Holographic real-time communication device
[ technical field ] A method for producing a semiconductor device
The utility model relates to the technical field of holographic projection, in particular to a holographic real-time communication device.
[ background of the utility model ]
As is well known, holographic projection is a technique for recording and reproducing a true three-dimensional image of an object using the principles of interference and diffraction. The existing holographic interaction technology is that a digital holographic image scene is made in advance through a computer image vision technology, and corresponding information instructions are received by matching with corresponding touch, body feeling, infrared and other equipment to load corresponding holographic images; the other method is to make digital holographic image scenes in advance through a computer image vision technology, and passively watch the displayed virtual 3D content through a special holographic image presentation device, such as a holographic transparent display cabinet which can be watched at 360 degrees. However, the two ways of interactive contents need to be customized in advance, the rotation is prefabricated in advance, the contents can be rotated, the operation beyond the setting is ineffective, and a viewer can only passively accept the contents, but cannot realize real-time communication of people through holography.
Accordingly, the prior art is in need of improvement and development.
[ Utility model ] content
The utility model aims to provide a holographic real-time communication device, which is used for solving the problem that the real-time interaction cannot be realized by the conventional holographic interaction.
The technical scheme of the utility model is as follows: a holographic real-time communication device comprises a holographic acquisition end and a holographic reduction end,
the holographic acquisition end comprises: the system comprises a plurality of first collecting devices, a second collecting device, a display, a first loudspeaker, a first processor and first terminal equipment, wherein the first collecting devices are used for collecting the portrait of a holographic collecting end and environmental information;
the holographic reduction end comprises: the holographic projection device is used for restoring information acquired by the first acquisition device, the second loudspeaker is used for playing sound acquired by the second acquisition module, the third acquisition device is used for acquiring portrait and environmental information, the fourth acquisition device is used for acquiring sound of a holographic reduction end, the second processor is respectively electrically connected with the holographic projection device, the second loudspeaker, the third acquisition device and the second acquisition device, and the second terminal equipment is in communication connection with the second processor and the first terminal equipment.
Preferably, the first and third acquisition devices are both cameras.
Preferably, the number of the first acquisition devices is three, and the first acquisition devices are respectively distributed on the front face, the left front part and the right front part of the portrait.
Preferably, the second collecting device and the fourth collecting device are both sound pick-up devices.
Preferably, the second acquisition means are located laterally of the first acquisition means.
Preferably, the first terminal device includes a first transmitting end and a first receiving end which are in communication connection with the first processor and the second terminal device.
Preferably, the second terminal device includes a second transmitting end in communication connection with the second processor and the first receiving end, and a first receiving end in communication connection with the first transmitting end and the second processor.
Preferably, the first terminal device and the second terminal device are both CPE devices.
Preferably, the first processor and the second processor are both computers.
The utility model has the beneficial effects that: compared with the prior art, the utility model utilizes the first acquisition module and the second acquisition module to acquire the portrait, the environment and the sound information of the holographic acquisition end in real time, utilizes the first processor to process and send the information by the first terminal equipment, utilizes the holographic projection device to reproduce the information acquired by the first acquisition module and utilizes the second loudspeaker to play the acquired sound, and realizes that people in the holographic reduction end can watch and hear the portrait and the spoken words of the holographic acquisition end in real time. The display screen and the first loudspeaker are arranged at the holographic acquisition end to respectively restore the information acquired by the third acquisition device and the fourth acquisition device, so that people at the holographic acquisition end can watch and hear the reaction and the words of the people at the holographic acquisition end in real time, real-time holographic interaction is realized, the sense of reality of communication between people at two places is increased, and the true meaning of the other party is conveniently and correctly understood.
[ description of the drawings ]
FIG. 1 is a schematic diagram of a holographic real-time communication device of the present invention.
FIG. 2 is a schematic diagram of a holographic real-time communication device according to the present invention.
[ detailed description ] embodiments
The utility model is further described with reference to the following figures and embodiments.
Referring to fig. 1-2, the present invention provides a holographic real-time communication device. The holographic real-time communication device comprises a holographic acquisition end 10 and a holographic reduction end 20.
The holographic collection end 10 comprises a first collection device 11, a second collection device 12, a display 13, a first loudspeaker 14, a first processor 15 and a first terminal device 16, and the holographic reduction end 20 comprises a holographic projection device 21, a second loudspeaker 22, a third collection device 23, a fourth collection device 24, a second processor 25 and a second terminal device 26. The first collection device 11, the second collection device 12, the display 13, the first speaker 14 and the first terminal device 16 are all electrically connected to the first processor 15, and the holographic projection device 21, the second speaker 22, the third collection device 23, the fourth collection device 24 and the second terminal device 26 are all electrically connected to the second processor 25.
