JP5044962B2 - Projection apparatus, projection method, and program - Google Patents

Description

  The present invention relates to a projection apparatus, a projection method, and a program, and more particularly, to a projection apparatus, a projection method, and a program used during presentation.

2. Description of the Related Art Conventionally, an image display device such as a projection device that projects an image on a screen or the like has been developed to adjust the brightness of a subtitle portion in accordance with the brightness per unit time of an image (for example, Patent Documents). 1). When such a device is applied as a projection device for presentation, it is possible to project each image with a brightness at which the character portion is easily visible, so that it can be presented to the audience in an easy-to-understand manner.
JP 2004-177722 A

  Here, since the presentation time for each presentation was decided at the time of presentation, each presenter had to give a presentation while paying attention to the passage of time. If we were making announcements while projecting document images while checking the passage of time, we were obstructing smooth announcements.

  An object of the present invention is to make it possible to assist smooth presentation by notifying time allocation for each material page for presentation.

The projection device according to the invention of claim 1
An informing means for informing the user of predetermined information;
An input means connected to an external device to input material data as material for presentation;
Storage means for storing article data which is input to the input means,
Analyzing means for analyzing the document data of the storage means for each page format;
Priority setting means for setting the priority of each page;
Importance level setting means for setting the respective importance levels of the evaluation for each format of each page analyzed by the analysis means and the priority levels of the respective pages set by the priority setting means,
Projection time determining means for determining the projection time of each page based on the evaluation for each format of each page, the priority of each page, and the importance;
Projection means for projecting each page based on the material data of the storage means;
Control means for controlling the projection means and the notification means based on the projection data determined by the material data of the storage means and the projection time determination means ,
The control means controls the projection means to project each page of the material data, and causes the notification means to notify the projection time of each page .
According to a second aspect of the present invention, in the projection device according to the first aspect,
An importance setting means for setting each importance of the evaluation of each format of each page analyzed by the analysis means and the priority of each page set by the priority setting means;
The projection time determination means determines the projection time of each page based on the evaluation for each format of each page, the priority of each page, and the importance.

According to a third aspect of the present invention, in the projection apparatus according to the first aspect,
The storage means further stores a presentation presentation time by the material data,
The projection time determining means allocates the presentation time for each page based on the evaluation for each format of each page, the priority and importance of each page, and determines the projection time for each page. ,
The control means controls the projection means to project each page based on each page of the material data and the projection time of each page .

Invention of Claim 4 is a projection apparatus as described in any one of Claims 1-3,
A registration means for inputting the announcement time is provided.

The invention according to claim 5 is the projection apparatus according to claim 3 or 4 ,
The announcement time is input from the external device through the input means.

Invention of Claim 6 is a projection apparatus as described in any one of Claims 1-5 ,
The control means compares the projection time of each page with the announcement time of the projected page, and controls the notification unit to notify the comparison result.

The invention according to claim 7 is the projection device according to any one of claims 1 to 6 ,
The notifying means performs notification by displaying predetermined data on a display unit provided separately from the projection screen.

Invention of Claim 8 is a projection apparatus as described in any one of Claims 1-6,
The notification means performs notification by projecting predetermined data superimposed on the material data.

A projection method according to the invention of claim 9 is:
An input process in which material data that is material for presentation is input,
A storage step of storing the article data entered in the input step,
An analysis step of analyzing the evaluation for each format of each page of the document data in the storage step;
A priority setting step for setting the priority of each page;
A projection time determination step for determining the projection time of each page based on the evaluation for each format of each page and the priority of each page;
A projection step of projecting each page based on the material data stored in the storage step;
When each page of the material data is projected by the projecting step, a notifying step of notifying the projection time of each page is provided.

The program according to claim 10 is stored in a computer.
Input steps in which the material data is the documentation for the presentation is input,
Storing steps for storing article data which is input to the input step,
Analysis steps for the material data of the storage step to analyze the evaluation of each format of each page,
Priority setting steps to set the priority of each page,
Projection time determination steps for determining the projection time of each page based the on the priority rating with each page for each format of each page,
Projection steps for projecting each page based on the article data of said storing step,
As each page of the document data by the projection step is projected, it is characterized in Rukoto to execute the notification steps of notifying the projection time of each page.

