JP2008245231A - Mobile visible light communication device - Google Patents

Abstract

A visible light communication device that mounts a lens and shoots an image, enables visible light communication with a device that stores the captured image as digital data (hereinafter referred to as a digital imaging device), and Furthermore, a visible light communication device capable of confirming a visible light receiving state from a photographing target confirmation unit of a digital imaging device is provided.
A visible light communication device that is mounted on a digital imaging device and includes two elements, a visible light receiving element and a light emitting element, and enables visible light communication.
[Selection] Figure 6

Description

The present invention is an apparatus that mounts a lens and captures an image, and is mounted on an apparatus that stores the captured image as digital data (hereinafter referred to as a digital imaging apparatus), and between the digital imaging apparatus and another device. The present invention relates to a visible light communication device that enables transmission / reception of information by visible light communication and that can confirm a light reception state of visible light communication by a photographing target confirmation unit of a digital imaging device.

Currently, transmission / reception of information between a digital imaging device and another device such as an information terminal or an information storage device is generally performed by connecting the digital imaging device and another device with a cable. In addition, there is a device that can transmit and receive information by infrared communication that is wireless communication.

Visible light communication is a communication technique that uses visible light, which is visible light, as a transmission medium. Devices equipped with visible light transmitting / receiving elements can transmit and receive information by bringing the devices close to each other within a visible light irradiation distance and transmitting / receiving visible light with the visible light transmitting / receiving elements.

In visible light communication, various light sources such as illumination and signals are light emitting elements. As the light receiving element, an image sensor (hereinafter referred to as a video image sensor) mounted on a digital camera or a digital video camera can be used.

Opportunities for transmitting and receiving information between digital imaging devices and other devices such as information terminals or information storage devices are increasing. In general, transmission / reception of information between a digital imaging device and other devices is performed by connecting both devices with a cable. However, there are various problems with the cable connection method, such as when the cable is constrained by the cable length or when it is difficult to insert the cable terminal into the cable connection port. Another problem is that cables are easy to forget or lose, and work is not possible if they are not at hand when needed.

As another transmission / reception method, there is infrared communication using infrared as a transmission medium. Some mobile phones and mobile devices are equipped with infrared communication. Infrared communication is performed by transmitting infrared light from the infrared device of the transmission side device and receiving it by the infrared light receiving element of the reception side infrared device. In infrared communication, a dedicated LED (light-emitting element for transmission) photodiode or phototransistor (light-receiving element for reception) is required as an infrared light-receiving element. In addition, since the infrared device needs to acquire a certain amount of light, it is difficult to reduce the size of the light receiving element. It is necessary to create a space for the light receiving element in a device that requires miniaturization. In many cases, it is difficult to visually confirm whether or not the transmitted infrared rays strike the infrared light receiving unit on the receiving side. Learning with experience is necessary to reliably hit the infrared ray receiving part with infrared rays, and it may be frustrated because infrared rays cannot be transmitted well.

Visible light communication is a communication technology that has attracted much attention as short-range wireless communication. Visible light communication is a communication technology that uses visible light. By transmitting visible light from the light emitting element of the visible light communication device on the transmission side, the visible light receiving device of the visible light communication device on the receiving side receives the light. Send and receive information. Some mobile phones and mobile devices include a digital imaging device, and the digital imaging device can be used as a visible light communication device in visible light communication.

Some mobile phones and mobile devices are equipped with two devices, a digital imaging device and an infrared device. Although both devices are optical devices, it is difficult to unify them because they have different light characteristics. In current mobile phones and mobile devices, digital imaging devices are used for taking moving images in addition to still images, and are frequently used, and are indispensable devices. Furthermore, there is a feature that the device itself is easy to understand for the user, and its importance is higher than that of the infrared device.

Visible light communication is an example of a communication method for solving these problems. By using the image pickup element of the digital image pickup device for receiving visible light in addition to image pickup, a space for mounting an infrared device becomes unnecessary, leading to downsizing of the device. It is also possible to reduce the number of parts when creating a device. Visible light communication is an excellent communication technique in terms of security, safety, and flexibility.

