In this video, i have explained 3DTV - 3 Dimensional Television System in Audio and Video Engineering, Television Engineering with following timecodes:
0:00 - Audio Video System / Television Engineering Lecture Series
0:17 - Outlines of 3DTV
1:00 - Basics of 3DTV
2:53 - What is 3DTV
5:21 - How to obtain 3D image from 2D image
7:45 - Block Diagram of 3DTV
9:51 - 3D Display Techniques
11:52 - Advantages of 3DTV
Following points are covered in this video:
0. 3DTV
1. Three Dimensional Television System
2. Basics of 3DTV
3. What is 3DTV
4. How to obtain 3D image from 2D image
5. Block Diagram of 3DTV
6. 3D Display Techniques
7. Advantages of 3DTV
Engineering Funda channel is all about Engineering and Technology. Here this video is a part of Audio and Video Engineering, Television Engineering.
#3DTV, #Whatis3DTV, #Howtoobtain3Dimagefrom2Dimage, #3DDisplayTechniques, #AudioandVideoSystem, #TelevisonEngineering
Details of 3DTV - 3 Dimensional Television System, Block Diagram of 3DTV, 3D Display Techniques, TV Engineering:
3DTV (3 Dimensional Television System) is a type of television system that provides viewers with a three-dimensional viewing experience. In 3DTV, the images displayed on the screen appear to have depth, giving the impression that the viewer is seeing a 3D scene.
Block Diagram of 3DTV:
The block diagram of a 3DTV system typically includes the following components:
3D Camera: Captures 3D content using a variety of techniques such as stereoscopic or multiview cameras.
3D Processor: Converts the captured 3D content into a format that can be displayed on a 3D TV.
3D Display: Displays the 3D content using various techniques such as active or passive glasses or autostereoscopic displays.
3D Glasses: Used by viewers to perceive the 3D content.
3D Display Techniques:
There are several techniques used to create a 3D display. Some of the most common techniques are:
Stereoscopic 3D: In this technique, two images of the same scene are captured from slightly different angles, simulating the way the left and right eyes see the world. These two images are then displayed on the TV screen and viewed using special glasses that filter the images to the corresponding eyes.
Multiview 3D: In this technique, multiple cameras capture images of the same scene from different viewpoints. These images are then displayed on the TV screen and the viewer can switch between the viewpoints to see the scene from different angles.
Autostereoscopic 3D: This technique does not require the use of special glasses. The TV display itself is designed to provide different images to each eye, creating a 3D effect without the need for glasses.
TV Engineering:
TV engineering involves the design, development, and production of television systems. TV engineering encompasses various disciplines, such as electrical engineering, mechanical engineering, and software engineering. TV engineers work on developing new technologies and improving existing ones to create better picture and sound quality, as well as improving the overall viewing experience. They are also responsible for the design and production of the different components that make up a TV, such as the display, the processor, and the sound system. TV engineers also work on developing new features and capabilities for TVs, such as 3DTV, smart TV, and high dynamic range (HDR) imaging.