JPH11196397A - Display device and communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To always display an image in a state where it is easy to watch whatever attitude is taken by a device by displaying prescribed information with a size determined based on the attitude of a displaying means. SOLUTION: An attitude detection control circuit 107 takes out a detection signal from plural voltage elements of an attitude detection circuit 106 and supplies it to a microcomputer 108. The microcomputer 108 uses the detection signal and a lock-up table that is preliminarily set to get the present inclination of the device and controls the display angle in a display circuit 103 through a display control circuit 104 in accordance with the acquired inclination of the device. Even if the attitude state that holds the device is inclined, the size and the display position are controlled without changing the aspect ratio (vertical to horizontal ratio) of a display area so that the inclination of the display area (area where image information outputted from a storage circuit 101 is actually sown on the screen) of the circuit 103 against the direction of the gravity may always be maintained fixedly in a displayable area of the circuit 103.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device for displaying information such as images and characters, and a communication system including the display device for performing communication between a transmitting side and a receiving side.

[0002]

2. Description of the Related Art Conventionally, a storage function of a magnetic tape, a magnetic disk, a magneto-optical disk, a semiconductor memory or the like for storing information such as images and characters, and a display function for displaying information stored by the storage function have been provided. There is an integrated information display device, for example, an information terminal device such as an electronic book player,
An image device such as a digital camera or a video camera corresponds to this.

[0003] On the other hand, a technology for communicating information such as images and characters using a telephone line or the like is generally implemented. For example, by using a mobile phone together with a modem, digitized image data or the like can be obtained. Techniques for transmitting data to another communication device at a remote place are widely known. Therefore, a communication function of communicating images and characters using a telephone line or wireless transmission of radio waves or infrared rays and a display function of displaying information such as images and characters transmitted and received by the communication function are integrated. There is a portable information device. For example, PHS (Personal
A communication function that transmits and receives not only audio but also image information such as moving images and still images, and a monitor function that displays image information, etc., using a public wireless network such as the Handyphon System). There is a so-called portable videophone in which information is displayed on the screen by the monitor function. In recent years, PDA (Personal Digital Ass
There is a portable information device called an istants), which has a display function of displaying information such as images and characters, similar to a so-called notebook personal computer. Some have a wireless communication function such as

[0004] The portable information device as described above is downsized,
It has become lighter and more portable, and can be easily held with one hand.

[0005]

However, when the conventional portable information device is used by holding it with one hand, the inclination of the device body with respect to the direction of gravity becomes unstable,
When viewing the screen displayed by the display function, there is a problem that it is very difficult to see. In particular, portable videophones and the like are provided with a sound output function such as a speaker for listening to sound from the other party, and it is necessary to bring the ear closer to the portion provided with the sound output function. As a result, the state in which the apparatus itself is held is inevitably restricted, and the display function is used in a tilted state. Therefore, there is a problem that the screen displayed by the display function is very difficult to see. .

Further, in a conventional portable information device, received information is restored and displayed as it is. For example, suppose that information on a pair of image information and character information is communicated between a transmitting side and a receiving side.
At this time, as shown in FIG. 16, when the display function of the transmission-side device 500 is a landscape screen, the image information and the character information are arranged and displayed in a horizontal relationship with each other and displayed. On the receiving side, similarly to the transmitting side device 500, the image information and the character information are arranged so as to be in a horizontal relationship and displayed on the screen. Here, FIG.
As shown in FIG. 7 (A), the receiving-side device 600 has a vertically long screen unlike the transmitting-side device 500, and the image information and the character information are arranged and displayed in a vertical relationship with each other. In this case, the image information and the character information transmitted from the transmitting side are arranged and displayed on the screen in a horizontal relationship to each other similarly to the transmitting side.
As shown in (B), the user is forced to hold the screen so that the screen is horizontally long with respect to the face. Therefore,
In such a situation, if the devices on the transmitting side and the receiving side are of the same type and are of a stationary type instead of a portable type, no problem occurs, but at least the receiving side is a portable type device. In this case, a problem arises in that the user on the receiving side is restricted in how to hold the device.

Therefore, the present invention has been made to eliminate the above-mentioned drawbacks, and the portable information for displaying information to a user in an optimal state on a screen regardless of the holding state of the apparatus. It is an object of the present invention to provide a display device such as a device, and a communication system for performing communication between a receiving side and a transmitting side including the display device.

[0008]

For such a purpose,
A first invention is a display means for displaying predetermined information on a screen, an attitude detection means for detecting an attitude of the display means, and a display means for displaying the predetermined information on a screen on the display means based on a detection result of the attitude detection means. Control means for controlling the size.

A second invention is a display means for displaying predetermined information on a screen, a posture detecting means for detecting a posture of the display means, and a screen display on the display means based on a detection result of the posture detecting means. A control means for controlling the size of the predetermined information is provided in the apparatus main body.

In a third aspect based on the first or second aspect, the predetermined information includes image information.

In a fourth aspect based on the first or second aspect, the predetermined information includes at least first and second information, and the control means controls the at least first and second information on the display means. The display arrangement of the second information is controlled.

In a fifth aspect based on the first or second aspect, the control means further determines a display position of the predetermined information to be displayed on a screen on the display means based on a detection result of the attitude detection means. It is characterized by controlling.

