JP5378768B2 - Network system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a network system of mobile terminals, which can improve the convenience to users by enabling a user to confirm, on one mobile terminal carried by the user, an image actually picked up by another terminal. <P>SOLUTION: In the network system 1 of mobile terminals including a first mobile terminal 2A and a second mobile terminal 2B, the second mobile terminal 2B includes an imaging part 6B and a second transmission part capable of wirelessly transmitting image information acquired by the imaging part 6B toward the first mobile terminal 2A, and the first mobile terminal 2A includes a first reception part for receiving image information wirelessly transmitted from the second transmission part of the second mobile terminal 2B, a display part 21A for displaying an image on the basis of image information received by the first reception part, and an operation part 11A for accepting an operation of determining acquisition of image information of the image displayed in the display part 21A. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a network system formed from a mobile terminal such as a mobile phone.

In recent years, mobile terminals such as mobile phones have become widespread as easy communication devices. Many mobile phones include a camera module as an imaging unit in order to provide a function of photographing a subject in addition to the telephone function.
As a technique for remotely operating a mobile phone with a camera module, for example, a technique described in Patent Document 1 below is known. According to the technique described in Patent Document 1, from one mobile phone (a mobile phone possessed by a user) to the other mobile phone (a mobile phone that performs photographing), a wireless communication line via a wireless base station is used. An imaging signal can be transmitted, and the other mobile phone can perform imaging based on the signal.

JP 2003-143261 A

  However, according to the technique described in Patent Document 1, it is impossible to confirm an image actually captured by one mobile phone possessed by the user and the user's convenience is inferior. There is. This problem also occurs in a network system formed from mobile terminals other than mobile phones.

  Therefore, the present invention provides a network system of a mobile terminal that can confirm an image actually captured by the other terminal in one mobile terminal possessed by the user and can improve user convenience. For the purpose.

The present invention is a network system of portable terminals including a first portable terminal and a second portable terminal, wherein the second portable terminal receives an image unit and image information acquired by the image pickup unit as the first portable terminal. A second transmitter capable of wirelessly transmitting to the terminal, wherein the first portable terminal receives the image information wirelessly transmitted from the second transmitter of the second portable terminal. A display unit that displays an image based on the image information received by the first receiving unit, an operation unit that receives an operation for determining acquisition of image information of the image displayed on the display unit, and the operation A first image information storage unit that stores the image information that has been determined to be acquired by an operation at the unit, and image information that has been determined to be acquired when the acquisition of the image information is determined by an operation at the operation unit At the sender of the image information. A first transmission unit for wirelessly transmitting toward the second mobile terminal that relates to a network system, characterized in that it comprises a.

The first transmission unit of the first portable terminal performs short-range wireless transmission as the wireless transmission, and the first portable terminal further includes a position detection unit that detects a position of the terminal. The portable terminal combines the position of the terminal detected by the position detection unit with the image information determined to be acquired by the operation of the operation unit, and the combined image information is combined by the first transmission unit. It is preferable to perform short-range wireless transmission toward the second portable terminal .

  ADVANTAGE OF THE INVENTION According to this invention, the network system of the portable terminal which can confirm the image actually imaged with the other terminal in one portable terminal which a user possesses, and can improve a user's convenience is provided. be able to.

Hereinafter, an embodiment of a network system for a portable terminal according to the present invention will be described with reference to the drawings. FIG. 1 is a diagram conceptually showing a network system 1 for portable terminals according to the present invention.
As shown in FIG. 1, the network system 1 according to the present embodiment includes an operation side terminal 2A as a first portable terminal and a photographing side terminal 2B as a second portable terminal. Each of the operation side terminal 2A and the photographing side terminal 2B is composed of a mobile phone and includes infrared communication modules 140A and 140B (not shown in FIG. 1), respectively.

  The operation side terminal 2A includes an operation key group 11A. The photographing side terminal 2B includes a camera module 6B. The operation side terminal 2A and the photographing side terminal 2B are configured to be capable of infrared communication with each other using the infrared communication modules 140A and 140B. According to the network system 1 of the present embodiment, the operation side terminal 2A is operated, the subject Q including the user who operates the operation side terminal 2A is photographed by the camera module 6B of the photographing side terminal 2B, and an image is acquired. it can.

  Next, the operation side terminal 2A will be described. Note that the photographing side terminal 2B also has the same configuration as the operation side terminal 2A, and therefore the description of the photographing side terminal 2B is also used as the description of the operation side terminal 2A. At that time, after changing “A” at the end of the reference numeral indicating each component of the operation side terminal 2A to “B”, each component of the corresponding photographing side terminal 2B will be described. FIG. 2 is a perspective view of the appearance of the operation side terminal 2A as viewed from the front side. FIG. 3 is a perspective view of the appearance of the operation side terminal 2A as viewed from the back side. FIG. 4 is a functional block diagram of the operation side terminal 2A. FIG. 5 is a detailed functional block diagram of the operation side terminal 2A.

