阅读说明：本技术 图像处理方法、头戴显示设备和头戴显示系统 (Image processing method, head-mounted display device and head-mounted display system ) 是由 欧阳豪 张慧雯 于 2017-12-11 设计创作，主要内容包括：一种图像处理方法、头戴显示设备(10)和头戴显示系统(100)。图像处理方法运行于头戴显示设备(10)上,头戴显示设备(10)包括左眼显示屏(13)和右眼显示屏(14)。图像处理方法包括：判断是否接收到3D图像的单帧图像的左眼图画(S11),其中,3D图像为帧封装格式,每一单帧图像包括左眼图画和右眼图画；和当接收到单帧图像的左眼图画时,控制左眼显示屏(13)显示当前帧图像的左眼图画的同时控制右眼显示屏(14)显示与当前帧图像相邻的上一帧图像的右眼图画(S12)。(image processing method, a head-mounted display device (10) and a head-mounted display system (100), the image processing method is operated on the head-mounted display device (10), the head-mounted display device (10) comprises a left eye display screen (13) and a right eye display screen (14), the image processing method comprises the steps of judging whether a left eye picture of a single frame image of a 3D image is received (S11), wherein the 3D image is in a frame packing format, and each single frame image comprises the left eye picture and the right eye picture, and when the left eye picture of the single frame image is received, controlling the left eye display screen (13) to display the left eye picture of a current frame image and controlling the right eye display screen (14) to display the right eye picture of an upper frame image adjacent to the current frame image (S12).)

image processing method, operating on a head-mounted display device, the head-mounted display device comprising a left eye display screen and a right eye display screen, the image processing method comprising:

determining whether a left-eye picture of a single-frame image of a 3D image is received, wherein the 3D image is in a frame packing format, and the single-frame image includes a left-eye picture and a right-eye picture every , and

when the left eye picture of the single frame image is received, controlling the left eye display screen to display the left eye picture of the current frame image and simultaneously controlling the right eye display screen to display the right eye picture of the upper frame images adjacent to the current frame image.

The image processing method according to claim 1, characterized in that the image processing method further comprises:

receiving a right-eye picture of the current frame image; and

and controlling the right-eye display screen to display the received right-eye picture of the current frame image and controlling the left-eye display screen to display the left-eye picture of the current frame image.

The image processing method according to claim 2, wherein the head-mounted display device includes a memory, the image processing method comprising:

storing the received right eye picture of the single frame image in the memory;

reading a right-eye picture of the upper frame image from the memory upon receiving a left-eye picture of the current frame image, and

and controlling the left eye display screen to display the received left eye picture of the current frame image and simultaneously controlling the right eye display screen to display the read right eye picture of the upper frame image.

The image processing method according to claim 2, wherein the head-mounted display device includes a memory in which preset right-eye pictures and the received right-eye picture of the single-frame image are stored, the image processing method comprising:

when receiving the left-eye picture of the single-frame image, judging whether the single-frame image is th frame image;

when the single frame image is the th frame image, reading the preset right-eye picture from the memory, controlling the left-eye display screen to display the left-eye picture of the current frame image and simultaneously controlling the right-eye display screen to display the preset right-eye picture, wherein the preset right-eye picture is a copy of the right-eye picture of the th frame image, and

when the single frame image is not the th frame image, reading a right-eye picture of the upper frame image from the memory, and controlling the left-eye display screen to display a left-eye picture of the current frame image while controlling the right-eye display screen to display the read right-eye picture of the upper frame image.

The image processing method according to claim 1, characterized in that the image processing method comprises:

the left-eye picture and the right-eye picture of each of the single-frame image are received line by line.

head-mounted display equipment, which is characterized by comprising a receiving chip, a processing device, a left eye display screen and a right eye display screen, wherein the processing device is connected with the receiving chip, the left eye display screen and the right eye display screen;

the receiving chip is used for receiving a 3D image, wherein the 3D image is in a frame packaging format, and each single-frame image comprises a left-eye picture and a right-eye picture;

the processing device is used for:

judging whether a left-eye picture of the single-frame image is received; and

when the left eye picture of the single frame image is received, controlling the left eye display screen to display the left eye picture of the current frame image and simultaneously controlling the right eye display screen to display the right eye picture of the upper frame images adjacent to the current frame image.