In a sixth aspect based on the first or second aspect, the control means further changes a display direction of the predetermined information to be displayed on a screen on the display means based on a detection result of the attitude detecting means. It is characterized by controlling.

In a seventh aspect based on the fifth or sixth aspect, the attitude detecting means includes an inclination detecting means for detecting an inclination of the apparatus main body with respect to the direction of gravity, and the control means comprises the inclination detecting means. Is controlled so that the predetermined inclination displayed on the screen on the display means is constant with respect to the direction of gravity based on the detection result.

In an eighth aspect based on the first or second aspect, the attitude detecting means includes an inclination detecting means for detecting an inclination of the apparatus main body with respect to the direction of gravity, and the control means includes an inclination detecting means. The magnitude of the predetermined information is controlled in accordance with the detection result of.

According to a ninth aspect of the present invention, a display means for displaying predetermined information including at least image information and character information on a screen, an attitude detection means for detecting an attitude of the display means, and a detection result based on the detection result of the attitude detection means Control means for controlling the display arrangement of each information of the display means.

In a tenth aspect based on the ninth aspect, the attitude detecting means includes an inclination detecting means for detecting an inclination of the apparatus body with respect to the direction of gravity, and the control means comprises:
The display arrangement of the display means is controlled based on the detection result of the inclination detection means.

In an eleventh aspect based on the tenth aspect, the control means makes the direction of the predetermined information displayed on the screen on the display means constant with respect to the direction of gravity based on the detection result of the inclination detecting means. Control as described above.

In a twelfth aspect based on the tenth aspect, the control means controls the size of predetermined information to be displayed on the display means on the basis of a detection result of the inclination detecting means. .

In a thirteenth aspect based on the ninth aspect, the control means further controls the size of predetermined information to be displayed on a screen on the display means.

In a fourteenth aspect based on the ninth aspect, the attitude detecting means includes a determining means for determining whether the apparatus main body is held by the right hand or the left hand,
The control means changes a screen display state of the display means depending on a result of the determination by the determination means depending on whether the display is held by a right hand or a left hand.

A fifteenth invention is a communication system for performing communication of predetermined information between a receiving side and a transmitting side, wherein at least one of the receiving side and the transmitting side is the communication system according to any one of claims 1 to 14. It is characterized by including a display device.

[0023]

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

First, a first embodiment will be described.

The display device according to the present invention is applied to, for example, a display device 100 of a portable communication device as shown in FIG.

As shown in FIG. 1, the display device 100 includes a storage circuit 101 including a storage medium such as a magnetic tape, a magnetic disk, a magneto-optical disk, or a semiconductor memory.
And a storage control circuit 102 for controlling information read / write operation and the like in the storage circuit 101, a display circuit 103 including a liquid crystal display and the like, and image processing for screen display by the display circuit 103 and display operation control thereof. Display control circuit 1
04, a memory 105 used as a display memory for temporarily storing information to be displayed on the screen by the display circuit 103 and an image memory for performing image processing, and a posture detection circuit 106 for detecting a holding state of the apparatus. Attitude detection circuit 106
And a microcomputer (microcomputer) 108 for integrally controlling the storage control circuit 102, the display control circuit 104, the memory 105, and the attitude detection control circuit 107. It has.

In the above-described display device 100, first, the storage control circuit 102 controls the operation of reading out information (here, image information) stored in the storage circuit 101 under the control of the microcomputer 108. Do. At this time, if the image information read from the storage circuit 101 is compressed information, the microcomputer 108 performs a decompression process on the image information. The display control circuit 104
In accordance with the control from the microcomputer 108, display image data to be displayed on the screen by the display circuit 103 is generated from the image information read from the storage circuit 101 or the image information subjected to the decompression processing by the microcomputer 108. The display circuit 103 is controlled so as to display the display data. Therefore, in the display circuit 103, a screen display of the image information read from the storage circuit 101 is performed.

Here, when screen display is performed by the display circuit 103, the posture detection circuit 107
In accordance with the control from 07, the inclination of the device while the user is holding the device is detected. And the microcomputer 10
Reference numeral 8 controls the display angle of the image displayed on the screen by the display circuit 103 in accordance with the detection result (detection signal) of the posture detection circuit 107 provided via the posture detection control circuit 107.

More specifically, for example, the posture detection circuit 107
When a gravity sensor that detects the inclination of the device with respect to the direction of gravity of the earth is used, the configuration of the attitude detection circuit 107 is as shown in FIG. That is, the posture detection circuit 1
07, a plurality of voltage elements 106, as shown in FIG.
a to 106d and a metal ball 106e. The metal ball 106e is always in the direction of gravity G regardless of the inclination of the device.
Is applied to the plurality of voltage elements 1
06a to 106d detect the pressure applied by the metal ball 106e at each location, and output detection signals Sa to Sd. For example, when the device as shown in FIG. 3A is in the normal posture, the weight of the metal sphere 106e is applied to the voltage element 106c by 100%. As shown in FIG. 3B, when the device is tilted by ω with respect to the direction of gravity G, for example, when the device is tilted 45 ° clockwise (ω = 45), the voltage element 106b And 106c each have a metal ball 10
The weight of 6e is applied by 50%. The weights (pressures) of the metal spheres 106e applied to such places are detected as detection signals Sa to Sd by the plurality of voltage elements 106a to 106d. Therefore, these detection signals Sa to
Sd is a metal ball 10 corresponding to the tilt state of the device at that time.
6e shows the pressure distribution.