  As shown in FIGS. 2 and 3, the operation side terminal 2A is configured to include an operation unit side body 10A and a display unit side body 20A. The operation unit side body 10A and the display unit side body 20A are configured such that the upper end of the operation unit side body 10A and the lower end of the display unit side body 20A are connected via a hinge mechanism 4A. Yes. The operation unit side housing unit 10A includes an operation key group 11A as an operation unit, a voice input unit 12A, and a camera module 6A as an imaging unit.

The operation key group 11A is arranged on the front side of the operation unit side body 10A, and includes a function setting operation button 13A, an input operation button 14A, and a determination operation button 15A. The function setting operation button 13A operates various functions such as various settings, a phone book function, and a mail function. The input operation button 14A is used for inputting numbers such as telephone numbers and characters such as mail. The determination operation button 15A performs determination and scrolling in various operations.
In addition, according to the operation key group 11A, an operation for determining acquisition of image information of an image displayed on the main display unit 21A can be accepted.

  The voice input unit 12A receives a voice uttered by the user of the operation side terminal 2A during a call. The camera module 6A includes a lens, a CCD, and the like, and can photograph a subject from the back side of the operation unit side body 10A.

The display unit side body unit 20A includes a main display unit 21A as a display unit, an audio output unit 22A, a sub display unit 23A, and an infrared communication module 140A as a first transmission unit and a first reception unit (see FIG. 4 and FIG. 5).
The main display unit 21A displays various types of information on the front side of the display unit side body unit 20A. The voice output unit 22A outputs the voice of the other party on the call. The sub display unit 23A displays various information on the back side of the display unit side body unit 20A. The infrared communication module 140A is disposed inside the display unit side body 20A, and performs near field communication using infrared rays.

Next, with reference to FIG.4 and FIG.5, the structure which concerns on the main functions in 2 A of operation side terminals is demonstrated.
As shown in FIG. 4, the operation side terminal 2A includes a CPU 100A, a memory 120A, a communication unit 130A, an infrared communication module 140A as a first transmission unit and a first reception unit, and operation keys as an operation unit. A group 11A, a camera module 6A as an imaging unit, an audio processing unit 150A, an image processing unit 160A, a main display unit 21A as a display unit, a sub display unit 23A, an audio input unit 12A, and an audio output unit 22A.

  The CPU 100A is composed of an IC and controls the entire operation side terminal 2A. For example, the CPU 100A performs predetermined calculations based on various electrical signals input from the communication unit 130A, the infrared communication module 140A, the camera module 6A, and the like. The audio processing unit 150A, the image processing unit 160A, and the like are controlled. Details of the processing units 101A to 109A (excluding 104A), the determination unit 104A, and the like in the CPU 100A will be described later.

The memory 120A includes a working memory of the CPU 100A and is used for arithmetic processing by the CPU 100A. The memory 120A stores a large number of programs executed by the CPU 100A, data, various tables, and the like. Details of data stored in each of the storage units 121A and 122A in the memory 120A will be described later.
Note that the memory 120A may be a removable external memory.

  The communication unit 130A includes a main antenna 131A that performs communication with an external device (base station) using a predetermined use frequency band, and a communication processing unit 132A that performs signal processing such as modulation processing and demodulation processing. Yes. The main antenna 131A communicates with an external device (base station) in a predetermined use frequency band (for example, 800 MHz). The communication processing unit 132A demodulates the signal received by the main antenna 131A and supplies the processed signal to the CPU 100A. Also, the communication processing unit 132A modulates the signal supplied from the CPU 100A and transmits the signal to an external device (base station) via the main antenna 131A.

  The infrared communication module 140A is a part that performs wireless communication not via an external device (base station), and includes an IrDA communication processing unit (not shown) and a light emitting / receiving element (not shown). The IrDA communication processing unit modulates the signal processed by the CPU 100A and wirelessly transmits it to the photographing terminal 2B via the light emitting element. In addition, the IrDA communication processing unit receives a signal wirelessly transmitted from the photographing side terminal 2B via the light emitting element, demodulates it, and outputs it to the CPU 100A.

  The voice processing unit 150A converts the voice data from the CPU 100A into an acoustic signal and outputs the sound signal to the voice output unit 22A for calling. Further, the sound for a call input from the voice input unit 12 is converted into a predetermined voice signal and output to the CPU 100A.