According to the present invention, when an image based on each page of the document data is projected, the projection time is notified by the notification unit, so that the projection time can be confirmed without looking at a wristwatch or the like at the time of presentation. , Can help with a smooth presentation.
In particular, if the comparison result between the projection time of the image of each page and the distribution time of the projected page is informed, the time confirmation operation performed by the presenter can be omitted, and a smoother presentation can be made. It is possible to assist.
In addition, each page is analyzed based on the material data, and the presentation time is allocated based on the analysis result, so that the presenter makes an announcement suitable for the contents of each page without deciding the time allocation of each page. Time will be allocated.

  Embodiments according to the present invention will be described below with reference to the drawings. The projection apparatus according to the present embodiment includes a notification unit that notifies a user of predetermined information, an input unit that is connected to an external device and that receives input of document data of a plurality of pages, and a presentation. An image is projected based on the registration unit in which the announcement time of the tenon is registered, a storage unit that stores the document data input to the input unit and the presentation time registered in the registration unit, and the document data in the storage unit A projection unit and a control unit that controls the projection unit and the notification unit based on the document data in the storage unit and the presentation time are provided. Then, the control unit analyzes the document data in the storage unit for each page, and after allocating the presentation time for each page based on the analysis result, controls the projection unit, and controls each page of the document data. The base image is projected, the projection time of the image of each page is compared with the distribution time of the projected page, and the notification unit is controlled to notify the comparison result.

  The projector according to the present invention will be specifically described. FIG. 1 shows an external configuration of a projector device as a projection device. FIG. 1A is a perspective view showing an upper side of the projector device, and FIG. 1B is a perspective view showing a lower side of the projector device.

  As shown in FIG. 1, the projector device 10 is provided with a projection lens 12, two pairs of distance measuring lenses 13 a, 13 b, 13 c, 13 d and an Ir transmission / reception unit 14 on the front surface of a rectangular parallelepiped main body casing 11. .

  The projection lens 12 is for projecting a light image formed by a spatial optical modulation element such as a micromirror element to be described later. Here, the focus position and the zoom position (projection angle of view) can be arbitrarily changed. Shall.

  Of the two pairs of distance measuring lenses 13a, 13b, 13c, and 13d, the pair of distance measuring lenses 13a and 13b are disposed along the vertical direction, and the other pair of distance measuring lenses 13c and 13d are horizontally aligned. It is arranged along. These distance measuring lenses 13a, 13b, 13c, and 13d constitute part of phase difference sensors 131 and 132, which will be described later, respectively, and are based on the principle of triangulation based on the parallax between these two lenses with respect to the subject image. Then, the distance to the subject, specifically, the distance to the projected image plane is measured.

  The Ir transmission / reception unit 14 receives infrared light on which a key operation signal from a remote controller 40 described later is superimposed and transmits an instruction signal to the remote controller 40.

A cover 17 and an indicator 15 are disposed on the upper surface of the main body casing 11.
The cover 17 is opened and closed when operating a main body subkey (not shown). The main body sub key can operate various detailed operations that cannot be set by the key of the indicator 15 without using the remote controller 40.

  An input unit 18, an Ir transmission / reception unit 19, and an AC adapter connection unit 20 are disposed on the back surface of the main body casing 11.

  An input unit (input means) 18 includes, for example, a USB terminal for video input / output connection with an external device such as a personal computer, a mini D-SUB terminal for video input, an S terminal and an RCA terminal, and an audio input terminal. It consists of a stereo mini jack. The input unit 18 is connected to an external device such as a PC, and receives material data of a presentation material created by the external device. This material data is composed of a plurality of pages. Each page is formed of an image portion G and a text portion T or an arrow Y as shown in FIGS. 2 (a) and 2 (b), for example. Each of these pages constitutes material data as digital data. Each document data is registered in advance with a priority for each page.

  As shown in FIG. 1, the Ir transmission / reception unit 19 receives the infrared light on which the key operation signal from the remote controller 40 is superimposed and transmits an instruction signal to the remote controller 40 in the same manner as the Ir transmission / reception unit 14. To do.

