Video wall

A video wall.

A video wall is a special multi-monitor setup that consists of multiple computer monitors, video projectors, or television sets tiled together contiguously or overlapped in order to form one large screen. Typical display technologies include LCD panels, Direct View LED arrays, blended projection screens, Laser Phosphor Displays, and rear projection cubes.[1]

Screens specifically designed for use in video walls usually have narrow bezels in order to minimize the gap between active display areas, and are built with long-term serviceability in mind.[2] Such screens often contain the hardware necessary to stack similar screens together, along with connections to daisy chain power, video, and command signals between screens.[3] A command signal may, for example, power all screens in the video wall on or off, or calibrate the brightness of a single screen after bulb replacement.

Reasons for using a video wall instead of a single large screen can include the ability to customize tile layouts, greater screen area per unit cost, and greater pixel density per unit cost, due to the economics of manufacturing single screens which are unusual in shape, size, or resolution.

Video walls are sometimes found in control rooms, stadiums, and other large public venues. Examples include the video wall in Oakland International Airport's baggage claim,[4] where patrons are expected to observe the display at long distances, and the 100 screen video wall at McCarran International Airport, which serves as an advertising platform for the 40 million passengers passing through airport annually.[5] Video walls can also benefit smaller venues when patrons may view the screens both up close and at a distance, respectively necessitating both high pixel density and large size. For example, the 100-inch video wall located in the main lobby of the Lafayette Library and Learning Center has enough size for the distant passerby to view photos while also providing the nearby observer enough resolution to read about upcoming events.[6]

Simple video walls can be driven from multi-monitor video cards, however more complex arrangements may require specialized video processors, specifically designed to manage and drive large video walls.[2] Software-based video wall technology that uses ordinary PCs, displays and networking equipment can also be used for video wall deployments.[7] [8]

The largest video wall as of 2013 is located at the backstretch of the Charlotte Motor Speedway motorsport track. Developed by Panasonic, it measures 200 by 80 feet (61 by 24 m) and uses LED technology. The Texas Motor Speedway will install in 2014 an even larger screen, measuring 218 by 125 feet (66 by 38 m).[9]

Video walls are not limited to a single purpose but are now being used in dozens of different applications. The global video wall market is expected to double by 2020 as technology continues to advance.[10]

Video wall controller

Rear projection displays with narrow mullions.

Video wall controller (sometimes called “processor”) is a device that splits a single image into parts to be displayed on individual screens. Video wall controllers can be divided into groups:

  1. Hardware-based controllers.
  2. Software-based PC & video-card controllers.

Hardware-based controllers are electronic devices built for specific purpose. They usually are built on array of video processing chipsets and do not have an operating system. The advantage of using a hardware video wall controller is high performance and reliability. Disadvantages include high cost and the lack of flexibility.

The most simple example of video wall controller is single input multiple outputs scaler. It accepts one video input and splits the image into parts corresponding to displays in the video wall.[11]

Most of professional video wall displays also have built-in controller (sometimes called an integrated video matrix processor or splitter). This matrix splitter allows to “stretch” the image from a single video input across all the displays within the whole video wall (typically arranged in a linear matrix, e.g., 2x2, 4x4, etc.). These types of displays typically have loop-through output (usually DVI) that allows installers to daisy-chain all displays and feed them with the same input. Typically setup is done via the remote control and the on-screen display. It is fairly simple method to build a video wall but it has some disadvantages. First of all, it is impossible to use full pixel resolution of the video wall because the resolution cannot be bigger than the resolution of the input signal. It is also not possible to display multiple inputs at the same time.[12]

Software-based PC & video-card controllers is a computer running an operating system (e.g., Windows, Linux, Mac) in a PC or server equipped with special multiple-output graphic cards and optionally with video capture input cards. These video wall controllers are often built on industrial-grade chassis due to the reliability requirements of control rooms and situational centers. Though this approach is typically more expensive, the advantage of a software-based video wall controller vs the hardware splitter is that it can launch applications like maps, VoIP client (to display IP cameras), SCADA clients, Digital Signage software that can directly utilize the full resolution of the video wall. That is why software-based controllers are widely used in control rooms and high-end Digital Signage.[13] The performance of the software controller depends on both the quality of graphic cards and management software. There are a number of multi-head (multiple output) graphic cards commercially available. Most of general purpose multi-output cards manufactured by AMD (Eyefinity technology), NVidia (Mosaic technology) support up to 6-12 genlocked outputs. General purpose cards also do not have optimizations for displaying multiple video streams from capture cards. To achieve larger number of displays or high video input performance one needs to use specialized graphic cards (e.g. Datapath Limited, Matrox Graphics, Jupiter Systems).[14][15][16][17] Video wall controllers typically support bezel correction (outside frame of monitor) to correct for any bezel with LED displays or overlap the images to blend edges with projectors.

Matrix, grid and artistic layouts

4x3 video wall under construction.