  The image processing unit 160A converts the image data from the CPU 100A into an image signal and outputs the image signal to the main display unit 21A or the sub display unit 23A.

  Next, details of the CPU 100A will be described. As illustrated in FIG. 5, the CPU 100A includes a transmission control unit 101A, a reception processing unit 102A, a display control unit 103A, a determination unit 104A, an image composition processing unit 105A, an imaging control unit 106A, and an image information acquisition process. 107A, an image information transmission processing unit 108A, and an image information storage processing unit 109A. In addition, each part other than the determination part 104A in CPU100A is named generically as a "processing part" (refer FIG.4, FIG.6, FIG.7).

  The transmission control unit 101A transmits (outputs) predetermined information that has been subjected to predetermined processing by the CPU 100A to the infrared communication module 140A, and transmits the information to the photographing terminal 2B from the infrared communication module 140A.

  The reception processing unit 102A performs predetermined processing on information received by the infrared communication module 140A and transmitted (input) to the CPU 100A.

  The display control unit 103A performs predetermined image processing on the image information input to the CPU 100A and outputs the image information subjected to the image processing to the image processing unit 160A.

  The determination unit 104A determines whether or not the image information input to the CPU 100A needs to be combined with an additional image such as a frame image.

  The image composition processing unit 105A performs a process of obtaining a composite image by combining the image in the image information input to the CPU 100A and the additional image.

  The imaging control unit 106A controls the camera module 6A and causes the camera module 6A to take a subject.

  The image information acquisition processing unit 107A performs processing for acquiring image information of an image displayed on the main display unit 21A. Specifically, the image information acquisition processing unit 107A acquires the image information of the image displayed on the main display unit 21A at a predetermined timing based on the operation received by the operation key group 11A. Examples of the predetermined timing include substantially the same timing as when the operation key group 11A is operated, and timing that is several seconds or longer than the timing when the operation key group 11A is operated (so-called self-timer preferable timing).

  The image information transmission processing unit 108A transmits (outputs) the image information acquired by the image information acquisition processing unit 107A to the infrared communication module 140A, and causes the infrared communication module 140A to transmit the image information to the photographing terminal 2B.

  The image information storage processing unit 109A stores the image information acquired by the image information acquisition processing unit 107A in the image information storage unit 122A of the memory 120A.

  Next, the memory 120A will be described. In addition to the working memory, the memory 120A includes an additional image information storage unit 121A and an image information storage unit 122A. The additional image information storage unit 121A and the image information storage unit 122A are collectively referred to as “storage unit” (see FIGS. 4, 6, and 7).

  The additional image information storage unit 121A stores additional images such as frame images (images that can be added and combined with other images). The additional image stored in the additional image information storage unit 121A is synthesized with another image by the image synthesis processing unit 105A to form a part of the synthesized image.

  The image information storage unit 122A stores image information such as image information acquired by the image information acquisition processing unit 107A.

  Next, a first usage mode of the network system 1 according to the present embodiment will be described with reference to the flowcharts shown in FIGS. The first usage mode is a usage mode in which images are synthesized in the operation-side terminal 2A. FIG. 6 is a flowchart showing the operation of the photographing terminal 2B in the first usage mode. FIG. 7 is a flowchart showing the operation of the operation side terminal 2A in the first usage mode. FIG. 8 is a flowchart showing image transmission / reception and image synthesis in the operation-side terminal 2A and the photographing-side terminal 2B in the first usage mode.

As shown in FIGS. 6 and 8, the user operates the operation unit (operation key group) 11B of the photographing terminal 2B to start photographing the subject Q (two persons including the user) (step S11). When shooting is started, the imaging control unit 106B of the processing unit controls the imaging unit (camera module) 6B, and the imaging unit 6B acquires image information of the image P11 of the subject Q. Shooting (acquisition of image information) may be continuous shooting or intermittent shooting repeated at a predetermined interval. At that time, for example, the camera module 6B of the photographing side terminal 2B is directed to the subject Q, and the photographing side terminal 2B is set to be supported even if the user does not have the photographing side terminal 2B. The photographing side terminal 2B can be supported using a tripod or a dedicated support tool.
Note that an operation signal generated when the user operates the operation unit 11A of the operation side terminal 2A is wirelessly transmitted to the photographing side terminal 2B via wireless communication, and the photographing side terminal 2B is photographed based on the received operation signal. It may be configured to start.

  In step S12, the imaging control unit 106B of the processing unit transmits (outputs) image information of the image P11 of the subject Q to the processing unit.