  The AC adapter connection unit 20 is connected with a cable from an AC adapter (not shown) serving as a power source.

A pair of fixed legs 21 and 21 are attached to the lower surface of the main body casing 11 on the rear side, and an adjustment leg 22 capable of height adjustment is attached to the front side.
The adjustment leg 22 is configured to adjust the vertical component of the projection direction of the projection lens 12, that is, the elevation angle, by manipulating the screw rotation position manually.

  Next, the indicator 15 will be described with reference to FIG. FIG. 3 is an explanatory diagram showing the key arrangement of the indicator 15 and the like. As shown in FIG. 3, the indicator 15 includes a power key 15a, a zoom key 15b, a focus key 15c, an “AFK” key 15d, an “Input” key 15e, an “Auto” key 15f, and a “menu”. ”Key 15 g,“ Time ”key 15 h,“ HELP ”key 15 i,“ Esc ”key 15 j,“ Up (↑) ”key 15 k,“ Down (↓) ”key 15 l,“ Left (←) ”key 15 m,“ A “write (→)” key 15n and an “Enter” key 15o, a power / standby indicator 15p, a temperature (TEMP) indicator 15q, and a time display unit 15r are provided.

The power key 15a instructs on / off of the power.
The zoom key 15b instructs zoom-in (tele) and zoom-down (wide) by operating “Δ” and “▽”.

The focus key 15c instructs to move the in-focus position forward and backward by the operation of “Δ” and “▽”.
The “AFK” key 15d instructs immediate execution of various processes such as automatic focusing.

  The “Input” key 15 e instructs manual switching of the image signal input to any of the input units 18, and the “Auto” key 15 f automatically switches the image signal input to any of the input units 18. Instruct.

The “menu” key 15g instructs display of various menu items related to the projection operation, and the “Time” key 15h instructs the start of analysis processing for displaying the presentation time at the time of presentation.
The “HELP” key 15i instructs display of various help information when the instruction operation is unknown, and the “Esc” key 15j instructs release of the operation at that time.

  The “up” key 15k, the “down” key 15l, the “left” key 15m, and the “right” key 15n are operated in accordance with a menu item, a pointer, a cursor, or the like when a selection or movement direction is instructed at that time. In addition to these, an “up” key 15k, a “down” key 15l, a “left” key 15m, and a “right” key 15n are used to input the presentation presentation time, and to page the projected image. Is operated. As described above, the “up” key 15k, the “down” key 15l, the “left” key 15m, and the “right” key 15n are registration means according to the present invention in which the presentation presentation time is registered. The presentation time may be input from an external device via the input unit 18.

The power / standby indicator 15p displays a power on / off state and a state in which no image signal is input, for example, by turning on / off or blinking green and red LEDs.
The temperature indicator 15q displays whether or not the temperature of a lamp serving as a light source for image projection is in a state suitable for projection, for example, by turning on / off or blinking green and red LEDs.

  The time display unit 15r is a notifying unit according to the present invention, and is for notifying the presenter of the time at the time of presentation, and includes, for example, an LED.

Next, the remote controller 40 will be described. FIG. 4 is an explanatory diagram showing the key arrangement and the like of the remote controller 40. As shown in FIG. 4, similarly to the indicator 15, the remote controller 40 includes a power key 40a, a zoom key 40b, a focus key 40c, an “AFK” key 40d, an “Input” key 40e, and “Auto”. ”Key 40f,“ menu ”key 40g,“ Time ”key 40h,“ HELP ”key 40i,“ Esc ”key 40j,“ Up (↑) ”key 40k,“ Down (↓) ”key 40l,“ Left (← ) ”Key 40m,“ write (→) ”key 40n and“ Enter ”key 40o, and a time display section 40r.
Each of these keys outputs an instruction similar to each key of the corresponding indicator 15.

  FIG. 5 is a block diagram illustrating a functional configuration of the electronic circuit of the projector device 10. As shown in FIG. 5, the projector device 10 includes a projection unit (projection unit) 50 that projects an image. The projection unit 50 includes a display encoder 33, a video RAM 34, a display drive unit 35, a display element 36, a light source unit 37, the projection lens 12, and a lens motor (M) 38.