The head-mounted display device of claim 6, wherein the processing means is further configured to:

and controlling the right-eye display screen to display the received right-eye picture of the current frame image and controlling the left-eye display screen to display the left-eye picture of the current frame image.

The head-mounted display device of claim 7, wherein the head-mounted display device comprises a memory, and the processing device is coupled to the memory, and configured to:

storing the received right eye picture of the single frame image in the memory;

reading a right-eye picture of the upper frame image from the memory upon receiving a left-eye picture of the current frame image, and

and controlling the left eye display screen to display the received left eye picture of the current frame image and simultaneously controlling the right eye display screen to display the read right eye picture of the upper frame image.

The head-mounted display device according to claim 7, wherein the head-mounted display device comprises a memory, the processing means is connected to the memory, the memory stores preset right-eye pictures and received right-eye pictures of the single-frame images, and the processing means is configured to:

when receiving the left-eye picture of the single-frame image, judging whether the single-frame image is th frame image;

when the single frame image is the th frame image, reading the preset right-eye picture from the memory, controlling the left-eye display screen to display the left-eye picture of the current frame image and simultaneously controlling the right-eye display screen to display the preset right-eye picture, wherein the preset right-eye picture is a copy of the right-eye picture of the th frame image, and

when the single frame image is not the th frame image, reading a right-eye picture of the upper frame image from the memory, and controlling the left-eye display screen to display a left-eye picture of the current frame image while controlling the right-eye display screen to display the read right-eye picture of the upper frame image.

The head-mounted display device of claim 6, wherein the receiving chip is configured to receive the left-eye picture and the right-eye picture of each of the single-frame images line by line.

The head-mounted display device according to claim 6, wherein the receiving chip is an HDMI receiving chip.

The head-mounted display device of claim 6, wherein the processing means is an FPGA.

A head mounted display system, comprising:

a player, and

the head-mounted display equipment is connected with the player and comprises a receiving chip, a processing device, a left eye display screen and a right eye display screen, and the processing device is connected with the receiving chip, the left eye display screen and the right eye display screen;

the player is used for outputting a 3D image, wherein the 3D image is in a frame packing format, and each single-frame image comprises a left-eye picture and a right-eye picture;

the receiving chip is used for: receiving the 3D image;

the processing device is used for:

judging whether a left-eye picture of the single-frame image is received; and

when the left eye picture of the single frame image is received, controlling the left eye display screen to display the left eye picture of the current frame image and simultaneously controlling the right eye display screen to display the right eye picture of the upper frame images adjacent to the current frame image.

The head-mounted display system of claim 13, wherein the processing device is further configured to:

and controlling the right-eye display screen to display the received right-eye picture of the current frame image and controlling the left-eye display screen to display the left-eye picture of the current frame image.

The head-mounted display system of claim 14, wherein the head-mounted display device comprises a memory, and the processing device is coupled to the memory, and configured to:

storing the received right eye picture of the single frame image in the memory;

reading a right-eye picture of the upper frame image from the memory upon receiving a left-eye picture of the current frame image, and

and controlling the left eye display screen to display the received left eye picture of the current frame image and simultaneously controlling the right eye display screen to display the read right eye picture of the upper frame image.

The head-mounted display system according to claim 14, wherein the head-mounted display device comprises a memory, the processing means is connected to the memory, the memory stores preset right-eye pictures and received right-eye pictures of the single-frame images, the processing means is configured to:

when receiving the left-eye picture of the single-frame image, judging whether the single-frame image is th frame image;

when the single frame image is the th frame image, reading the preset right-eye picture from the memory, controlling the left-eye display screen to display the left-eye picture of the current frame image and simultaneously controlling the right-eye display screen to display the preset right-eye picture, wherein the preset right-eye picture is a copy of the right-eye picture of the th frame image, and

when the single frame image is not the th frame image, reading a right-eye picture of the upper frame image from the memory, and controlling the left-eye display screen to display a left-eye picture of the current frame image while controlling the right-eye display screen to display the read right-eye picture of the upper frame image.

The head-mounted display system of claim 14, wherein the player is configured to output left-eye and right-eye pictures per of the single-frame image line by line, and the receiving chip is configured to receive left-eye and right-eye pictures per of the single-frame image line by line.

The head-mounted display system of claim 13, wherein the receiving chip is an HDMI receiving chip.

The head-mounted display system of claim 13, wherein the processing device is an FPGA.