Virtual replay

Last updated January 02, 2025

Virtual Replay is a technology which allows people to see 3D animations of sporting events. The technology was widely used during the 2006 FIFA World Cup. During this event, bbcnews.com posted highlights of the event on their websites soon after matches concluded and users could view the 3D renderings from multiple points of view.

Virtual Replay has been widely used in sports to increase the experience of viewers at home. Virtual Replay is extremely beneficial when watching sports that involve "ball spotting", in which the spot of the ball is extremely important to the outcome of the game. This includes sports like football, soccer, volleyball, baseball, tennis, etc. One of the first instances where we see Virtual Replay being used in sports was in 1998 for Sunday Night Football when ESPN used "Sportvision's 1st& Ten" electronic first down system. This system made it so that viewers at home could see a virtual line on their TV that represented where the first down marker was on the field. After ESPN used this for the first time, 92% of viewers reported that they preferred watching games this way and 64% of viewers reported that it helped them to understand the game better.^[1] After its debut on Sunday Night Football, the MLB soon began to use its own version of the Virtual Replay system. They used this system to show real-time, 3D views of pitches, including the speed, movement and location of the ball as soon as the pitcher releases it. This helps viewers see the different types of pitches thrown and allows them to see whether it is a ball versus strike for themselves.^[2]

Virtual replay can work in a few different ways. With the technology we have today, these big stadiums and television networks are usually shooting from multiple intertwined 4k cameras that are shooting at 200 frames per second. In 2013, YES Network reported having nine static cameras calibrated in Yankee Stadium positioned along just the first base line.^[3] But, not all virtual replay is created using super fancy and expensive 4k cameras, 3D trajectory can be created using 2-dimensional tracking on multiple cameras. In baseball, two cameras that are linked to two computers are used to observe a ball and each computer extracts its own 2D trajectory. The two computers combine their pitch-tracking 2D positions which correspond to the same time code into a 3-dimensional position. These 2D trajectories are sent to a 3D reconstruction module that then creates the 3D trajectories, as well as any impact points separate trajectories (such as a ball bouncing or hitting some object). The complete track of the object is then visualized on the screen. From this, we can see the exact flight path of the ball as well as any objects it hits, how fast it is going, and exactly where it lands.^[4]

As technology advances, we are also seeing more advancements with virtual replay. With the rise of virtual reality in recent years, we are seeing a combination of virtual replay and virtual reality. We can now relive the most exciting moments in sports with this combination of virtual reality and virtual replay. Networks set up a camera that shows 360-degree video replays which allows the viewer to control the angle they look at and can turn the camera angle to view a full 360 rotation of the atmosphere around them. It is now possible to view a 360 virtual replay of the biggest sporting events like: MLB World Series, Soccer Champions League final, NFL NFC North Rivalry, Formula 1 Racing, NHL Stanley Cup Play-offs and numerous others.^[5]

Virtual replay has changed the at-home viewing experience for sports fans. This technology has not only changed the game, but it is helping outsiders to learn about the game. This is all only the beginning of what is possible with virtual replay and it will be interesting to see how it develops as technology advances.

External links

A page on bbcnews.com using virtual replay technology

Related Research Articles

Hawk-Eye is a computer vision system used to visually track the trajectory of a ball and display a profile of its statistically most likely path as a moving image. It is used in more than 20 major sports, including cricket, tennis, Gaelic football, badminton, hurling, rugby union, association football and volleyball,

QuickTime VR is an image file format developed by Apple Inc. for QuickTime, and discontinued along with QuickTime 7. It allows the creation and viewing of VR photography, photographically captured panoramas, and the viewing of objects photographed from multiple angles. It functions as plugins for the QuickTime Player and for the QuickTime Web browser plugin.

A head-mounted display (HMD) is a display device, worn on the head or as part of a helmet, that has a small display optic in front of one or each eye. HMDs have many uses including gaming, aviation, engineering, and medicine.

Instant replay or action replay is a video reproduction of something that recently occurred, both shot and broadcast live.

Anaglyph 3D is the stereoscopic 3D effect achieved by means of encoding each eye's image using filters of different colors, typically red and cyan. Anaglyph 3D images contain two differently filtered colored images, one for each eye. When viewed through the "color-coded" "anaglyph glasses", each of the two images is visible to the eye it is intended for, revealing an integrated stereoscopic image. The visual cortex of the brain fuses this into the perception of a three-dimensional scene or composition.

A virtual tour is a simulation of an existing location, usually composed of a sequence of videos, still images or 360-degree images. It may also use other multimedia elements such as sound effects, music, narration, text and floor map.

<span class="mw-page-title-main">1st & Ten (graphics system)</span> Computer system that inserts graphics into televised coverage of American football

1st & Ten is a computer system that augments televised coverage of American football by inserting graphical elements on the field of play as if they were physically present; the inserted element stays fixed within the coordinates of the playing field and obeys the visual rules of foreground objects occluding background objects. Developed by Sportvision and PVI Virtual Media Services, it is best known for generating and displaying a yellow first down line over a live broadcast of a football game—making it easier for viewers to follow play on the field. The line is not physically present on the field and is seen only by the television audience.

Autostereoscopy is any method of displaying stereoscopic images without the use of special headgear, glasses, something that affects vision, or anything for eyes on the part of the viewer. Because headgear is not required, it is also called "glasses-free 3D" or "glassesless 3D".

