The present invention relates to a projection-type video display device.
In order to control a projection-type video display device such as a liquid crystal projector, in addition to a configuration connected to a PC (Personal Computer) to transmit a command or data, a system controlled by being connected to a portable terminal is proposed. For example, Patent Literature 1 discloses a configuration in which a PDA (Personal Digital Assistance) and a liquid crystal projector are connected to each other and transmit/receive data to/from each other through a wireless LAN to control the liquid crystal projector.
PTL 1: Japanese Patent Application Laid-Open No. 2003-324494
In recent years, as the portable terminal, smart phones (multifunction portable phones) and tablet terminals have been popularized. On the other hand, liquid crystal projectors have also been able to be miniaturized and carried so as to project video images everywhere. Thus, a type of usage in which the portable terminal and the liquid crystal projector are associated with each other to display image data in the portable terminal on a screen or the like through the liquid crystal projector is supposed.
In this case, the portable terminal and the liquid crystal projector cannot be easily connected to each other, and a plurality of portable terminals are disadvantageously difficult to be selected and connected to the liquid crystal projector. For example, when a smart phone and a liquid crystal projector are connected by wireless LAN connection (for example, Wi-Fi connection: radio connection standard of Wi-Fi Alliance), an SSID (Service Set Identifier), a security password serving as identifier of an access point serving as a relay point, or the like must be input. Since a radio connection to the liquid crystal projector is configured by one system, a plurality of portable terminals are difficult to be directly connected to the projector so as to hard to freely switchably display video images of the portable terminals through the projector.
It is an object of the present invention to provide a projection-type video display device which can be easily radio-connected to a portable terminal and can freely switchably display video images sent from a plurality of portable terminals.
The present invention provides a projection-type video display device which is connected to an external device to display a video image input from the external device, the external device including a portable terminal, including a proximity communication unit which can be directly connected to the portable terminal by a radio transmission scheme without a relay station and transmits/receives device information of the projection-type video display device to/from the external device, wherein the external device is put over or touched on the proximity communication unit to transmit/receive the device information.
The present invention also provide a projection-type video display device which is connected to a plurality of external devices to display video images input from the external devices, the external devices including portable terminals, including a radio signal input unit which can be directly connected to the portable terminals by a radio transmission scheme without a relay station, selects an external device for displaying a video image from the plurality of external devices, and connects the selected external device.
According to the present invention, a projection-type video display device which can easily radio-connected to a portable terminal and can freely switchably display video images sent from a plurality of portable terminals.
An embodiment of the present invention will be described below. As a projection-type video display device, a liquid crystal projector (simply called a projector) will be exemplified. As the portable terminal, a smart phone or a tablet is supposed.
The projector 1 includes a proximity communication unit 10 over which a portable terminal (smart phone, tablet, or the like) 2 is put to transmit/receive information, and a radio signal input unit 20 which radio-inputs a video signal sent from the portable terminal 2. An NFC tag having an NFC (Near Field Communication) function is buried in the proximity communication unit 10. The NFC function has about 10 cm of a communication distance, and can easily perform data communication of device information such that one device is put over the other device or one device is touched on the other device (to be referred to as a touch function hereinafter). The radio signal input unit 20 can receive video signals from the plurality of portable terminals 2 by a Miracast scheme (Wi-Fi CERTIFIED Miracastâ„¢: radio video transmission scheme operating on Wi-Fi Direct), selects one of the video signals, and projects and displays the input video signal (to be referred to as an input selecting function hereinafter). The proximity communication unit 10 and the radio signal input unit 20 are disposed inside a housing side surface not to prevent the reflecting mirror 9 from opened/closed.
The radio signal input unit 20 can receive video signals sent from the plurality of portable terminals 2 to select one terminal from the portable terminals 2. At this time, in video transmission between each of the portable terminals 2 and the projector 1, Miracast scheme (Wi-Fi CERTIFIED Miracastâ„¢) which is established by Wi-Fi Alliance and serves as a display transmission technique achieved by one-to-one radio communication is employed. The radio signal input unit 20 includes an antenna 21, an RF chip 22, an AP chip (application processor such as a portable processor or a multi-media processor) 23, and a third memory 24. In the third memory 24, data such as an IP address, a subnet mask, and a password of the AP chip 23 required for a radio connection are stored. In an input selecting operation, when a selection signal is sent to a control signal input terminal post 26 with a remote controller or the like, a CPU 17 sends a control signal to the AP chip 23, and the AP chip 23 selects an input signal sent from a desired terminal. An image processing circuit 25 processes the selected video signal to project a video image through a projection lens. A second memory 16 stores data or the like to set an operation of the projector 1. According to the Miracast scheme, devices are directly radio-connected to each other without a router or an access point to make it possible to send video data from the portable terminal to the projector and to reproduce the video data. Furthermore, since the Miracast scheme operates on a conventional Wi-Fi system, transmission can be advantageously established even though a distance between devices is relatively long.