The detection signals Sa to Sd of the plurality of voltage elements 106a to 106d are extracted by the attitude detection control circuit 107 and supplied to the microcomputer 108. Microcomputer 108
Determines the inclination of the device by using the detection signals Sa to Sd.

Therefore, the microcomputer 108 detects the detection signal Sa
When the inclination of the apparatus is determined (determination of the holding state) by Sd, for example, a look-up table (LUT) as shown in FIG. 4 is used. The look-up table shown in FIG. 4 is, for example, set in the microcomputer 108 in advance, and the inclination ω of the device and the plurality of voltage elements 106 a to 106
It consists of a correspondence table with detection signals Sa to Sd output from d. Therefore, the microcomputer 108 controls the plurality of voltage elements 1
06a to 106d currently output detection signal Sa
ＳSd and the lookup table of FIG. 4 are used to obtain the current inclination ω of the device. And the microcomputer 10
8 is a display circuit 103 according to the acquired inclination ω of the device.
Is controlled via the display control circuit 104.

Hereinafter, the display circuit 10 by the microcomputer 108 will be described.
The control of the display angle in 3 will be specifically described.

The microcomputer 108 has the configuration shown in FIGS.
And (C), the display area of the display circuit 103 (the storage circuit 101
Image information outputted from the actual area displayed on the screen) of 103 ₂ slope against the direction of gravity G, the display circuit 1
Always be kept constant in displayable area 103 within the _first 03, the aspect ratio of the display area 103 ₂ (aspect ratio) without changing to control its size and display position.

That is, a look-up table as shown in FIG. 6 is set in the microcomputer 108 in advance. The look-up table shown in FIG. 6 includes the inclination ω of the device obtained as described above and the display area 103.
_The table is made up of a correspondence table between size ₂ (image size) W and display positions X and Y. Therefore, the microcomputer 108 calculates the current device inclination ω actually obtained as described above.
When, by using the look-up table of FIG. 6, the display area 10 to be actually displayed on the displayable area 103 ₁
3 ₂ of size W and the display position X, obtaining the Y.

For example, as shown in FIG. 5A, when the current inclination (result of determination of the holding state) ω of the apparatus coincides with the gravity direction G, that is, the inclination ω with respect to the gravity direction G becomes “ 0 ° ”(this state is referred to as“ state A ”
The microcomputer 108 calculates the image size W corresponding to the inclination ω = 0 ° according to the lookup table in FIG.
= 100% and its display position x = 0, y = 0. The microcomputer 108, as shown in FIG 5 (A), the vertical and horizontal direction of the displayable area 103 _1, to match the vertical and horizontal direction of the display area 103 _2, the display area 10
3 ₂ sizes (W) is such that conventional the screen display so that 100% of the state of the same, is controlled via a display control circuit 104 to the display circuit 103.

As shown in FIG. 5B,
When the current inclination of the apparatus (resisting state determination result) ω is 45 ° with respect to the gravity direction G, that is, when the inclination ω with respect to the gravity direction G is “45 °” (this state is referred to as “state B”). The microcomputer 108 obtains the image size W = 50% corresponding to the inclination ω = 45 ° and its display position x = 0, y = 50 from the lookup table of FIG. In the case of such a state B, since the display circuit 103 itself is tilted, the microcomputer 108 executes the processing shown in FIG.
As shown in the figure, the size (W) of the display area 103 ₂
But to be reduced from the state of inclination omega = 0 ° (the absence slope) (here, reduced to 50%), and the screen display by tilting the display area 103 ₂ with respect to displayable area 103 ₁ The display circuit 103 is controlled via the display control circuit 104 so as to perform the display (here, the screen is displayed at an inclination based on the display position x = 0, y = 50).

As shown in FIG. 5C,
When the inclination of the current apparatus (resisting state determination result) ω is 90 ° with respect to the gravity direction G, that is, when the inclination ω with respect to the gravity direction G is “90 °” (this state is referred to as “state C”). The microcomputer 108 obtains the image size W = 75% corresponding to the inclination ω = 90 ° and the display position x = 0, y = 100 from the lookup table in FIG. Even in the case of the state C, since the display circuit 103 itself is tilted, the microcomputer 108 performs the operation shown in FIG.
As shown in (C), the size of the display area 103 ₂ (W) is to be reduced from the state of inclination omega = 0 ° (the absence inclination) (here, reduced to 75%), and The screen is displayed on the screen with the display area 103 ₂ inclined with respect to the displayable area 103 ₁ (here, the display position x = 0, y = 1).
The display circuit 103 is controlled via the display control circuit 104 so that the screen is displayed with an inclination based on 00).

[0038] Under the control of the microcomputer 108 as described above, the display circuit 103, apparatus be any holding state, the inclination of the display area 103 ₂ is always kept constant with respect to the gravity direction G. Accordingly, even when the device is held with one hand and used, for example, even if the inclination of the device with respect to the gravitational direction becomes unstable, the user always observes the image displayed on the screen on the display circuit 103 in a good state. can do. In particular, the user can use the device freely and comfortably without any restrictions on how to hold the device.