  In step S21, the display control unit 103B of the processing unit outputs the image information of the image P11 of the subject Q to the display unit (main display unit) 21B, and requests the display unit 21B to display the image P11 of the subject Q. .

In step S22, the display unit 21B displays an image of the subject Q.
Note that step S21 and step S22 can be omitted.

  In step S23, the image information transmission processing unit 108B of the processing unit outputs the image information of the image P11 of the subject Q to the transmission unit (infrared communication module) 140B, and the image information of the image P11 of the subject Q to the transmission unit 140B. Request to send

  In step S24, the transmission unit 140B transmits the image information of the image P11 of the subject Q.

Next, the operation of the operation side terminal 2A will be described.
As shown in FIGS. 7 and 8, the image information of the image P11 of the subject Q transmitted from the transmission unit 140B of the photographing side terminal 2B is received by the reception unit (infrared communication module) 140A of the operation side terminal 2A ( Step S31)

  In step S32, the receiving unit 140A transmits (outputs) the image information of the image P11 of the subject Q to the processing unit.

  In step S33, the reception processing unit 102A of the processing unit outputs to the determination unit 104A the image information of the image P11 of the subject Q, and determines whether or not image synthesis is necessary for the image P11 of the subject Q to the determination unit 104A. Request.

  In step S <b> 34, the determination unit 104 </ b> A determines whether image synthesis is necessary for the image P <b> 11 of the subject Q. This determination is performed based on, for example, preset conditions.

  In step S <b> 35, the determination unit 104 </ b> A transmits (outputs) a result of determination on whether image synthesis is necessary for the image P <b> 11 of the subject Q to the processing unit.

  In step S36, if the determination unit 104A determines that “image composition is necessary” (YES), the image composition processing unit 105A of the processing unit proceeds to step S37, which is a process of performing image composition. On the other hand, if the determination unit 104A determines that “image composition is not required” (NO), the process of performing image composition (steps S37 and S38) is skipped and the process proceeds to step S41.

  If the determination unit 104A determines that “image synthesis is necessary” (YES), in step S37, the image synthesis processing unit 105A causes the additional image (frame image) stored in the additional image information storage unit 121A of the memory 120A. ) Call and obtain the image information of P12. In this usage mode, the additional image P12 is a frame image of a landscape.

  In step S38, the image composition processing unit 105A of the processing unit combines the image P11 in the image information received by the reception unit 140A and the additional image P12 to obtain a composite image P13.

  In step S41, the display control unit 103A of the processing unit requests the display unit 21A to display the composite image P13.

  In step S42, the display unit 21A displays the composite image P13.

  The user adjusts the composite image P13 including the subject Q to be in a desired state while viewing the composite image P13 displayed on the display unit 21A. When the composite image P13 including the subject Q is in a desired state, the user operates the operation unit 11A to perform an image information acquisition operation (step S51).

  In step S52, the operation unit 11A requests the processing unit to acquire image information.

  In step S53, the image information acquisition processing unit 107A of the processing unit displays the image information of the synthesized image P13 displayed on the display unit 21A and the image information of the unsynthesized image P14 obtained by removing the image information of the frame image P12 from the synthesized image P13. get.

  In step S54, the image information transmission processing unit 108A of the processing unit requests the transmission unit 140A to transmit the image information of the synthesized image P13 and the image information of the unsynthesized image P14 acquired by the image information acquisition processing unit 107A. To do.

  In step S55, the transmission unit 140A transmits the image information of the synthesized image P13 and the image information of the unsynthesized image P14. As will be described later, the image information of the composite image P13 and the image information of the unsynthesized image P14 transmitted from the transmission unit 140A of the operation side terminal 2A are received by the reception unit 140B of the photographing side terminal 2B.

  In step S56, the image information storage processing unit 109A stores the image information of the synthesized image P13 and the image information of the unsynthesized image P14 in the image information storage unit 122A.

  In step S57, the image information storage unit 122A stores the image information of the synthesized image P13 and the image information of the unsynthesized image P14.

Next, the operation of the photographing terminal 2B will be described.
As shown in FIGS. 6 and 8, in step S61, the receiving unit 140B receives the image information of the synthesized image P13 and the image information of the unsynthesized image P14 transmitted from the transmitting unit 140A of the operation side terminal 2A.

  In step S62, the receiving unit 140B transmits (outputs) the received image information of the composite image P13 and image information of the unsynthesized image P14 to the processing unit.

  In step S63, the image information storage processing unit 109B of the processing unit stores the image information of the synthesized image P13 and the image information of the unsynthesized image P14 in the image information storage unit 122B.