FIG. 6 is a block diagram illustrating a specific schematic configuration of the projection unit 50.
The light source unit 37 includes a light source lamp 61, a reflector 62 that reflects light emitted from the light source lamp 61 in a direction for condensing the light forward, and a luminance distribution of light emitted forward of the reflector 62. A light guide member 63 is provided.

  The light guide member 63 is made of a transparent rectangular bar made of glass or the like, and has one end as an incident end of light and the other end as an exit end of light incident from the incident end. The light guide member 63 is disposed with its incident end opposed to the exit surface of the reflector 62. The light emitted from the incident end is incident on the front side of the reflector 62, and the light is guided while being reflected internally. Light having a uniform luminance distribution is emitted from the emission end.

  In addition, the color wheel 64 disposed on the emission side of the light source unit 37 is arranged around the central member 67 rotated at a low speed by the motor 65 in the circumferential direction thereof, and includes at least one space part without the color filters and the color filter. Are provided. The color wheel 64 has its wheel surface aligned with the condensing point of the emitted light from the light source unit 37, and a part of the circumference in which the color filters and the spaces of the plurality of colors are arranged is the optical path of the emitted light from the light source unit 37. It is arranged to intersect.

  The display element 36 is a micromirror element made of ultrathin metal pieces each having a vertical and horizontal width of 10 to 20 μm. The micromirror element has a display area in which a plurality of pixels formed by micromirrors tilted in one direction and the other by a mirror drive element based on COMS are arranged in a row direction and a column direction. The light incident at a predetermined incident angle from the incident direction inclined in one direction with respect to the front direction is reflected in one of the display observation direction and the other direction by switching the inclination direction of the micromirror, and a plurality of An image is displayed by controlling the emission of light from the pixel in the observation direction.

Between the display element 36 and the light source unit 37, a light source side lens 71 that corrects the emitted light from the light source unit 37 in parallel and enters the display element 36 is disposed. The projection lens 12 projects light emitted from the display element 36 in the observation direction on a projection surface such as a screen by enlarging the luminous flux.
In the present embodiment, each of the light source side lens 71 and the projection lens 12 is illustrated as a single lens, but each of the light source side lens 71 and the projection lens 12 includes a plurality of lenses in order to reduce lens aberration. It is configured by combining.

Further, the display driving unit 35 that controls the display element 36 is synchronized with the rotation of the color wheel 64 when the color filter of each color of the color wheel passes through the optical path of the emitted light from the light source unit 37. A single color image of a color component corresponding to each color is displayed on the display element 27, and light from a plurality of pixels of the display element 37 is displayed when the space portion of the color wheel 64 passes through the optical path of the emitted light from the light source unit 37. Adjust the emission time.
The display drive unit 35 includes a color wheel control unit 68, a time division drive circuit 69, and a color sequence control circuit 70.

  The color wheel control unit 68 controls a motor 65 that rotates the color wheel 64 in synchronization with a timing signal given from the time-division drive circuit 69. The motor 65 is controlled by the color wheel control unit 68, The color wheel 64 is rotated at a constant speed.

  The time-division drive circuit 69 gives a timing signal to the color wheel control unit 68 according to the display mode signal sent from the color sequence control circuit 70, and each of red, green, and blue color components given from an external circuit (not shown). A monochrome image signal W is generated by matrix calculation based on the monochrome image signals R, G, and B, and the monochrome image signals R, G, and B of the respective color components of red, green, and blue are synchronized with the rotation of the color wheel 64. And the monochrome image signal W are sequentially supplied to the display element 36.

  That is, the time division drive circuit 69 corresponds to the color of the color filter when the color filter of the color wheel 64 passes through the optical path of the emitted light from the light source unit 37 in synchronization with the rotation of the color wheel 64. The monochrome image signals R, G, and B of the color component are supplied to the display element 36 to display a monochrome image, and when the space portion of the color wheel 64 passes the optical path of the emitted light from the light source unit 37, the monochrome image signal W is supplied to the display element 36 to control light emission from a plurality of pixels of the display element 36.

  Further, the time-division drive circuit 69 adjusts the supply time of the monochrome image signal W to the display element 36 in accordance with the display mode signal from the color sequence control circuit 70, and during the supply time of the image signal W, the display element A monochrome image corresponding to the monochrome image signal W is displayed on 36.