In the first embodiment described above,
The attitude detecting circuit 107 is a gravity sensor (FIG. 2) for detecting the inclination of the device with respect to the direction of gravity of the earth. However, the present invention is not limited to this, and any means capable of detecting the inclination of the device may be used.
For example, as shown in FIG. 7, the attitude detection circuit 107 includes a plurality of electrodes 106a 'to 106d' and mercury 106e ', and the mercury 106e' functions as a switch to detect the inclination of the device. You may do so.

In the first embodiment, for the sake of simplicity, the inclination of a typical device (ω = 0 °, 4
Although the control of the display angle in the state of 5 ° and 90 ° has been described, a display table (for example, a display table corresponding to ω = 30 ° or the like) corresponding to the inclination ω with respect to the gravitational direction G in the posture holding the apparatus is described. May be provided, and display control may be performed according to the display table. Thus, the tilt of the display screen can be finely corrected, and the tilt of the display screen can always be kept constant in the direction of gravity regardless of the tilt of the apparatus.

[0041] In the first embodiment described above, it is assumed to display an image on the display area 103 ₂ is not limited to this, for example, may be displayed character information. In this case, the font of the character to be displayed is controlled (changed) according to the inclination ω of the device. That is, character size,
It controls the aspect ratio of characters, the thickness of lines constituting the characters, and the like.

Next, a second embodiment will be described.

The display device according to the present invention is applied to, for example, a portable videophone 200 as shown in FIG. 8, and this portable videophone 200 is also one to which the communication system according to the present invention is applied. .

That is, the portable videophone 200 is
It has a function of transmitting and receiving not only sound but also image information such as a moving image and a still image using a public wireless network such as a PHS, and a function of displaying image information transmitted and received by the function.

Therefore, the portable videophone 200 is
As shown in FIG. 8, the antenna 212 provided on the upper portion of the device main body and the speaker 20 provided on the front surface of the device main body.
5, the operation unit 220, the microphone 204, and the posture detection units 217a and 217b respectively provided on both side surfaces of the apparatus main body.
And a display unit 213 provided to be openable and closable with respect to the front surface of the apparatus main body.

As shown in FIG. 9, an imaging circuit 201, an image signal processing circuit 202 connected to the imaging circuit 201, and an image compression circuit connected to the image signal processing circuit 202 are provided inside the portable videophone 200. The expansion circuit 203, the audio signal processing circuit 206 connected to the microphone 204 and the speaker 205, the audio compression / expansion circuit 207 connected to the audio signal processing circuit 206, the communication data control circuit 208, and the communication data control circuit 208 The connected modulation circuit 209 and demodulation circuit 210, the RF circuit 211 connected to the modulation circuit 209 and demodulation circuit 210 and output to the antenna 212, and the display unit 213 (hereinafter, referred to as a display circuit 213). Display control circuit 214, memory 215, and posture detectors 217a and 217a
17b (hereinafter, referred to as a posture detection circuit 217), a posture detection control circuit 218, an image compression / decompression circuit 203,
Audio compression / expansion circuit 207, communication data control circuit 2
08, a display control circuit 214, a memory 215, and a microcomputer 216 connected to the attitude detection control circuit 218.

The operation of transmitting and receiving data in portable videophone 200 as described above will be described first.

(Operation at Data Transmission) First, the image pickup circuit 2
Reference numeral 01 denotes an image of a subject by an imaging lens, an image sensor, or the like (not shown), and generates and outputs an image signal. The image signal processing circuit 202 performs predetermined signal processing on the image signal output from the imaging circuit 201 to generate a video signal. The image compression / expansion circuit 203 compresses the video signal generated by the image signal processing circuit 202 by a predetermined compression method under the control of the microcomputer 216 that controls the entire apparatus. At this time, the memory 215 is used as an image memory for performing a compression process in the image compression / expansion circuit 203.

The memory 215 stores the image compression / decompression circuit 2
03 is used as an image memory for performing compression processing, and is displayed on the screen by the display circuit 213 in the same manner as the expansion processing in the image compression / expansion circuit 203 described later and 105 in the above-described first embodiment. Also used as an image memory for performing image processing.

The audio input from the microphone 204 is given to an audio signal processing circuit 206. The audio signal processing circuit 206 performs predetermined signal processing on the audio from the microphone 204 to generate an audio signal and output the audio signal. I do. The audio compression / expansion circuit 207 is
6, the audio signal processing circuit 206
Is compressed by a predetermined compression method.

Here, the communication data control circuit 208 controls the microcomputer 21 to perform data transmission over the public wireless network.
According to the control from No. 6, protocol control according to a predetermined communication procedure is performed. Therefore, in this case, the communication data control circuit 208 generates transmission data from the video signal compressed by the image compression / decompression circuit 203 and the audio signal compressed by the audio compression / decompression circuit 207 by the above protocol control. Then, the modulation circuit 209
The transmission data generated by the communication data control circuit 208 is modulated and supplied to the RF circuit 209. The RF circuit 209 is
A radio wave of a predetermined frequency is generated from the transmission data from the modulation circuit 209 and transmitted to the receiving side via the antenna 212.