  In step S64, the image information storage unit 122B stores the image information of the synthesized image P13 and the image information of the unsynthesized image P14.

  In step S65, the display control unit 103B of the processing unit requests the display unit 21B to display the composite image P13.

  In step S66, the display unit 21B displays the composite image P13.

  Next, a second usage mode of the network system 1 according to the present embodiment will be described with reference to the flowcharts shown in FIGS. The second usage mode is a usage mode in which image synthesis is performed in the photographing terminal 2B. In the second usage mode, description of operations similar to those in the first usage mode is omitted. FIG. 9 is a flowchart showing the operation of the photographing terminal 2B in the second usage mode. FIG. 10 is a flowchart showing the operation of the operation side terminal 2A in the second usage mode. FIG. 11 is a flowchart showing image transmission / reception and image synthesis in the operation-side terminal 2A and the photographing-side terminal 2B in the second usage mode.

As shown in FIGS. 9 and 11, the user operates the operation unit (operation key group) 11B of the photographing terminal 2B to start photographing the subject Q (two persons including the user) (step S11). When shooting is started, the imaging control unit 106B of the processing unit controls the imaging unit (camera module) 6B, and the imaging unit 6B acquires image information of the image P21 of the subject Q.
Similar to the first usage mode, an operation signal generated when the user operates the operation unit 11A of the operation side terminal 2A is wirelessly transmitted to the photographing side terminal 2B via wireless communication, and based on the received operation signal. Then, the photographing side terminal 2B may be configured to start photographing.

  In step S12, the imaging control unit 106B of the processing unit transmits (outputs) image information of the image P21 of the subject Q to the processing unit.

  In step S13, the reception processing unit 102B of the processing unit outputs the image information of the image P21 of the subject Q to the determination unit 104B, and determines whether or not image synthesis is necessary for the image P21 of the subject Q to the determination unit 104B. Request.

  In step S <b> 14, the determination unit 104 </ b> B determines whether it is necessary to perform image synthesis on the image P <b> 21 of the subject Q. This determination is performed based on, for example, preset conditions.

  In step S <b> 15, the determination unit 104 </ b> B transmits (outputs) a result of determination on whether image synthesis is necessary for the image P <b> 21 of the subject Q to the processing unit.

  In step S16, the image composition processing unit 105B of the processing unit proceeds to step S17, which is a process of performing image composition, when the determination unit 104B determines that “image composition is necessary” (YES). On the other hand, when the determination unit 104B determines that “image composition is not required” (NO), the process of performing image composition (steps S17 and S18) is skipped and the process proceeds to step S21.

  If the determination unit 104B determines that “image synthesis is necessary” (YES), in step S17, the image synthesis processing unit 105B causes the additional image (frame image) stored in the additional image information storage unit 121B of the memory 120B. ) Call and acquire the image information of P22. In this usage mode, the additional image P22 is a frame image of a landscape.

  In step S18, the image composition processing unit 105B of the processing unit synthesizes the image P21 in the image information received by the reception unit 140B and the additional image P22 to obtain a composite image P23.

  In step S21, the display control unit 103B of the processing unit outputs the image information of the composite image P23 to the display unit (main display unit) 21B, and requests the display unit 21B to display the composite image P23.

In step S22, the display unit 21B displays the composite image P23.
Note that step S21 and step S22 can be omitted.

In step S23, the image information transmission processing unit 108B of the processing unit outputs the image information of the composite image P23 to the transmission unit (infrared communication module) 140B, and requests the transmission unit 140B to transmit the image information of the composite image P23. To do.
The image information transmission processing unit 108B can output an unsynthesized image (unsynthesized image) 24 together with the output of the image information of the composite image P23 or instead of the output of the image information of the composite image P23.

  In step S24, the transmission unit 140B transmits the image information of the composite image P23.

Next, the operation of the operation side terminal 2A will be described.
As shown in FIGS. 10 and 11, the image information of the composite image P23 transmitted from the transmission unit 140B of the photographing side terminal 2B is received by the reception unit (infrared communication module) 140A of the operation side terminal 2A (step S31). )

  In step S32, the receiving unit 140A transmits (outputs) the image information of the composite image P23 to the processing unit.

  In step S41, the display control unit 103A of the processing unit requests the display unit 21A to display the composite image P23.

  In step S42, the display unit 21A displays the composite image P23.

  The user adjusts the composite image P23 including the subject Q to be in a desired state while viewing the composite image P23 displayed on the display unit 21A. When the composite image P23 including the subject Q is in a desired state, the user operates the operation unit 11A to perform an operation for acquiring image information (step S51).

  In step S52, the operation unit 11A requests the processing unit to acquire image information.