In order to enable visible light communication with the digital imaging device, the visible light communication device is mounted on the digital imaging device. The visible light communication device is equipped with two elements, a light receiving element and a light emitting element, so that visible light can be transmitted and received. It is an object of the present invention to provide such a visible light communication device.

The above problems can be solved by the following present invention. The invention described in claim 1 is a visible light communication device comprising a visible light communication device that includes a light emitting element and a light receiving element, and in which both elements are close to each other.

By providing both the light emitting element and the light receiving element in the visible light communication device, information can be transmitted and received by visible light. This eliminates the need for a cable that connects devices when transmitting and receiving information. In addition, the light emitting element and the light receiving element are arranged close to each other to reduce the size of the visible light communication device as much as possible.

According to a second aspect of the present invention, the visible light communication device comprises a visible light communication device that is mounted on a digital imaging device.

A device equipped with a visible light communication device can perform visible light communication between devices equipped with the visible light communication device. By mounting a visible light communication device on a digital imaging device, when transmitting and receiving information between the digital imaging device and another device, if the other device has a visible light communication device, the visible light communication Information can be sent and received.

In visible light communication, an image pickup device can be used as a light receiving device for visible light. Since the image pickup device is mounted on the digital image pickup device, information can be transmitted and received by visible light by newly mounting a light emitting device. The visible light communication apparatus according to the present invention includes a video imaging element that captures video and receives information and a light-emitting element that transmits information. In other words, the visible light communication device of the present invention has two functions of video shooting and information transmission / reception. Conventional mobile phones and mobile devices are equipped with two optical devices, a video shooting device for video shooting and an infrared device for information communication. According to the present invention, a digital imaging device and an information transmission / reception device are optical devices. Can be combined into one. As a result, a communication device such as an infrared device becomes unnecessary, and the device equipped with the visible light communication device can be downsized.

The invention described in claim 3 is characterized in that, in the visible light communication device, a light receiving state of visible light is displayed on a photographing target confirmation unit of a digital imaging device equipped with the visible light communication device and can be visually confirmed. It consists of a visible light communication device.

The visible light communication device according to the present invention is mounted on a digital imaging device, and a video imaging device included in the digital imaging device is a visible light receiving element. That is, the image pickup device has two functions of image pickup and visible light reception. In the digital imaging device, the video imaged by the video image sensor is displayed on the imaging target confirmation unit. Since visible light is visible light, an image in which the image pickup device receives visible light is also displayed on the photographing target confirmation unit. It is possible to confirm whether or not visible light is received by the photographing object confirmation unit, and to obtain desired information quickly and reliably.

The above-described present invention will be described with reference to the drawings. However, the present invention is not limited to these drawings. In the figure, a camera-equipped mobile phone equipped with a visible light communication device according to the present invention is shown as an example of a digital imaging device that receives visible light, a camera as an example of a video imaging device, and a digital imaging device as an example of a photographing target confirmation unit. A camera-equipped mobile phone equipped with a visible light communication device according to the present invention is given as an example of a device that transmits visible light as an imaging target confirmation unit of a mobile phone. In the figure, reference numeral 1 denotes a conventional camera-equipped mobile phone body (hereinafter referred to as a conventional mobile phone), 2 denotes an infrared device, 3 denotes a camera, 4 denotes a photographing target confirmation unit, 5 denotes a conventional visible light communication device, 10 denotes Visible light, 11 is a mobile phone with a camera (hereinafter referred to as a mobile phone with an invention) equipped with the visible light communication device of the present invention, 12 is a visible light emitting element, 13 is a visible light communication device of the present invention, and 14 is An invented mobile phone body that receives visible light (hereinafter referred to as a visible light receiving mobile phone), 15 an invented mobile phone body that transmits visible light (hereinafter referred to as a visible light transmitting mobile phone), and 16 The light receiving state of the visible light 10 displayed on the object confirmation unit 4 is shown.