  That is, the time-division drive circuit 69 determines the light emission time from the plurality of pixels of the display element 36 when the space portion of the color wheel 64 passes through the optical path of the light emitted from the light source unit 37. Adjust according to the supply time.

  In this embodiment, as described above, the emitted light from the light source unit 37 is changed in the order of green light, blue light, red light, and non-colored light while the color wheel 64 rotates once. Therefore, the time-division drive circuit 69 supplies the display element 36 with a green monochrome image signal, a blue monochrome image signal, a red monochrome image signal, and a monochrome image signal in order.

  The color sequence control circuit 70 sends a display mode signal for designating the brightness of the projection image selected by the user of the projection display device to the time division drive circuit 69.

  As shown in FIG. 5, image signals of various standards input from the input unit 18 of the projector device 10 and image signals based on material data in the storage unit (storage unit) 60 are input / output interfaces (I / F). 31) After being unified into an image signal of a predetermined format by the image conversion unit 32 via the system bus SB, it is sent to the display encoder 33.

  The display encoder 33 develops and stores the transmitted image signal in the video RAM 34, generates a video signal from the stored contents of the video RAM 34, and outputs the video signal to the display drive unit 35.

  The display drive unit 35 controls the display element 36 as described above at an appropriate frame rate, for example, 30 [frames / second] in accordance with the transmitted image signal.

  The projection lens 12 is driven by a lens motor (M) 38 to appropriately move the zoom position and the focus position. A control unit (control means) 39 controls all the operations of the circuits. The control unit 39 includes a CPU, a ROM that stores an operation program fixedly, a RAM that is used as a work memory, and the like.

The control unit 39 is connected to the storage unit 60, the sound processing unit 41, the acceleration sensor 42, the distance measurement processing unit 43, and the time display unit 15r via the system bus SB.
The storage unit 60 is composed of, for example, a flash memory, and stores image data such as material data for presentation materials, registered presentation times, projection times of images of each page of the material data, and the like. The image data instructed in the above is appropriately read out and sent to the display encoder 33, and these images are projected and displayed by the projection lens 12.

The sound processing unit 41 includes a sound source circuit such as a PCM sound source, converts the sound data given during the projection display operation into an analog signal, and drives the speaker 16 to emit a loud sound.
The acceleration sensor 42 detects the vibration when the projector device 10 is moved from the installed state, and outputs a detection signal to the control unit 39.

  The distance measurement processing unit 43 drives the phase difference sensor 131 having the distance measurement lenses 13a and 13b and the phase difference sensor 132 having the distance measurement lenses 13c and 13d, respectively, to reach an arbitrary point position in the projected image. Measure distance.

  When a key operation signal is input to the control unit 39 by the indicator 15 or the remote controller 40, the control unit 39 controls each drive unit based on the signal.

  Specifically, when the presentation presentation time is input from the “up” key 15k, the “down” key 15l, the “left” key 15m, and the “right” key 15n, the control unit 39 controls the storage unit 60. Remember the announcement time. When material data is input to the input unit 18 from an external device, the control unit 39 controls the storage unit 60 to store the material data.

When an analysis start instruction for displaying the presentation time is input from the “Time” keys 15h and 40h, the control unit 39 analyzes the material data for each page. At the time of analysis, the control unit 39 extracts an image portion, a text portion, and an arrow portion based on the data for each page, and calculates the total number of those entire pages.
Here, for example, when the data for each page is a combination of text data, image data, and arrow data, the control unit 39 extracts each part by identifying data in each format format. It has become. On the other hand, when the entire page is image data, the image data is analyzed by OCR to classify and extract the text portion, the image portion, and the arrow portion.
After the extraction, the control unit 39 detects the number of characters in the character part, the number of images in the image part, and the number of arrows in the arrow part. At this time, in this embodiment, the evaluation is made in five stages based on the quantity detected in each item. As each evaluation criterion, it is preferable that an appropriate criterion is used for each of the character portion, the image portion, and the arrow portion.