  In step S53, the image information acquisition processing unit 107A of the processing unit displays the image information of the composite image P23 displayed on the display unit 21A and the image information of the unsynthesized image P24 obtained by removing the image information of the frame image P22 from the composite image P23. get.

  In step S54, the image information transmission processing unit 108A of the processing unit requests the transmission unit 140A to transmit the image information of the synthesized image P23 and the image information of the unsynthesized image P24 acquired by the image information acquisition processing unit 107A. To do.

  In step S55, the transmission unit 140A transmits the image information of the synthesized image P23 and the image information of the unsynthesized image P24. As will be described later, the image information of the composite image P23 and the image information of the unsynthesized image P24 transmitted from the transmission unit 140A of the operation side terminal 2A are received by the reception unit 140B of the photographing side terminal 2B.

  In step S56, the image information storage processing unit 109A stores the image information of the synthesized image P23 and the image information of the unsynthesized image P24 in the image information storage unit 122A.

  In step S57, the image information storage unit 122A stores the image information of the synthesized image P23 and the image information of the unsynthesized image P24.

Next, the operation of the photographing terminal 2B will be described.
As shown in FIGS. 9 and 11, in step S61, the receiving unit 140B receives the image information of the synthesized image P23 and the image information of the unsynthesized image P24 transmitted from the transmitting unit 140A of the operation side terminal 2A.

  In step S62, the receiving unit 140B transmits (outputs) the received image information of the synthesized image P23 and image information of the unsynthesized image P24 to the processing unit.

  In step S63, the image information storage processing unit 109B of the processing unit stores the image information of the composite image P23 and the image information of the unsynthesized image P24 in the image information storage unit 122B.

  In step S64, the image information storage unit 122B stores the image information of the synthesized image P23 and the image information of the unsynthesized image P24.

  In step S65, the display control unit 103B of the processing unit requests the display unit 21B to display the composite image P23.

In step S66, the display unit 21B displays the composite image P23.
Note that step S65 and step S66 can be omitted.

According to the network system of this embodiment, the following effects are produced.
In the present embodiment, the photographing side terminal 2B includes a camera module (imaging unit) 6B and an infrared communication module (second transmission unit) capable of wirelessly transmitting image information acquired by the camera module 6B to the operation side terminal 2A. 140B. The operation side terminal 2A includes an infrared communication module (first reception unit) 140A that receives image information wirelessly transmitted from the infrared communication module (second transmission unit) 140B of the photographing side terminal 2B, and an infrared communication module (first reception). Part) (main) display part 21A for displaying an image based on the image information received by 140A, and an operation key group for receiving an operation for determining acquisition of image information of the image displayed on (main) display part 21A ( Operation unit) 11A.

  Therefore, an image information acquisition operation can be performed while confirming an image actually captured by the imaging side terminal 2B by the (main) display unit 21A of the operation side terminal 2A possessed by the user. Therefore, the convenience of the user is high, and an image with desired photographing contents can be easily obtained. Moreover, there is no time lag and timing desired by the user, and an image can be acquired.

  In the present embodiment, the operation side terminal 2A includes a (first) image information storage unit 122A that stores image information of an image that is determined to be acquired by an operation on the operation unit 11A. Therefore, the image information acquired by the user can be stored in the operation side terminal 2A and easily used.

  In the present embodiment, the operation-side terminal 2A includes an infrared communication module (first transmission unit) 140A that wirelessly transmits image information of an image displayed on the (main) display unit 21A to the photographing-side terminal 2B. Prepare. The photographing terminal 2B includes an infrared communication module (second receiver) 140B that receives image information wirelessly transmitted from the infrared communication module (first transmitter) 140A of the operation terminal 2A, and an infrared communication module (second receiver). Unit) 140B, and (second) image information storage unit 122B that stores the received image information. Therefore, the image information acquired by the user can be stored in the photographing terminal 2B and can be easily used.

  In the present embodiment, the operation-side terminal 2A receives the (first) additional image information storage unit 122A that stores information on the (first) additional image P12 and the infrared communication module (first reception unit) 140A. (First) image composition processing unit 105A to obtain (first) composite image P13 by synthesizing image P11 and (first) additional image P12 in the obtained image information, and (main) display unit 21A includes (First) The composite image P13 is displayed.

  Therefore, it is possible to perform an operation of acquiring the image information of the composite image P13 while confirming the composite image P13 with the (main) display unit 21A of the operation side terminal 2A possessed by the user. In addition, there is no need to transmit the additional image P12 from the photographing side terminal 2B to the operation side terminal 2A. Therefore, a desired composite image P13 can be easily obtained while confirming the composite image P13.