FIG. 1 is a diagram showing a configuration of an example of a conventional mobile phone 1. The figure shows a state in which the folding mobile phone is opened.

Many conventional mobile phones 1 are equipped with a camera 3 which is a digital imaging device. Further, the number of devices equipped with an infrared device 2 for performing infrared communication is increasing. Despite being the same optical device, two devices are installed, which hinders the miniaturization and weight reduction of mobile phones.

The left figure of FIG. 2 shows the mobile phone 11 with an invention equipped with the visible light communication device 13 of the present invention. It is a figure which shows the structure of the 1st Example of the apparatus which mounts the visible light communication apparatus 13 of this invention. The mobile phone 11 with the invention represents a state in which the folding mobile phone is opened.

The right figure of FIG. 2 shows the mobile phone 11 with an invention equipped with the visible light communication device 13 of the present invention. The mobile phone 11 with an invention of the left figure is shown open.

As shown in FIG. 2, the visible light communication device 13 of the present invention is mounted on the mobile phone 11 with the invention. The visible light communication device 13 of the present invention is equipped with a light emitting element 12 for visible light 10 and a camera 3 as a light receiving element. As a result, the mobile phone 11 with the invention can receive information transmitted from a device equipped with a visible light transmitting element and transmit information to a device equipped with a visible light receiving element. Visible light communication, which is more advantageous than conventional infrared communication, can be performed, so that the infrared device 2 mounted on the conventional mobile phone 1 for performing infrared communication becomes unnecessary.

The place where the visible light communication device 13 of the present invention is mounted is not limited to the place shown in FIG. It is optional if it is in a mobile phone.

FIG. 3 is a diagram showing an example of a visible light communication device 5 mounted on a digital imaging device such as a conventional mobile phone 1.

A visible light communication device 5 mounted on a conventional cellular phone 1 or the like is equipped with a video image pickup device 3 such as a CCD camera and is used for shooting a video.

FIG. 4 is a diagram illustrating an example of the visible light communication device 13 according to the present invention.

In the visible light communication device 13 according to the present invention, a light emitting element 12 is mounted in addition to the image pickup device 3 mounted in the conventional visible light communication device 5. Further, the light-emitting element 12 and the image pickup element 3 as a light-receiving element are mounted close to each other. The light-emitting element 12 and the image pickup element 3 are mounted close to each other to make the visible light communication device 13 as small as possible. Thereby, size reduction of the apparatus which mounts the visible light communication apparatus 13 is implement | achieved.

The place where the light emitting element 12 is mounted is not limited to the place shown in FIG. It may be anywhere near the image pickup device 3 in the visible light communication device 13.

FIG. 5 is a flowchart showing a detailed operation of visible light communication using a digital imaging device equipped with the visible light communication device 13 of the present invention. The operation of the present invention will be described with reference to this figure.

As a first procedure, a visible light transmitter that transmits information to be received is found (S1). As a second procedure, the light emitting element of the digital imaging device that receives visible light is directed toward the visible light transmitting element of the transmitting device (S2). At this time, the distance between the digital imaging device and the transmission-side device is within the irradiation distance of the visible light communication device. As a third procedure, the digital imaging device is directed toward the transmitting device while looking at the photographing target confirmation unit of the digital imaging device so that visible light can be correctly received by the light receiving element (S3). If no visible light is displayed on the photographing target confirmation unit of the digital imaging device, the location and orientation of the digital imaging device are adjusted until they are displayed (S4). The digital imaging device acquires information from visible light and analyzes it (S5). The analysis result is displayed on the photographing target confirmation unit of the digital imaging device (S6).

FIG. 6 shows the state 16 of the visible light 10 in the photographing target confirmation unit 4 of the mobile phone 11 with the invention when the visible light receiving mobile phone 14 equipped with the visible light communication device 13 according to the present invention receives the visible light 10. It is the figure which showed a mode that it is displayed. In the drawing, the visible light 10 is shown, and the light receiving state 16 of the visible light 10 displayed on the photographing target confirmation unit 4 is an image diagram.