At the same time, the display control circuit 214 operates according to the control from the microcomputer 216, as will be described in detail later.
The video signal (transmission image data) generated by the image signal processing circuit 202 is converted into display data, and
Is displayed on the screen.

(Operation at the time of data reception) First, the RF circuit 2
11 converts the data received by the antenna 212 into an electric signal and outputs the electric signal. The demodulation circuit 210 includes the RF circuit 21
1 is demodulated and supplied to the communication data control circuit 208. The communication data control circuit 208
By the above-described protocol control, the video signal and the audio signal included in the electric signal from the demodulation circuit 210 are extracted.

The image compression / expansion circuit 203
According to the control from No. 6, the video signal extracted by the communication data control circuit 208 is expanded by a method corresponding to the compression method. The display control circuit 214 is controlled by the microcomputer 216 to control the image compression / expansion
The video signal (received image data) expanded in 02 is converted into display data, and displayed on the screen by the display circuit 213.

The audio compression / decompression circuit 207
Under the control of the microcomputer 216, the audio signal extracted by the communication data control circuit 208 is expanded by a method corresponding to the compression method. Audio signal processing circuit 2
06 performs signal processing such as signal amplification processing or impedance conversion processing corresponding to the speaker 205 on the audio signal expanded by the audio compression / expansion circuit 207, and converts the processed audio signal into audio.
Output from the speaker 205.

Next, display control when the above-described transmission image data and reception image data are displayed on the screen by the display circuit 213 will be specifically described.

Here, generally, the portable videophone 5
00 is, as shown in FIGS. 10A and 10B, the right hand R
Alternatively, the device is held by the left hand L, the speaker 505 is brought close to an ear (not shown), and the user talks while watching the screen of the display unit 513. Therefore, in the conventional portable videophone 500, when the device is held by the right hand R (FIG. 10A), an image is displayed in an appropriate direction on the display unit 513, but the device is held by the right hand L. (FIG. 10B), the image displayed on the display unit 513 is 18
It had been turned by 0 °.

Therefore, in the portable videophone 200 of this embodiment, the posture detection circuit 217 detects whether the device is held by the right hand R or the left hand L, and
A screen is displayed on the display circuit 213 based on the detection result.

More specifically, the attitude detecting circuit 217 includes two attitude detecting sections 217a and 217b arranged on both sides of the apparatus as shown in FIG. The posture detection circuits 217a and 217b detect the pressure and contact area of the hand when the user holds the apparatus by using, for example, a piezoelectric element under the control of the posture detection control circuit 218. .

For example, as shown in FIG. 11A, when the apparatus is held by the right hand R, four fingers of the right hand R come into contact with the posture detecting unit 217b, and the right hand R comes into contact with the posture detecting unit 217a. One finger of R comes into contact. In addition, FIG.
As shown in FIG. 1 (B), when the device is held with the left hand L,
One finger of the left hand L contacts the posture detection unit 217b,
Four fingers of the left hand L come into contact with the posture detection unit 217a. Therefore, hold the device with your right hand R or
The contact area and the distribution of the holding pressure in the posture detecting unit 217a and the posture detecting unit 217b differ depending on whether the holding is performed by the left hand L, and the posture detecting unit 217a and the posture detecting unit 217b detect the posture corresponding to the holding state at that time. A signal will be output.

The microcomputer 216 takes in the respective detection signals output from the posture detecting section 217a and the posture detecting section 217b through the posture detecting control circuit 218, and the apparatus is held by the right hand R by the respective detecting signals. It is determined whether the left hand L is held. And microcomputer 2
The display control 16 determines that, when the apparatus is held by the right hand R, the screen is displayed in a normal orientation without changing the orientation of the display screen as shown in FIG. The display circuit 213 is controlled via the circuit 214. As a result of the above-described determination, when the device is held by the left hand L, the microcomputer 216 sets the display screen to the display direction in FIG. 12A as shown in FIG. The display circuit 213 is controlled via the display control circuit 214 so as to display the screen in a direction rotated by 180 °.

Specifically, for example, when the received image data is displayed on the screen by the display circuit 213, the microcomputer 216
Controls the display control circuit 214 in accordance with the above-described determination result, thereby controlling the address position at which the display circuit 213 displays the video signal (received image data) expanded by the image compression and expansion circuit 203 on the screen. By this control, when the device is held by the right hand R (FIG. 12A)
In the display circuit 213, display is performed from the address position 213a. When the device is held by the left hand L (FIG. 12B), the address position 213 is set.
The display from b is performed, and an image rotated by 180 ° with respect to the display direction in FIG. 12A is displayed.

When the transmission image data is displayed on the screen by the display circuit 213, the operation is the same as the above-described operation of displaying the reception image data, and therefore, detailed description thereof will be omitted.

Therefore, in the portable videophone 200, whether the device is held and used with the right hand or the left hand, the image is always displayed on the screen in an appropriate direction for the user. . Thereby, the user can observe the display screen without being restricted by how to hold the device, and can use the portable videophone 200 comfortably.

In the second embodiment, the posture detectors 217a and 217b (posture detection circuit 217) are used as piezoelectric elements to detect whether the apparatus is held by the right hand or the left hand. However, the present invention is not limited to this, and any device capable of detecting a state in which the user is holding the device may be used. For example, similarly to the attitude detection circuit 106 in the above-described first embodiment, the detection may be performed using a gravity sensor or the like.