As mentioned above, although embodiment of this invention was described, this invention is not restrict | limited to embodiment mentioned above.
For example, the composition of the image at the operation side terminal 2A as in the first usage mode can be omitted, and the synthesis of the image at the photographing side terminal 2B as in the second usage mode can be omitted. In a series of usage modes, it is possible to perform both image synthesis at the operation side terminal 2A and image synthesis at the photographing side terminal 2B.

  In addition, the photographing terminal 2B can be provided with a function of measuring the distance between the photographing terminal 2B and the operation terminal 2A. The measurement (calculation) of the distance can be performed based on, for example, the amount of wireless power transmission loss and the round-trip propagation time between the photographing terminal 2B and the operation terminal 2A. By measuring the distance between the photographing side terminal 2B and the operation side terminal 2A, it is possible to improve the accuracy of focusing on the subject holding the operation side terminal 2A.

  Further, the operation side terminal 2A includes an illuminance sensor that detects illuminance (brightness) around the operation side terminal 2A, and is configured to transmit information on the illuminance detected by the illuminance sensor to the photographing side terminal 2B. Can do. Further, the photographing terminal 2B can be configured to receive the illuminance information transmitted from the operation side terminal 2A and change the photographing condition based on the received illuminance information. By configuring the operation side terminal 2A and the photographing side terminal 2B as described above, it is possible to change the photographing condition for the subject holding the operation side terminal 2A to an appropriate condition according to the illuminance around the operation side terminal 2A. It becomes easy.

  The operation side terminal 2A is provided with a GPS (global positioning system) so that the accurate position of the operation side terminal 2A can be detected, and the acquired image is obtained based on the accurate position of the operation side terminal 2A detected by the GPS. Information on the position of the operation side terminal 2A (prefecture of the shooting location, name of the municipality, etc.) can be synthesized.

  In the present invention, as a second embodiment, the photographing side terminal (second mobile terminal) 2B includes an imaging unit 6B and a preview with a smaller information amount than the image information based on the image information acquired by the imaging unit 6B. A preview image information generation unit that generates image information, and a second transmission unit 140B that can wirelessly transmit the preview image information generated by the preview image information generation unit to the operation side terminal (first portable terminal) 2A; A first receiving unit 140A for receiving the preview image information wirelessly transmitted from the second transmitting unit 140B of the second portable terminal. A display unit 21A that displays an image based on the preview image information received by the first receiving unit 140A, and an imaging unit 6B of the photographing side terminal (second portable terminal) 2B. An operation unit 11A that accepts an operation for instructing acquisition of image information, and information that indicates an instruction to acquire image information in response to an operation on the operation unit 11A is wirelessly transmitted to the photographing terminal (second mobile terminal) 2B. 1 transmitter 140A. Here, in the photographing terminal (second mobile terminal) 2B, when the information indicating the acquisition instruction is received by the first transmission unit 140A, the imaging unit 6B acquires image information based on the information, The second transmission unit 140B wirelessly transmits the image information acquired by the imaging unit 6B toward the operation side terminal (first mobile terminal) 2A.

  Further, the operation side terminal (first mobile terminal) 2A includes a first additional image information storage unit 121A for storing information of the first additional image P12 and a preview image in the preview image information received by the first receiving unit 140A. The first additional image P12 and a first image composition processing unit 105A that obtains a first composite image. In the operation side terminal (first portable terminal) 2A, the display unit 21A The first composite image obtained by the processing unit 105A is displayed, and the first transmission unit 140A wirelessly transmits information on the first additional image P12 corresponding to the first composite image and information on timing at which the imaging unit 6B acquires the image. In the photographing terminal (second mobile terminal) 2B, the second receiving unit 140B transmits the information of the first additional image P12 and the timing information wirelessly transmitted from the first transmitting unit 140A. Then, the photographing terminal (second mobile terminal) 2B combines the first additional image P12 and the image information image P11 acquired by the imaging unit 6B based on the timing information to generate a second composite image. The second image composition processing unit 105B and the second transmission unit 140B that transmit the wireless transmission of the second composite image to the operation side terminal (first mobile terminal) 2A, and the operation side terminal (first mobile terminal) 2A A composite image storage unit that stores the second composite image received by the first reception unit 140A.

When such a configuration is used, an image stored in the storage unit as an actually captured image is not transmitted from the photographing side terminal 2B to the operation side terminal 2A by wireless communication.
On the other hand, when a moving image called a preview image is transmitted by wireless communication, the image size may have to be compressed in order not to waste communication resources. For example, the imaging unit 6B in the photographing side terminal 2B can capture a VGA image as a QVGA image (320 ×) in order to avoid wasting communication resources even though the image quality of the VGA image (640 × 480 pixels) can be captured. 240 pixels), and the QVGA image must be continuously wirelessly transmitted.