In the holographic acquisition end 10, a first acquisition device 11 is arranged in front of people and is used for acquiring the portrait of the holographic acquisition end 10 and the information of the surrounding environment of the portrait; the second collecting device 12 is arranged around people and used for collecting the sound of people; the display 13 is used for displaying the portrait and the environment of the holographic reduction end 20, so that people in the holographic acquisition end 10 can observe the limb change and the expression change of the figure of the holographic reduction end 20 conveniently, and people in the holographic acquisition end 10 can express own ideas and the like better; the first loudspeaker 14 is used for playing the sound of the holographic reduction end 20 to realize the communication between people at two ends; the first processor 15 is configured to process information acquired by the first acquisition device 11 and the second acquisition device 12, perform image processing on an image acquired by the first acquisition device 11 in real time through internal software, such as adjusting image depth of field, edge brightness, image contrast, code compression, and the like, realize a data basis for holographic virtual naked eye 3D reduction and reconstruction of the image, transmit the data basis to the first terminal device 16, and send the data basis to the holographic reduction terminal 20 by using a remote terminal device. In addition, the first terminal device 16 is also used for receiving data sent from the holographic reduction end 20.
In the holographic reduction end 20, the device sent from the first terminal device 16 is received by the second terminal device 26, and is transferred to the second processor 25, and the second processor 25 reduces the data by the holographic projection device 21 and the second speaker 22, that is, the image information collected by the first collection device 11 is reduced by the holographic projection device 21, and the sound collected by the second collection module is reduced by the second speaker 22. In addition, in the holographic reduction end 20, the portrait and the environmental information of the holographic reduction end 20 are collected by the third collection device and transmitted to the second processor 25 for processing, the sound in the holographic reduction end 20 is collected by the fourth collection device 24 and transmitted to the second processor 25 for processing, the second terminal device 26 transmits the data processed by the second processor 25 to the first terminal device 16, and the first processor 15 restores the data information in real time through the display 13 and the first loudspeaker 14.
Therefore, people in the holographic reduction end 20 can see the action and expression of the portrait of the holographic acquisition end 10 and the words spoken by the portrait in real time, and people in the holographic acquisition end 10 can also see the reaction and words spoken by the people in the holographic reduction end 20 in real time, so that real-time holographic interaction is realized, the sense of reality of communication between two people is increased, and the real meaning of the other person can be more correctly understood.
Specifically, the first acquisition device 11 and the third acquisition device 23 are both cameras. In one embodiment, the number of the first capturing devices 11 may be three, and the three first capturing devices are respectively distributed on the front side, the front left side and the front right side of the portrait. In another embodiment, the number of the first capturing devices 11 may be four, two of which are disposed in parallel on the front side of the portrait, and the other two of which are disposed in front of the left and right sides, respectively. The first capturing device 11 may be configured according to the number of speakers, and is not limited herein.
The second pickup device 12 and the fourth pickup device 24 are both microphones. Is better. The second collecting device 12 is located at a side of the first collecting device 11, so as to collect and clarify the voice of the person speaking, and is not limited herein.
The first terminal device 16 includes a first transmitting end 161 and a first receiving end 162 communicatively coupled to the first processor 15 and the second terminal device 26. The first transmitter 161 is configured to transmit data from the first processor 15 to the second terminal device 26, and the first receiver 162 is configured to receive data transmitted from the second terminal device 26 and transmit the data to the first processor 15. The second terminal device 26 includes a second transmitting end 262 communicatively connected to the second processor 25 and the first receiving end 162, and a second receiving end 261 communicatively connected to the first transmitting end 161 and the second processor 25, where the second receiving end 261 is configured to receive data sent by the first transmitting end 161 and transmit the data to the second processor 25, and the second transmitting end 262 is configured to transmit data of the second processor 25 to the first receiving end 162.
The first processor 15 and the second processor 25 are computers. The first end device 16 and the second end device 26 are preferably CPE devices. Through CPE equipment, the communication delay between the holographic acquisition end 10 and the holographic reduction end 20 is less than 300ms, the delay is effectively reduced, and the communication between two people is smoother.
While the foregoing is directed to embodiments of the present invention, it will be understood by those skilled in the art that various changes may be made without departing from the spirit and scope of the utility model.