the scenery of Mt. Fuji photographed at the observatory where Mt. Fuji can be seen are synthesized. Specifically, a part of the subject 7 is extracted from the moving image of the subject 7 photographed in the studio, and the extracted moving image of the subject 7 and the moving image of the scenery of Mt. Merge so that the axes match.
[0098]
Then, for example, as shown in FIG. 7C, an active moving image in which the subject 7 is photographed can be created while continuously changing the photographing position and the photographing angle with the scenery of Mt. Fuji as a background.
[0099]
As described above, by utilizing the portability of the motion control device according to the present embodiment, which is difficult to realize with the conventional large and heavy motion control device, for example, a busy singer or the like goes to a location. And an active moving image can be created.
[0100]
Further, the above-described embodiment can be applied to, for example, a karaoke store. In this case, it is assumed that a karaoke moving image captured based on control information of a predetermined motion control device is stored in the karaoke device or the like in advance. When the user of the karaoke store goes up to the subject mounting section 1 of the motion control device installed in the karaoke store and sings the selected song, the user uses the above-described control information used for shooting the karaoke moving image. By operating the motion control device and synthesizing the captured moving image of the user with the moving image stored in the karaoke device or the like, the synthesized moving image is displayed on a display (CRT display or the like) of the karaoke device. Can be displayed. When the motion control device according to the present embodiment is installed in a place where space is limited, such as a store, the zoom mechanism, the pan mechanism, the tilt mechanism, and the like are omitted, and the subject mounting section 1 and the A device in which the size of the rail portion 3 is reduced can be introduced.
[0101]
In addition, such a motion control device according to the present embodiment, which is excellent in portability, is provided with a camera at a predetermined location, and is also used for changing the environment over time, for example, when shooting seasonal landscapes. be able to. Conventionally, shooting at such a fixed point can only record video from the same fixed camera position, but by using the motion control device according to the present embodiment, the same complicated camera work can be performed. Can be repeatedly reproduced, and this complicated camera work can effectively record changes in the environment, etc., every season.
[0102]
Furthermore, the motion control device according to the present embodiment, which is smaller and lighter than the conventional motion control device, can be easily used as an auxiliary stage (substage) in a concert hall.
[0103]
In this case, the singer or the like moves up on the subject mounting portion 1 of the motion control device at a predetermined timing (for example, at the start of a certain song), and at the same time, operates the motion control device based on control information stored in advance. A singer or the like as the subject 7 is photographed by the camera 6 mounted on the motion control device, and the photographed moving image can be displayed on a screen or the like installed in the concert hall.
[0104]
Conventionally, in a concert venue, a method of photographing with a camera from the vicinity of a singer or the like has been adopted by a photographer in order to display an image of a singer or the like on a screen installed in the concert venue, but it does not hinder the audience's view I could only shoot from such a limited position. By using the motion control device according to the present embodiment in a concert hall or the like, it is possible to photograph the subject 7 from more various camera positions and angles without substantially obstructing the field of view of the audience.
[0105]
(Second example of the motion control device according to the present embodiment)
Next, another example of the motion control device according to the present embodiment will be described with reference to FIG. In the present embodiment, a plurality of motion control devices are operated in synchronization using the communication function (the communication unit 19 described in FIG. 4) of the motion control device according to the present embodiment.
[0106]
More specifically, the effect is as if the speaker 7a (male) at the point A and the speaker 7b (female) at the point B are talking at the same place. As shown in FIG. 8, in this embodiment, motion control devices are installed at point A (for example, Tokyo) and point B (for example, Osaka). A top view 70a at point A is a view of the motion control device installed at point A as viewed from above, and a speaker 7a is shown in a left portion on the subject mounting portion 1. Similarly, the top view 70b at the point B is a view of the motion control device installed at the point B as viewed from above, and the speaker 7b is shown in the right part on the subject mounting portion 1.
[0107]
Further, in the present embodiment, the motion control device installed at the point A and the motion control device installed at the point B are connected via a communication network such as a dedicated line so that control information can be transmitted and received.
[0108]
Here, one of the motion control devices installed at the point A or the point B is connected to the operation information generation device 40 (in this description, the motion control device installed at the point A is connected to the operation information generation device 40). Connected). The control information generated by the operation information generating device 40 is transmitted to the motion control device at the point A, and is also transmitted to the motion control device at the point B via the communication unit 19 of the motion control device at the point A. You. This allows the motion control devices at both points to operate based on the same control information.