The integrated video wall scalers are often limited to matrix grid layouts (e.g., 2x2, 3x3, 4x4, etc.) of identical displays. Here the aspect ratio remains the same but the source-image is scaled across the number of displays in the matrix. More advanced controllers enable grid layouts of any configuration (e.g., 1x5, 2x8, etc.) where the aspect ratio of the video wall can be very different from that of individual displays. Others enable displays to be placed anywhere within the canvas, but are limited to portrait or landscape orientation. The most advanced video wall controllers enable full artistic control of the displays, enabling a heterogeneous mix of different displays as well as 360deg multi-angle rotation of any individual display within the video wall canvas.

Multiple Simultaneous Sources

Advanced video wall controllers will allow you to output multiple sources to groups of displays within the video wall and change these zones at will even during live playback. The more basic scalers only allow you to output a single source to the entire video wall.

Network video wall

Some video wall controllers can reside in the server room and communicate with their "graphics cards" over the network. This configuration offers advantages in terms of flexibility. Often this is achieved via a traditional video wall controller (with multiple graphics cards) in the server room with a "sender" device attached to each graphics output and a "receiver" attached to each display. These sender/receiver devices are either via Cat5e/Cat6 cable extension or via a more flexible and powerful "video over IP" that can be routed through traditional network switches. Even more advanced is a pure network video wall where the server does not require any video cards and communicates directly over the network with the receiver devices. [18]

A network configuration allows video walls to be synchronized with individual digital signs. This means that video walls of different sizes and configurations, as well as individual digital displays can all show the same content at the same time, referred to as 'mirroring'.

Transparent video walls

Transparent video walls combine transparent LCD screens with a video wall controller to display video and still images on a large transparent surface. Transparent displays are available from a variety of companies and are common in retail and other environments that want to add digital signage to their window displays or in store promotions. Bezel-less transparent displays can be combined using certain video wall controllers to turn the individual displays into a video wall to cover a significantly larger surface.[19]

Rendering clusters

See also

References

  1. http://www.fractal.ae/digital-signage-hardware/
  2. 1 2 "What is a Video Wall?". Retrieved 2011-01-31.
  3. "Clarity Margay II Specifications". Retrieved 2011-01-31.
  4. "Terminal 2 Baggage Claim Building Opens In July" (PDF). Oakland International Travel Planner. Port of Oakland. 2006-. p. 12. Retrieved 2011-02-01. An 8-foot by 21-foot video wall featuring finished works by local artists commissioned by the Port of Oakland Check date values in: |date= (help)
  5. "Las Vegas Airport 100 Screen Video Wall". CineMassive. Retrieved 2015-05-14.
  6. "Living Media Wall". Retrieved 2011-01-31.
  7. 1 2 "Startup of the Week: Hiperwall".
  8. "Userful Delivers Affordable Artistic Mosaic Video Wall Solution".
  9. World’s largest HD video board to be built at Texas Motor Speedway - NBC Sports, 23 September 2013
  10. "The video wall market is growing rapidly - likely to double by 2020". WhaTech.com. Retrieved 2015-05-14.
  11. Keene, David. "Video Wall Webinar Archive Open for Attendance". AVNetwork - Digital Signage Weekly. Retrieved 15 September 2014.
  12. "Panasonic Intros New Digital Signage Displays, Including Its First Video Wall Display". Rave Publications.
  13. McMurray, Ian (26 January 2011). "LTP installs media wall". Installation International.
  14. McGrath, James. "Datapath introduces quad channel video capture card". Installation International. Retrieved 15 September 2014.
  15. Andy, Patrizio. "Matrox lives for another millennium, but with AMD at its heart". ITWorld. Retrieved 15 September 2014.
  16. "InfoComm 2014: Matrox Presents the Matrox Mura MPX Video Wall Solution". Rave Publications. Retrieved 15 September 2014.
  17. Underwood, Emily. "Get the Big Picture: 17 Video Walls to See at InfoComm". Commercial Integrator. Retrieved 15 September 2014.
  18. "Rise of the Network Video Wall".
  19. "Userful and WG Electronic Transparent Video Walls".
  20. L. Renambot, R. Rao, A.and Singh, B. Jeong, N. Krishnaprasad, V. Vishwanath, V. Chandrasekhar, N. Schwarz, A. Spale, C. Zhang, G. Goldman, J. Leigh, and A. Johnson. "Sage: the scalable adaptive graphics environment." In Proceedings of the Workshop on Advanced Collaborative Environments, September 2004.
  21. Greg Humphreys, Mike Houston, Ren Ng, Randall Frank, Sean Ahern, Peter D. Kirchner, and James T. Klosowski. "Chromium: a stream-processing framework for interactive rendering on clusters." ACM Transactions on Graphics (TOG), 21(3):693–702, 7 2002.
  22. D. Hughes. "Sinking in a sea of pixels - the case for media fusion." In Proceedings of Immersive Projection Technology Workshop, May 2004.

External links

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