Next, a third embodiment will be described.

The display device according to the present invention is, for example, shown in FIG.
The present invention is applied to a portable communication device 300 as shown in FIG. 1, and this portable communication device 300 also applies the communication system according to the present invention.

That is, the portable communication device 300 includes an antenna 301 and a receiving circuit 3 connected to the antenna 301.
02 and a separating circuit 303 connected to the receiving circuit 302
And the image data processing circuit 3 connected to the separation circuit 303
04, an audio output processing circuit 305, a memory 307 connected to the image data processing circuit 304, a speaker 306 connected to the audio output processing circuit 305, a display circuit 308 connected to the image data processing circuit 304, The display element 309 connected to the circuit 308 and the posture detection circuit 3
10 and a display circuit 308 connected to the attitude detection circuit 310.
And a display arrangement control circuit 311 for outputting the same to the display. The portable communication device 300 includes a character data processing circuit 312 connected to the display circuit 308, a memory 313 connected to the character data processing circuit 312, and a combining circuit 3.
14, a transmitting circuit 317 connected to the combining circuit 314 and outputting to the antenna 301, a microphone 315, and a voice input processing circuit 316 connected to the microphone 315 and outputting to the combining circuit 314. The output of the separation circuit 303 is supplied to the data processing circuit 312, and the image data processing circuit 30 is supplied to the synthesis circuit 314.
4 are supplied.

The operation of transmitting and receiving data in portable communication device 300 as described above will be described first.

(Operation at Data Reception) First, a radio wave transmitted from another communication device or the like is received by the antenna 301 and supplied to the receiving circuit 302. Receiver circuit 302
Detects the radio wave received by the antenna 301 and supplies it to the separation circuit 303 as received data. Separation circuit 30
Reference numeral 3 denotes an image data processing circuit 304 which separates and obtains, for example, image data, character data, and audio data included in the data received from the reception circuit 302 and outputs the image data.
To the character data processing circuit 3
12 and supplies the audio data to the audio output processing circuit 305.

The audio output processing circuit 305 is
A predetermined signal processing is performed on the audio data from the speaker 3 to generate an audio signal for speaker output, which is output from the speaker 306 as audio.

The image data processing circuit 304 includes a separating circuit 3
In addition to storing the image data from the memory device 03 in the memory 307, the image data is subjected to predetermined signal processing to generate an image signal for display, and supplies it to the display circuit 308.

The character data processing circuit 312
In addition to storing the character data from “03” in the memory 313, the character data is subjected to predetermined signal processing to generate a character signal for display, and the generated signal is supplied to the display circuit 308.

The display circuit 308 includes the image data processing circuit 3
A signal for displaying the image signal from the image data 04 and the character signal from the character data processing circuit 312 as a screen, that is, an electric signal such as an RGB signal is generated and supplied to the display element 309. At this time, the display arrangement control circuit 311 controls the operation of the display circuit 308 according to the detection result of the attitude detection circuit 310, which will be described in detail later.

The display element 309 displays an electric signal from the display circuit 308 on the screen as an optical signal.

(Operation at the Time of Data Transmission) First, the image data processing circuit 304 supplies the image data stored in the memory 307 to the synthesizing circuit 314. The character data processing circuit 312 supplies the character data stored in the memory 313 to the synthesizing circuit 314. The audio input processing circuit 316 performs predetermined signal processing on the audio input from the microphone 315 to generate audio data, and supplies the audio data to the synthesis circuit 314.

The synthesizing circuit 314 includes the image data processing circuit 3
The transmission data is generated by synthesizing the image data from the image data 04, the character data from the character data processing circuit 312, and the audio data from the audio input processing circuit 316, and supplies the transmission data to the transmission circuit 317.

The transmission circuit 317 generates a transmission wave from the transmission data from the combining circuit 314 according to a predetermined communication format, and transmits the transmission wave from the antenna 301 to another communication device or the like.

Next, the control of the display arrangement control circuit 311 according to the detection result of the above-described attitude detection circuit 310 will be specifically described.

The posture detecting circuit 310 detects the inclination (posture) of the apparatus from the direction of gravity, and supplies the detection result to the display arrangement control circuit 311 in the same manner as in the first embodiment, for example. .

The display arrangement control circuit 311 displays the character signal and the image signal supplied to the display circuit 308 on the display element 30 based on the detection result of the posture detection circuit 310 (the posture of the apparatus).
9 to control the display arrangement.

For example, as shown in FIG. 14, when the display element 309 of the apparatus is held so as to be horizontally long, the attitude detection circuit 310 detects this, and based on the detection result, the display arrangement control circuit 311 The display circuit 3 displays an image signal and a character signal on a screen so that the image signal and the character signal have a horizontal relationship with each other.
08 is controlled. As a result, the image 309a and the character 309b are displayed on the display element 309 in a horizontal relationship with each other. Further, as shown in FIG.
9 is held vertically, the posture detection circuit 3
10 detects this, and based on the detection result, the display arrangement control circuit 311 controls the display circuit 308 so that the image signal and the character signal are displayed on the screen such that they have a vertical relationship with each other. As a result, an image 309a is displayed on the display element 309.
And the character 309b are displayed on the screen in a vertical relationship with each other.