[0109]
The images 71a and 71b show images at a certain point in time taken by the camera 6 mounted on the motion control device at each point. Here, the camera position information 71p indicates the position of the camera 6 when the motion control device is viewed from above. The image 71a shows a video shot from the rear right of the speaker 7a. The image 71b shows a video taken from the front left of the speaker 7b.
[0110]
Further, an image 71b taken by the camera 6 attached to the motion control device at the point B is transmitted to the point A via the communication network. At point A, a combined image 71c is generated by combining the image 71a and the image 71b using an image combining device.
[0111]
At the time of the image 71a and the image 71b, the operator of the operation information generation device 40 adjusts the focus of the camera 6 attached to the motion control device at each point to the distance to the speaker 7b. Control. By controlling the camera 6 at each point in this way, the focus of the camera 6 attached to the motion control device at the point A is controlled so as to adapt to the distance to the speaker 7b that does not actually exist. You. Accordingly, even when the composite image 71c is generated, it is possible to generate an image that is focused on the speaker 7b and has no uncomfortable feeling.
[0112]
As shown in the camera position information 72p, the image 72a and the image 72b show images at the time when the camera 6 is located at the right front of the speaker 7a (left rear of the speaker 7b). At this time, the operator of the operation information generation device 40 controls the focus of the camera 6 mounted on the motion control device at each point so as to adapt to the distance from the speaker 7a. The composite image 72c is an image in which the image 72a and the image 72b are composited.
[0113]
As shown in the camera position information 73p, the images 73a and 73b show images at the time when the camera 6 is located on the right side of the speaker 7a (on the left side of the speaker 7b). At this point, the operator of the operation information generation device 40 controls the focus of the camera 6 mounted on the motion control device at each point so as to adapt to the distance from the speaker 7a or the speaker 7b. The composite image 73c is an image in which the image 73a and the image 73b are composited.
[0114]
According to the above-described embodiment, it is possible to create a realistic moving image as if photographed in the same place without calling the performers to the same place.
[0115]
Further, the above-described embodiment utilizing the communication function of the motion control device according to the present embodiment can be applied to other embodiments. For example, in a weather forecast program, a plurality of motion control devices connected so that control information can be transmitted and received via a communication network are installed at desired locations in an urban area, a mountain area, and a coastal area, so that the user is in a studio. It is possible to create a moving image in which a weather forecaster gives a weather forecast in various places while traveling in an urban area, a mountain area, or a coastal area.
[0116]
Further, in addition to the examples described above, various examples using the motion control device according to the present embodiment can be created based on the ideas of directors and directors.
[0117]
(Example of structural change of motion control device according to present embodiment)
The motion control device according to the present embodiment can also adopt a structure as shown in FIG. 9, for example. Note that, in FIG. 9, the same reference numerals are given to the components shown in FIG. 1, and a description thereof will be omitted.
[0118]
The motion control device shown in FIG. 3 includes a vertical rail member 8a that stands upright in a substantially vertical direction from the subject mounting portion 1, instead of the rail portion 3 of the motion control device described with reference to FIGS. A cross rail member 8b which is engaged with the vertical rail member 8a in a direction substantially orthogonal to the vertical rail member, moves along the vertical rail member 8a, and moves in a direction substantially orthogonal to the vertical rail member 8a; And a supporting member 8c that rotatably supports the object mounting portion 8a about the center line of the object mounting portion 1 as a rotation axis. In this modification, the camera mounting section 2 is attached to one end of the cross rail member 8b.
[0119]
The cross rail member 8b moves vertically so that the camera mounting portion 2 is positioned on an arc centered on the head of the subject 7 in accordance with the upward or downward movement along the vertical rail member 8a. It moves in a direction substantially orthogonal to the member 8a. Further, in this modified example, the camera mounting unit 2 causes the camera lens of the camera 6 to capture the head direction of the subject 7 in accordance with the upward or downward movement of the cross rail member 8b along the vertical rail member 8a. Thus, the camera has a mechanism for changing (tilting) the angle of the camera 6.
[0120]
By moving the cross rail member 8b in this manner, the same function as that of the rail portion 3 described with reference to FIGS. 1 to 3 is performed by using the vertical rail member 8a, the cross rail member 8b, and the support member 8c. Can be realized.