The visible light communication device according to the present invention is mounted on a digital imaging device. The digital imaging device displays the video imaged by the video image sensor on the imaging target confirmation unit. Since visible light is visible light, when the image pickup device projects visible light, the visible light is also displayed on the photographing target confirmation unit. While displaying the shooting state on the shooting target confirmation unit, the location of the digital image sensor can be adjusted to receive visible light, and the desired information can be acquired quickly and reliably.

As shown in FIG. 6, on the photographing target confirmation unit 4 of the visible light receiving mobile phone 14, an image displayed by the camera 3 of the mobile phone 14 is displayed 16. The photographing target confirmation unit 4 can perform photographing while visually confirming whether the camera 3 captures the visible light 10. In FIG. 6, it can be seen that the visible light 10 is displayed on the photographing target confirmation unit 5 of the visible light receiving mobile phone 14 and the information can be received. If the visible light 10 is not displayed on the photographing target confirmation unit 5, the direction and angle of the visible light receiving mobile phone 14 are adjusted.

In addition, since visible light is visible light, even when information is transmitted by the visible light transmitting mobile phone 15, the sender can see where the visible light 10 is. Therefore, the sender can adjust the direction and angle of the visible light transmitting mobile phone 15 so that the visible light receiving device can receive the visible light while following the direction of the visible light 10.

The invention's effect

According to the visible light communication device of the present invention, information can be transmitted and received by visible light communication between a digital imaging device equipped with the visible light communication device of the present invention and another device having a visible light emitting element or a light receiving element. . This eliminates the need for cables conventionally required for transmitting and receiving information between various devices. Furthermore, in the conventional digital imaging device, video shooting and information transmission / reception are performed by dedicated devices, respectively, and two devices are mounted. However, since the visible light communication device of the present invention has the two functions, the number of devices can be reduced. As a result, it is possible to reduce the size and weight of the digital imaging device equipped with the visible light communication device of the present invention.

Furthermore, the visible light communication apparatus of the present invention uses a video image pickup element that is originally provided in a digital image pickup apparatus on which it is mounted as a light receiving element. The digital imaging device displays the video imaged by the video image sensor on the imaging target confirmation unit. By using the image pickup element as a light receiving element, the state of visible light captured by the image pickup element is also displayed on the shooting target confirmation unit. Therefore, information can be received quickly and reliably while confirming the position where the visible light is transmitted by the photographing target confirmation unit.

It is the figure which showed an example of the structure of the conventional digital imaging device. It is the figure which showed the 1st example of the structure of the digital imaging device carrying the visible light communication apparatus of this invention. It is the figure which showed an example of the structure of the conventional visible light communication apparatus. It is the figure which showed an example of the structure of the visible light communication apparatus of this invention. It is a flowchart which shows the detailed operation | movement of visible light communication using the visible light communication apparatus of this invention. It is an image figure which shows a mode that information is received with the digital imaging device carrying the visible light communication apparatus of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Conventional mobile phone body with camera 2 Infrared device 3 Camera 4 Shooting target confirmation unit 5 Conventional visible light communication device 10 Visible light 11 Mobile phone with camera 12 equipped with the visible light communication device of the present invention Visible light emitting element 13 Visible Light Communication Device 14 Invented Mobile Phone 15 that Receives Visible Light Invented Mobile Phone 16 that Transmits Visible Light Visible Light 10 Displayed on Imaging Target Confirmation Unit 4 of the Invented Mobile Phone that Receives Visible Light Light reception status

Claims (3)

A visible light communication apparatus, comprising: a light emitting element and a light receiving element; and both elements are close to each other. The visible light communication device according to claim 1, wherein the visible light communication device is mounted on a digital imaging device. 3. The visible light communication device according to claim 1, wherein a visible light receiving state is displayed on a photographing target confirmation unit of a digital imaging device equipped with the visible light communication device and can be visually confirmed. Visible light communication device.

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