Therefore, in such a case, in the embodiment shown in FIGS. 4 and 5 described above, an image in which the imaging capability of the imaging unit 6B is not sufficiently exhibited is stored.
In such a case, as in the second embodiment, when the image stored in the photographing terminal 2B is stored, an image in which the imaging capability of the imaging unit 6B is sufficiently exhibited (for example, VGA image) can be stored as a captured image. Accordingly, the quality of the stored image can be improved.

  In the embodiment, the infrared communication is used as the wireless communication, but the present invention is not limited to this. For example, wireless communication may be performed using Blue tooth (registered trademark).

  Moreover, although the said embodiment demonstrated using the mobile telephone as a portable terminal, this invention is not limited to this. The mobile terminal used in the present invention is not limited as long as it has a wireless communication function, and may be, for example, a PHS (Personal Handyphone System), a PDA (Personal Digital Assistant), a portable navigation device, a notebook personal computer, or the like.

  In the above embodiment, a so-called foldable mobile phone has been described. However, the present invention is not limited to this. As a form of the cellular phone according to the present invention, one casing is slid in one direction from the state where the operation section side casing sections 10A and 10B and the display section casing sections 20A and 20B are overlapped. Slide type or rotary type (turn type) in which one casing is rotated around an axis along the overlapping direction of the operation unit side casings 10A, 10B and the display unit side casings 20A, 20B. Alternatively, the operation unit side housing units 10A and 10B and the display unit side housing units 20A and 20B may be arranged in one housing and may have a type (straight type) that does not have a connecting unit.

FIG. 1 is a diagram conceptually showing a network system 1 for portable terminals according to the present invention. It is the perspective view which looked at the appearance of operation side terminal 2A from the front side. It is the perspective view which looked at the appearance of operation side terminal 2A from the back side. It is a functional block diagram of operation side terminal 2A. It is a detailed functional block diagram of the operation side terminal 2A. It is a flowchart which shows operation | movement of the imaging | photography side terminal 2B in a 1st usage condition. It is a flowchart which shows operation | movement of 2 A of operation side terminals in a 1st usage condition. It is a flowchart which shows transmission / reception of the image in the operation side terminal 2A in the 1st usage mode, and the imaging | photography side terminal 2B, and the composition of an image. It is a flowchart which shows operation | movement of the imaging | photography side terminal 2B in a 2nd usage condition. It is a flowchart which shows operation | movement of 2 A of operation side terminals in a 2nd usage condition. It is a flowchart which shows transmission / reception of the image in the operation side terminal 2A in the 2nd usage mode, and the imaging | photography side terminal 2B, and the composition of an image.

Explanation of symbols

1 Network system 2A Operation side terminal (first mobile terminal)
2B Shooting side terminal (second mobile terminal)
6B Camera module (imaging part)
11A Operation key group (operation unit)
21A Main display section (display section)
105A (first) image composition processing unit 107A (first) image information acquisition processing unit 122A (first) image information storage unit 122B (second) image information storage unit 121A (first) additional image information storage unit 140A infrared communication Module (first transmitter, first receiver)
140B infrared communication module (second transmitter, second receiver)
P11 image P12 (first) additional image P13 (first) composite image

Claims (2)

A mobile terminal network system including a first mobile terminal and a second mobile terminal,
The second portable terminal is
An imaging unit;
A second transmission unit capable of wirelessly transmitting the image information acquired by the imaging unit toward the first mobile terminal;
With
The first portable terminal is
A first receiver for receiving the image information wirelessly transmitted from the second transmitter of the second portable terminal;
A display unit for displaying an image based on the image information received by the first receiving unit;
An operation unit that receives an operation for determining acquisition of image information of an image displayed on the display unit;
A first image information storage unit for storing the image information determined to be acquired by an operation on the operation unit;
When acquisition of the image information is determined by an operation on the operation unit, first transmission for wirelessly transmitting the image information determined to be acquired to the second mobile terminal that is a transmission source of the image information And
A network system characterized by comprising: The first transmitter of the first mobile terminal performs short-range wireless transmission as the wireless transmission,
The first portable terminal further includes a position detection unit that detects a position of the terminal.
The first mobile terminal synthesizes the position of the terminal detected by the position detection unit with the image information determined to be acquired by an operation on the operation unit,
The synthesized image information is short-range wirelessly transmitted to the second portable terminal by the first transmitter.
The network system according to claim 1.

Images