[0121]
(Operation / Effect of Motion Control Device, Operation Information Generation Device, and Operation Information Generation Program According to Present Embodiment)
According to the motion control device, the operation information generation device, and the operation information generation program according to the present embodiment described above, the camera mounting unit 2 on which the camera 6 is mounted and the center line of the object mounting unit 1 rotate about the rotation axis. Since the position and angle of the camera 6 are determined by the rail portion 3 to be formed, the structure is simple, so that the device can be reduced in size and weight, and excellent portability can be provided. Further, according to the present embodiment, the subject mounting section 1, the rail section 3, the leg section 5 and the like can be easily disassembled and assembled, and the rail section 3 can be disassembled into a plurality of parts, so that the portability of the apparatus is further improved. Can be improved.
[0122]
According to the present embodiment, since the control information storage unit 18 of the control box 10 stores control information for the motion control device, a series of operations of the camera 6 can be reproduced.
[0123]
Further, by utilizing the portability and reproducibility of the operation of the camera 6 provided in the motion control device according to the present embodiment, it is possible to perform the program or the like without moving the performer to a location or the like. An active video (moving image) can be created by image synthesis processing as if shooting at a location. Further, according to the present embodiment, it is possible to reproduce the control information for the excellent camera 6 inputted by an excellent photographer at a necessary place at a necessary time, thereby avoiding dispatch of the photographer to a local broadcasting station or the like. can do.
[0124]
According to the present embodiment, since the communication unit 19 included in the control box 10 transmits and receives control information, a plurality of motion control devices are connected to another motion control device via the communication network such as a dedicated line. The operation can be performed synchronously based on the control information. By utilizing this function, as shown in the second embodiment, it is possible to create a moving image with a sense of realism as if photographed in the same place without calling the performers to the same place. It becomes possible.
[0125]
According to the present embodiment, based on the operation information for the camera 6 acquired by the operation information generation device 40, a pseudo image of the subject 7 to be photographed is displayed, and a control box is displayed based on the acquired operation information. Since the control information for 10 is generated, even an operator without specialized knowledge can easily handle the motion control device.
[0126]
Further, according to the present embodiment, since the manufacturing cost and the use cost can be suppressed as compared with the conventional motion control device, the conventional motion control device cannot be used due to budgetary restrictions. Even in programs and the like, it is possible to produce programs utilizing effective video (moving images) by the motion control device.
[0127]
【The invention's effect】
As described above, according to the present invention, a motion control device for a camera which is excellent in portability by being reduced in size and weight and is easy to operate, an operation information generation device for generating operation information thereof, and an operation information generation Program can be provided.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of a motion control device according to an embodiment of the present invention.
FIG. 2 is a plan view and a front view of the motion control device according to the embodiment of the present invention.
FIG. 3 is a left side view and a front view of the motion control device according to the embodiment of the present invention.
FIG. 4 is a block diagram showing a logical configuration of a control box of the motion control device according to the embodiment of the present invention.
FIG. 5 is a logical block configuration diagram of the operation information generation device according to the embodiment of the present invention.
FIG. 6 is a diagram showing an example of an operation screen of the operation information generation program according to the embodiment of the present invention.
FIG. 7 is a diagram showing an example of use of the motion control device according to the embodiment of the present invention.
FIG. 8 is a diagram showing an example of use of the motion control device according to the embodiment of the present invention.