The total number per page of the image part, the text part, and the arrow part is obtained by the analysis, and when evaluation is possible, the control unit 39 announces each page based on the analysis result and the priority for each page. Allocate time. For example, the image part evaluation stage is L1, the text part evaluation stage is L2, the arrow part evaluation stage is L3, and the priority evaluation stage is L4, and the total number _Pn per page is calculated for each page. Here, each evaluation has importance. If the importance of the image part is i1, the importance of the text part is i2, the importance of the arrow part is i3, and the importance of the priority is i4, each importance level is multiplied by each importance level and added to each page. the total number P _n is calculated in _{(P n = L1 × i1 +} L2 × i2 + L3 × i3 + L4 × i4). This is obtained for each page, and these are integrated to obtain the total number A of the entire document data (A = P ₁ + P ₂ +... + P _n ). Then, the ratio W _{n of} each page is calculated from the total number P _n per page and the total number A from the entire document data (W _n = P _n / A). By multiplying the ratio W _n by the pre-registered announcement time T, the announcement time is distributed for each page (t _n = T × W _n ).

Hereinafter, specific examples of time distribution by analysis will be described.
The importance i1 of the character part is 3, the importance i2 of the image part is 2, the importance i3 of the arrow part is 1, the importance of the priority is 5, and the presentation time is 30 minutes. When the material data is analyzed, the presentation time t _{n for} each page is as shown in Table 1.

  Then, when the time distribution is determined, the control unit 39 controls the projection unit 50 to project an image based on each page of the document data. At this time, the projection time of the image of each page is compared with the allocation time of the projected page, and the comparison result is notified to the time display units 15r and 40r. In this embodiment, as a comparison result, a value obtained by subtracting the projection time from the allocated time, that is, the remaining time is displayed on the time display units 15r and 40r.

  Next, the operation of this embodiment will be described. FIG. 7 is a flowchart showing an example of a program according to the present invention that is executed by the projector device 10 of the present embodiment. By executing this program, the projection method according to the present invention is realized.

When an analysis process start instruction is input from the “Time” key 15h, the control unit 39 executes the program.
In step S1 of FIG. 6, the control unit 39 determines whether or not material data is input to the input unit 18. If it is input, the control unit 39 proceeds to step S2, and if it is not input, it remains as it is. In the state (input step, input process).

  In step S2, the control unit 39 determines whether or not a registration time has been registered. If the registration time has not been input, the control unit 39 stands by as it is. If it has been registered, the control unit 39 proceeds to step S3.

  In step S3, the control unit 39 controls the storage unit 60 to store the material data input in step S1 and the presentation time registered in step S2 (storage step, storage process).

  In step S <b> 4, the control unit 39 executes analysis processing based on the registration time and the document data in the storage unit 60, distributes the presentation time for each page of the document data, and stores the time in the storage unit 60. (Time allocation step, time allocation process, storage step, storage process).

In step S5, the control unit 39 controls the projection unit 50 to project the first page image of the material data.
In step S6, the control unit 39 controls the time display units 15r and 40r to compare the image projection time with the allocation time of the page and display the remaining time of the page (notification step, notification process).

  In step S7, the control unit 39 determines whether or not a page turning instruction is input from the “up” key 15k, “down” key 15l, “left” key 15m, and “right” key 15n. If YES in step S8, the process advances to step S8. If not input, the process advances to step S6.

  In step S8, the control unit 39 determines whether or not the currently projected image is the last page in the document data. If it is the last page, the process proceeds to step S9. The process proceeds to step S10.

  In step S9, the control unit 39 controls the projection unit 50 to stop the projection of the image, and the process ends.

  In step S10, the control unit 39 controls the projection unit 50 to project the image of the next page in the material data, and proceeds to step S6.

As described above, according to the present embodiment, since the projection time of the image of each page is notified, the time confirmation operation performed by the presenter himself can be omitted. As a result, smooth presentation can be assisted. In particular, each page is analyzed based on the material data, and the presentation time is allocated based on the analysis result. Therefore, even if the presenter does not decide the time allocation of each page, the presentation is suitable for the contents of each page. Time will be allocated.
Further, since the remaining time of the presentation of each page is displayed on the indicator 15 and the time display portions 15r and 40r of the remote controller 40, only the presenter can recognize the remaining time without notifying the audience. .