A new function using the projection-type video display device according to the embodiment will be described below.
In contrast to this, the projector 1 reads operating information, failure information, and the like of the projector 1 stored in the second memory 16 and temporarily transfers the information to the first memory 15. The portable terminal 2 acquires the operating information of the projector 1 from the first memory 15 with the NFC function. The portable terminal 2 transmits the acquired operating information and the acquired failure information of the projector 1 to a maintenance service company 7 through the Internet 6 to make it possible to easily perform a maintenance work (lamp replacement, filter replacement, and the like) for the projector 1.
In step S101, the CPU 17 of the projector 1 communicates with the AP chip 23 to read radio connection data (IP address, subnet mask, password, and the like) from the third memory 24 and to write the radio connection data in the first memory 15.
In step S102, the portable terminal 2 having the NFC function is touched on the projector 1. In step S103, the portable terminal 2, by the touch operation, reads the connection data (IP address and the like) stored in the first memory 15 from the antenna 11 of the projector 1.
In step S104, the portable terminal 2 sets a radio connection on the basis of the read connection data. In step S105, pairing between the portable terminal 2 and the projector 1 is established.
In step S201, the plurality of portable terminals 2a to 2c are sequentially connected to the projector 1 by the Wi-Fi Direct. In step S202, the projector 1 serves as a group owner of the Wi-Fi Direct. More specifically, the projector 1 serves as a device which performs the function of an access point among the devices connected to the projector 1 by the Wi-Fi Direct. In step S203, the PC 3 and the projector 1 are connected to each other through the access point 4.
In step S204, the PC 3 designates the projector 1 to be Miracast-connected to a desired portable terminal, for example, the portable terminal 2c. In response to this, the radio signal input unit 20 (AP chip 23) of the projector 1 selects the portable terminal 2c to make a Miracast connection. In step S205, the designated portable terminal 2c outputs a video signal to the projector 1 by the Miracast scheme. The projector 1 displays the video image received from the portable terminal 2c.
In step S206, after a desired video image is displayed by the projector 1, the PC 3 designates the projector 1 to cut the Miracast connection. In step S207, the designated portable terminal 2c deactivates the Miracast connection to the projector 1 to stop the video output.
In step S208, it is determined whether a connection to the portable terminal is switched to a connection to another portable terminal. When the connection is switched, the operation returns to step S204 to perform a Miracast connection to the other portable terminal. When the connection is not switched, the operation shifts to step S209. In step S209, a Wi-Fi Direct connection between each of the portable terminals 2a to 2c and the projector 1 is canceled.
As described above, according to the embodiment, a portable terminal and the projection-type video display device can be easily radio-connected to each other, and video images sent from a plurality of portable terminals can be freely switchably displayed by the projection-type video display device advantageously. In this manner, the usability of the projection-type video display device is considerably improved. In the embodiment, the description is given on the basis of the wireless video transmission standard Miracast established by the Wi-Fi Alliance. However, even in another wireless video transmission scheme using the Wi-Fi Direct connection, the same advantage as described above can be obtained.
1 . . . projection-type video display device (liquid crystal projector),
2 . . . portable terminal (smart phone, tablet),
3 . . . personal computer (PC),
4 . . . access point,
5 . . . projection surface (screen),
6 . . . Internet,
7 . . . maintenance service company,
8 . . . remote controller,
9 . . . reflecting mirror,
10 . . . proximity communication unit,
11 . . . antenna,
12 . . . NFC tag,
13 . . . RF circuit,
14 . . . changeover switch,
15 . . . first memory,
16 . . . second memory,
17 . . . CPU,
20 . . . radio signal input unit,
21 . . . antenna,
22 . . . RF chip,
23 . . . AP chip,
24 . . . third memory,
25 . . . image processing circuit,
26 . . . control signal input terminal pad.
Filing Document | Filing Date | Country | Kind |
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PCT/JP2013/062321 | 4/26/2013 | WO | 00 |