FIG. 9 is a diagram showing a modified example of the motion control device according to the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Subject mounting part, 2 ... Camera mounting part, 2a ... Pan control motor, 2b ... Tilt control motor, 2c ... Roll control motor, 3 ... Rail part, 4 ... Theta-axis motor, 5 ... Leg part, 6 ... Camera , 7 subject, 8a vertical rail member, 8b cross rail member, 8c support member, 10 control box, 11 θ axis control unit, 12 Z axis control unit, 13 focus control unit, 14 zoom Control unit, 15: Pan control unit, 16: Tilt control unit, 17: Roll control unit, 18: Control information storage unit, 19: Communication unit, 20: Operation box, 22: Emergency button, 31a: Z-axis motor, 31b ... rollers, 32a ... focus control motor, 32b ... zoom control motor, 33 ... camera lens control module, 40 ... operation information generation device, 41 ... joystick, 42 ... operation Information acquisition unit, 43 control information generation unit, 44 pseudo image generation unit, 45 storage unit, 46 transmission unit, 47 display unit, 60 operation screen, 61 operation key unit, 62 state display unit, 63: pseudo image display unit

Claims (12)

A motion control device that continuously changes the position of a camera that shoots a subject,
A subject mounting portion on which the subject is mounted,
A camera mounting portion to which the camera is mounted,
A rail section that supports the camera mounting section, and that can move the camera mounting section to an arbitrary position on a circular orbit formed around the subject by rotating about the center line of the subject mounting section as a rotation axis. ,
A control unit for controlling rotation of the rail unit so that the rail unit can move to an arbitrary position. The camera mounting portion is configured to be movable to an arbitrary height along the rail portion,
The motion control device according to claim 1, wherein the control unit controls the movement of the camera mounting unit so that the subject can be photographed from an arbitrary height. The motion control device according to claim 1, wherein the rail portion has a structure in which a distance between the subject and the camera mounting portion is constant. The motion control device according to claim 1, wherein the rail portion has an arcuate shape. A vertical rail member that stands upright in a direction substantially perpendicular to the subject mounting portion;
An intersecting rail member that is engaged in a state of intersecting the vertical rail member in a substantially orthogonal direction, moves along the vertical rail member, and moves in the approximately orthogonal direction with respect to the vertical rail member,
A support member that rotatably supports the vertical rail member around a center line of the subject mounting portion as a rotation axis,
The motion control device according to claim 2, wherein the camera mounting unit is engaged with the cross rail member. The camera mounting unit has a mechanism for changing the focus or zoom ratio of the camera,
3. The motion control device according to claim 1, wherein the control unit further controls a focus or a zoom ratio of the camera with respect to the camera mounting unit. 4. The camera mounting unit further has a mechanism for panning or tilting the camera,
The motion control device according to claim 1, wherein the control unit further controls panning or tilting of the camera with respect to the camera mounting unit. The camera mounting unit further has a mechanism for rolling the camera,
3. The motion control device according to claim 1, wherein the control unit further controls a roll of the camera with respect to the camera mounting unit. 4. The motion control device according to claim 1, further comprising a storage unit configured to store control information for the rail unit or the camera mounting unit. 3. The motion control device according to claim 1, further comprising a communication unit configured to transmit and receive control information for the rail unit or the camera mounting unit. 4. A camera operation information generation device that generates operation information for a motion control device that continuously changes a position of a camera that captures an object,
The motion control device,
A subject mounting portion on which the subject is mounted,
A camera mounting portion to which the camera is mounted,
A rail portion that supports the camera mounting portion, the camera mounting portion can be moved to an arbitrary position on a circular orbit formed around the subject by rotation around a center line of the subject mounting portion as a rotation axis,
Control means for controlling the rotation of the rail portion,
The camera mounting portion is configured to be movable to an arbitrary height along the rail portion,
The operation information generation device,
An operation information acquisition unit that acquires information on a desired operation for the rail unit or the camera mounting unit,
A control information generation unit that generates control information for the control unit based on the acquired operation information,
A pseudo video display unit that generates and displays a pseudo video of the subject that is photographed by operating the rail unit or the camera mounting unit, based on the control information generated by the control information generation unit,
A transmitting unit that transmits the control information generated by the control information generating unit to the motion control device. A camera operation information generation program that causes a computer to execute a process of generating information of an operation for a motion control device that continuously changes a position of a camera that captures an object,
The motion control device,
A subject mounting portion on which the subject is mounted,
A camera mounting portion to which the camera is mounted,
A rail portion that supports the camera mounting portion, the camera mounting portion can be moved to an arbitrary position on a circular orbit formed around the subject by rotation around a center line of the subject mounting portion as a rotation axis,
Control means for controlling the rotation of the rail portion,
The camera mounting portion is configured to be movable to an arbitrary height along the rail portion,
The operation information generation program includes:
Operation information acquisition processing for acquiring information on a desired operation for the rail section or the camera mounting section,
A control information generation process of generating control information for the control unit based on the acquired operation information;
Based on the control information generated by the control information generation process, a pseudo video display process of generating and displaying a pseudo video of the subject captured by operating the rail unit or the camera mounting unit,
A transmission process of transmitting the control information generated by the control information generation process to the motion control device.

Images