Therefore, regardless of the display function of the transmission side, the display circuit 308 always displays the display function of the transmission side based on the current attitude of the apparatus regardless of the display function of the transmission side. The screen is displayed in a favorable state for the user. This allows the display function on the transmission side to always observe the received image and characters displayed on the screen on the display circuit 308 in a good state without being forced to hold the device by a certain holding method. Can be. Also, at the time of transmission, the display circuit 308 always displays a screen in a favorable state for the user based on the current attitude of the apparatus. Thus, the display circuit 308 is always in a good state.
, The transmission image and the characters displayed on the screen can be observed.

[0084]

As described above, according to the first aspect, the display means displays the predetermined information in a size based on the attitude of the display means. Thereby, the predetermined information can be displayed on the screen in a state that is always easy for the user to see, regardless of the posture of the device. Therefore, the user can always observe the information displayed on the screen in an optimal state without being restricted by how to hold the device.

According to the second invention, the predetermined information is displayed on the display means in a size based on the attitude of the display means.
Thereby, the predetermined information can be displayed on the screen in a state that is always easy for the user to see, regardless of the posture of the device. Therefore, the user can always observe the information displayed on the screen in an optimal state without being restricted by how to hold the device.

According to the third invention, in the first or second invention, the image information is always displayed on the screen in an optimal state for the user, regardless of the posture of the device. it can.

According to the fourth invention, in the first or second invention, the display arrangement of the first information and the second information is switched based on the attitude of the device. Thus, for example, when communicating image information (first information) and character information (second information), the image information and character information transmitted from devices having different display arrangements of the image information and character information are transmitted. Even when receiving and displaying the screen, the image information and the character information can always be displayed on the screen in an optimal display arrangement for the user based on the posture of the apparatus at that time.

According to the fifth invention, in the first or second invention, the display position of the predetermined information is switched based on the attitude of the device. Thus, regardless of the posture of the device, the predetermined information can be always displayed on the screen in an optimal state for the user.

According to a sixth aspect, in the first or second aspect, the display direction of the predetermined information is switched based on the attitude of the device. Thus, regardless of the posture of the device, the predetermined information can be always displayed on the screen in an optimal state for the user.

According to the seventh invention, in the fifth or sixth invention, the inclination of the display screen is controlled based on the inclination of the apparatus body with respect to the direction of gravity. Thereby, the inclination of the display screen can be always kept constant with respect to the direction of gravity, and the screen can always be displayed in an optimal state for the user regardless of how the apparatus is inclined. it can.

According to the eighth aspect, in the fifth or sixth aspect, the size of the predetermined information to be displayed on the screen is controlled based on the inclination of the apparatus main body with respect to the direction of gravity. Thus, no matter how the device is tilted, the predetermined information can always be displayed on the screen in an optimal state for the user.

According to the ninth aspect, the attitude detecting means detects the way the user holds the apparatus, and the display means switches the arrangement of the image information and the character information on the screen in accordance with the detection result. Is displayed. Thus, for example, when the device is held so that the display function is horizontally long, the image information and the character information are arranged so as to be in a horizontal relationship with each other and displayed on the screen. When the device is held so that the display function is vertically long, the image information and the character information are arranged and displayed on the screen in a vertical relationship with each other. Therefore, the user can always observe the image information and the character information displayed on the screen in an optimal state without being restricted by how to hold the device.

According to a tenth aspect, in the ninth aspect, based on the inclination of the apparatus body with respect to the direction of gravity,
The display arrangement of the image information and the character information is controlled. This makes it possible to always display the image information and the character information on the screen in an optimal state for the user, regardless of how the apparatus is tilted.

According to the eleventh aspect, in the tenth aspect, no matter what the holding state of the apparatus main body is,
The image information and character information displayed on the screen on the display means are always constant in the direction of gravity. Therefore, a screen display that is easy for the user to see can be performed.

According to the twelfth aspect, in the tenth aspect, the inclination and size of the information displayed on the display means are controlled in accordance with the inclination of the apparatus main body, so that the apparatus main body can be any type. Even in the holding state, the image information and the character information displayed on the screen on the display means are not lost, and the information is always constant in the direction of gravity. Therefore, a screen display that is easy for the user to see can be performed.

According to a thirteenth aspect, in the ninth aspect, the display means displays the predetermined information in a size based on the attitude of the display means. Thus, image information and character information can be displayed on the screen in a state that is always easy for the user to see, regardless of the posture of the device.
Therefore, the user can always observe the image information and the character information displayed on the screen in an optimal state without being restricted by how to hold the device.

According to the fourteenth aspect, in the ninth aspect, a screen display that is easy for the user to see can be performed regardless of whether the apparatus main body is held by the right hand or the left hand.

According to the fifteenth aspect of the present invention, the communication for always displaying the information on the screen to the user on the transmission side and the user on the reception side in an optimal state, regardless of the posture of each apparatus main body on the transmission side and the reception side. A system can be provided. Further, even when the display arrangement of each information is different between the transmitting side and the receiving side, the users on the transmitting side and the receiving side can always observe the information displayed on the screen in an optimal state.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a display device of a portable communication device to which the present invention is applied in a first embodiment.