Of course, the present invention is not limited to the above-described embodiment and can be modified as appropriate.
For example, in the present embodiment, a projector device as a front projector is described as an example, but the present invention can also be applied to a rear projector.
In this embodiment, the case where the presentation time of all pages of the document data is allocated based on the analysis result has been described as an example. However, the presentation time is directly registered for a specific page. Also good. In such a case, the control unit 39 distributes the presentation time of other pages based on the value obtained by subtracting the presentation time of a specific page from the overall presentation time and the analysis result of other pages. As a result, the presentation time requested by the presenter can be set for a specific page.

  Further, in the present embodiment, the case where the remaining time is displayed on the time display units 15r and 40 is illustrated, but it is also possible to display the remaining time so as to overlap the projected image. Thereby, it is possible to reduce the cost without providing a display unit, and the presenter usually explains while looking at the projection screen, so that it is possible to prevent omission of confirmation of the remaining time. Moreover, since the audience sees the projected image together with the presenter, the audience can also listen while grasping the remaining time of the presentation.

  It is also possible to change the display color and the background color according to the remaining time remaining amount. For example, it may be displayed in orange when the remaining time is less than 1 minute, and displayed in red when the remaining time is less than 0. In this way, if the notification is performed by projecting the remaining time remaining amount (predetermined data) superimposed on the document data, the approximate remaining time can be confirmed at a glance without reading the remaining time, and smoother. Announcement is possible.

  When the remaining time becomes 0 or less, the elapsed time may be notified by a minus display. This makes it easy to see how much time has passed the schedule. Further, the remaining time display may be configured such that the remaining time of the entire presentation is displayed side by side with the remaining time of the page. As a result, it is possible to make a presentation with a clearer awareness of the remaining time.

  In the present embodiment, the time display units 15r and 40r that perform visual notification have been described as examples of the notification unit according to the present invention. However, for example, a speaker or the like that performs auditory notification may be used. This makes it possible to know the remaining time without paying attention to the display section, and it is possible to prevent the remaining time from being missed.

  Further, in the present embodiment, the case where the notification unit is installed not only in the projector built in the projection apparatus but also in the remote controller 40 is exemplified. However, if the remote controller 40 is used, the presenter has the remaining time at hand. It is possible to confirm.

  Further, the priority of each page is assumed to be registered in advance in association with the material data. However, this need not be the case. For example, in the registration step, the priority of each page is registered together with the time registration. The priority may be registered, and the priority is normally input as a constant value (for example, 3), and the priority is changed only when the user feels necessary. The weighting may be changed. By configuring in this way, the user can actually make a presentation and change the priority setting and register the thoughts such as the page that he wants to talk more or the page he wants to skip immediately. It can be reflected in the distribution.

  Of course, the evaluation stage of each item is not limited to five stages, and may be more stages (for example, 500 stages). Thereby, since detailed conditions can be set, appropriate time distribution becomes possible, and it is particularly useful for setting priority.

The priority setting once registered may be configured to be output to an external memory or a PC. This eliminates the hassle of repeating settings for materials that are presented many times.
Further, the function of analyzing the projection image and allocating the presentation time in the present invention does not have to be built in the projection apparatus. For example, it is configured as software installed in a PC connected to the projection apparatus, You may comprise so that material data may be input into a projection apparatus after setting. As a result, the cost of the projection apparatus can be reduced.

  Note that the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the scope of the invention in the implementation stage. Further, the functions executed in the above-described embodiments may be combined as appropriate as possible. The above-described embodiments include various stages of the invention, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, even if several constituent requirements are deleted from all the constituent requirements shown in the embodiment, if an effect is obtained, a configuration from which the constituent requirements are deleted can be extracted as an invention.