FIG. 2 is a diagram illustrating a configuration of a posture detection circuit of the display device.

FIG. 3 is a diagram for explaining a detection operation of the posture detection circuit when the device is in a normal posture and in a tilted posture.

FIG. 4 is a diagram for explaining a look-up table for determining the inclination of the apparatus based on a detection result of the attitude detection circuit.

FIG. 5 is a diagram for explaining a screen state according to the inclination of the apparatus.

FIG. 6 is a diagram for explaining a look-up table for controlling the screen state.

FIG. 7 is a diagram for explaining another configuration of the attitude detection circuit.

FIG. 8 is an external view of a portable videophone to which the present invention is applied in the second embodiment.

FIG. 9 is a block diagram showing an internal configuration of the portable videophone.

FIG. 10 is a diagram for explaining a screen display state in a conventional portable videophone when held by right and left hands.

FIG. 11 is a diagram illustrating an operation of detecting holding by a right hand and a left hand in a posture detection circuit of a portable videophone to which the present invention is applied.

FIG. 12 is a diagram for explaining a screen display state when the portable videophone is held by a right hand and a left hand.

FIG. 13 is a block diagram showing a configuration of a portable communication device to which the present invention is applied in the third embodiment.

FIG. 14 is a diagram for explaining a screen state when the portable communication device is held so as to have a landscape screen.

FIG. 15 is a diagram for explaining a screen state when the portable communication device is held so as to have a vertically long screen.

FIG. 16 shows a conventional display device of a transmitting side having a landscape screen, in which image information and character information are arranged and displayed in a horizontal relationship with each other. FIG. 4 is a diagram for explaining a screen display state.

FIG. 17 is a diagram for explaining a screen display state in a case where image information and character information are arranged and displayed in a vertical relationship with each other on the receiving side device. .

[Explanation of symbols]

 REFERENCE SIGNS LIST 100 display device 101 storage circuit 102 storage control circuit 103 display circuit 104 display control circuit 105 memory 106 attitude detection circuit 107 attitude detection control circuit 108 microcomputer

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code FIG09G 5/36 520 G09G 5/36 520E 520K H04Q 7/38 H04M 11/02 H04M 11/02 H04B 7/26 109T

Claims (15)

[Claims] A display means for displaying predetermined information on a screen; an attitude detection means for detecting an attitude of the display means; and a size of the predetermined information to be displayed on the display means based on a detection result of the attitude detection means. A display device comprising: a control unit for controlling the display device. 2. A display means for displaying predetermined information on a screen, an attitude detection means for detecting an attitude of the display means, and a size of the predetermined information to be displayed on the display means based on a detection result of the attitude detection means. A display device, wherein a control means for controlling the height of the display device is provided in the device main body. 3. The display device according to claim 1, wherein the predetermined information includes image information. 4. The predetermined information includes at least first and second information, and the control means controls the at least first information on the display means.
The display device according to claim 1, wherein the display device controls display arrangement of the second information. 5. The control unit according to claim 1, wherein the control unit further controls a display position of the predetermined information to be displayed on a screen of the display unit, based on a detection result of the posture detection unit. Display device. 6. The apparatus according to claim 1, wherein the control means further controls a display direction of the predetermined information to be displayed on the display means based on a detection result of the attitude detection means. Display device. 7. The attitude detecting means includes an inclination detecting means for detecting an inclination of the apparatus main body with respect to a direction of gravity, and the control means performs a detection based on a detection result of the inclination detecting means.
7. The display device according to claim 5, wherein control is performed such that a predetermined inclination displayed on the display means is constant with respect to a direction of gravity. 8. The attitude detecting means includes an inclination detecting means for detecting an inclination of the apparatus main body with respect to a direction of gravity, and the control means detects the inclination of the apparatus main body based on a detection result of the inclination detecting means.
The display device according to claim 1, wherein the size of the predetermined information is controlled. 9. A display means for displaying predetermined information including at least image information and character information on a screen, an attitude detection means for detecting an attitude of the display means, and a display means for the display means based on a detection result of the attitude detection means. A display device comprising: control means for controlling a display arrangement of each information. 10. The attitude detecting means includes an inclination detecting means for detecting an inclination of the apparatus main body with respect to the direction of gravity.
10. The display device according to claim 9, wherein a display arrangement of the display means is controlled. 11. The apparatus according to claim 1, wherein the control means controls the direction of the predetermined information displayed on the display means on the display means to be constant with respect to the direction of gravity based on the detection result of the inclination detecting means. 10. The display device according to 10. 12. The display device according to claim 10, wherein the control means controls the size of the predetermined information to be displayed on the display means on the basis of the detection result of the inclination detecting means. 13. The display device according to claim 9, wherein said control means further controls the size of predetermined information to be displayed on the display means on a screen. 14. The attitude detecting means includes a discriminating means for discriminating whether the device main body is held by a right hand or a left hand, and the control means determines a right hand by a discrimination result of the discriminating means. 10. The display device according to claim 9, wherein a display state of the screen on the display means is changed between when the display is held by the user and when the display is held by the left hand. 15. A communication system for performing communication of predetermined information between a receiving side and a transmitting side, wherein at least one of the receiving side and the transmitting side comprises:
A communication system comprising the display device according to any one of claims 4 to 4.