1 is a perspective view showing an external configuration of a projector device as a projection device according to the present invention. It is explanatory drawing for demonstrating the content of each page of the material data input into the projector apparatus of FIG. It is explanatory drawing showing the keyboard layout etc. of the indicator with which the projector apparatus of FIG. 1 is provided. It is explanatory drawing showing the keyboard layout etc. of the remote controller with which the projector apparatus of FIG. 1 is equipped. It is a block diagram showing the function structure of the electronic circuit of the projector apparatus of FIG. It is a block diagram showing the specific schematic structure of the projection part with which the projector apparatus of FIG. 1 is provided. It is a flowchart showing an example of the program performed with the projector apparatus of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Main body casing 12 Projection lens 13a, 13b, 13c, 13d Distance measuring lens 14 Transmission / reception part 15 Indicator 15k "Up" key (registration means)
15l "Down" key (registration means)
15m "Left" key (registration means)
15n "Light" key (registration means)
15r time display (notification means)
16 Speaker 17 Cover 18 Input section (input means)
DESCRIPTION OF SYMBOLS 19 Transmission / reception part 20 Adapter connection part 21 Fixed leg part 22 Adjustment leg part 32 Image conversion part 33 Display encoder 34 Video RAM
35 Display Drive Unit 36 Display Element 37 Light Source Unit 38 Lens Motor 39 Control Unit (Control Unit)
40 Remote controller 40k "Up" key (registration means)
40l "Down" key (registration means)
40m "Left" key (registration means)
40n "Light" key (registration means)
40r time display (notification means)
41 Voice processing unit 42 Acceleration sensor 43 Distance measurement processing unit 50 Projection unit (projection means)
60 storage unit (storage means)
61 Light source lamp 62 Reflector 63 Light guide member 64 Color wheel 65 Motor 67 Center member 68 Color wheel control unit 69 Time division drive circuit 70 Color sequence control circuit 71 Optical side lens 131, 132 Phase difference sensor

Claims (10)

An informing means for informing the user of predetermined information;
An input means connected to an external device to input material data as material for presentation;
Storage means for storing the material data input to the input means;
Analyzing means for analyzing the document data of the storage means for each page format;
Priority setting means for setting the priority of each page;
Projection time determining means for determining the projection time of each page based on the evaluation for each format of each page and the priority of each page;
Projection means for projecting each page based on the material data of the storage means;
Control means for controlling the projection means and the notification means based on the projection data determined by the material data of the storage means and the projection time determination means,
The control unit controls the projection unit to project each page of the material data, and causes the notification unit to notify the projection time of each page. An importance setting means for setting each importance of the evaluation of each format of each page analyzed by the analysis means and the priority of each page set by the priority setting means;
2. The projection apparatus according to claim 1, wherein the projection time determining means determines the projection time of each page based on the evaluation for each format of each page, the priority of each page, and the importance. The storage means further stores a presentation presentation time by the material data,
The projection time determining means allocates the presentation time for each page based on the evaluation for each format of each page and the priority of each page, determines the projection time of each page,
The projection apparatus according to claim 1, wherein the control unit controls the projection unit to project each page of the material data and a projection time of each page.   The projection apparatus according to claim 1, further comprising registration means for inputting the announcement time.   5. The projection apparatus according to claim 3, wherein the announcement time is input from the external device via the input unit.   The said control means compares the projection time of each said page with the announcement time of the projected page, and controls the said alerting | reporting part to alert | report the said comparison result. The projection device according to any one of the above.   The projection device according to claim 1, wherein the notification unit performs notification by displaying predetermined data on a display unit provided separately from the projection screen.   The projection device according to claim 1, wherein the notification unit performs notification by projecting predetermined data superimposed on the material data. An input process in which material data that is material for presentation is input,
A storage step of storing the material data input in the input step;
An analysis step of analyzing the evaluation for each format of each page of the document data in the storage step;
A priority setting step for setting the priority of each page;
A projection time determination step for determining the projection time of each page based on the evaluation for each format of each page and the priority of each page;
A projecting step of projecting each page based on the material data of the storing step;
A projection method comprising: a notifying step of notifying a projection time of each page when each page of the material data is projected by the projecting step. On the computer,
Input steps in which the material data is the documentation for the presentation is input,
Storing steps for storing article data which is input to the input step,
Analysis steps for the material data of the storage step to analyze the evaluation of each format of each page,
Priority setting steps to set the priority of each page,
Projection time determination steps for determining the projection time of each page based the on the priority rating with each page for each format of each page,
Projection steps for projecting each page based on the article data of said storing step,
When each page of the document data is projected by the projection step , a notification step for notifying the projection time of each page ,
A program for running

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