A parallax barrier is a device placed in front of an image source, such as a liquid crystal display, to allow it to show a stereoscopic or multiscopic image without the need for the viewer to wear 3D glasses. Placed in front of the normal LCD, it consists of an opaque layer with a series of precisely spaced slits, allowing each eye to see a different set of pixels, so creating a sense of depth through parallax in an effect similar to what lenticular printing produces for printed products and lenticular lenses for other displays. A disadvantage of the method in its simplest form is that the viewer must be positioned in a well-defined spot to experience the 3D effect. However, recent versions of this technology have addressed this issue by using face-tracking to adjust the relative positions of the pixels and barrier slits according to the location of the user's eyes, allowing the user to experience the 3D from a wide range of positions. Another disadvantage is that the horizontal pixel count viewable by each eye is halved, reducing the overall horizontal resolution of the image.

The following is a chronological list of the technological advancements of Major League Baseball television broadcasts:

Free viewpoint television (FTV) is a system for viewing natural video, allowing the user to interactively control the viewpoint and generate new views of a dynamic scene from any 3D position. The equivalent system for computer-simulated video is known as virtual reality. With FTV, the focus of attention can be controlled by the viewers rather than a director, meaning that each viewer may be observing a unique viewpoint. It remains to be seen how FTV will affect television watching as a group activity.

360-degree videos, also known as surround video, or immersive videos or spherical videos, are video recordings where a view in every direction is recorded at the same time, shot using an omnidirectional camera or a collection of cameras. The term 360x180 can be used to indicate 360° of azimuth and 180° from nadir to zenith. During playback on normal flat display the viewer has control of the viewing direction like a panorama. It can also be played on a display or projectors arranged in a sphere or some part of a sphere.

TOURCast is an interactive internet application that allows users to track the action of golf players playing on the PGA Tour in real-time. It was built by iX.co and Virtual Eye, a division of Animation Research Ltd (ARL), in accordance with the PGA TOUR Digital Product Team. TOURCast lets viewers follow players’ progress around a golf course, by exploring the graphically traced results of each shot by leveraging ShotLink data. ShotLink, the PGA Tour's data gathering information system is used to provide the necessary real-time information to TOURCast. However, TOURCast takes shot trails a step further by depicting the course through interactive 3D renderings produced via overlaying high-resolution imagery captured by low flying aircraft on to computer-aided design (CAD) wireframes.

Digital 3D is a non-specific 3D standard in which films, television shows, and video games are presented and shot in digital 3D technology or later processed in digital post-production to add a 3D effect.

3D television (3DTV) is television that conveys depth perception to the viewer by employing techniques such as stereoscopic display, multi-view display, 2D-plus-depth, or any other form of 3D display. Most modern 3D television sets use an active shutter 3D system or a polarized 3D system, and some are autostereoscopic without the need of glasses. As of 2017, most 3D TV sets and services are no longer available from manufacturers.

<span class="mw-page-title-main">Optimum HDTV viewing distance</span> Television placement for immersive experience

Optimum HDTV viewing distance is the distance that provides the viewer with the optimum immersive visual HDTV experience.

Isometric video game graphics are graphics employed in video games and pixel art that use a parallel projection, but which angle the viewpoint to reveal facets of the environment that would otherwise not be visible from a top-down perspective or side view, thereby producing a three-dimensional (3D) effect. Despite the name, isometric computer graphics are not necessarily truly isometric—i.e., the $x$ , $y$ , and $z$ axes are not necessarily oriented 120° to each other. Instead, a variety of angles are used, with dimetric projection and a 2:1 pixel ratio being the most common. The terms "3/4 perspective", "3/4 view", "2.5D", and "pseudo 3D" are also sometimes used, although these terms can bear slightly different meanings in other contexts.

A variety of computer graphic techniques have been used to display video game content throughout the history of video games. The predominance of individual techniques have evolved over time, primarily due to hardware advances and restrictions such as the processing power of central or graphics processing units.

Computer-generated imagery (CGI) is a specific-technology or application of computer graphics for creating or improving images in art, printed media, simulators, videos and video games. These images are either static or dynamic. CGI both refers to 2D computer graphics and 3D computer graphics with the purpose of designing characters, virtual worlds, or scenes and special effects. The application of CGI for creating/improving animations is called computer animation, or CGI animation.

Volumetric capture or volumetric video is a technique that captures a three-dimensional space, such as a location or performance. This type of volumography acquires data that can be viewed on flat screens as well as using 3D displays and VR headset. Consumer-facing formats are numerous and the required motion capture techniques lean on computer graphics, photogrammetry, and other computation-based methods. The viewer generally experiences the result in a real-time engine and has direct input in exploring the generated volume.

References

↑ Anderson, Karen (July 12, 1999). "Helping Spot the Ball Virtual insertion and sports analysis technology simplify sports for viewers".{{cite web}}: Missing or empty |url= (help)
↑ Anderson, Karen (July 12, 1999). "Helping Spot the Ball Virtual insertion and sports analysis technology simplify sports for viewers".{{cite web}}: Missing or empty |url= (help)
↑ Reynolds, Mike (June 3, 2013). "In a Search for the 'Ultimate Replay,' YES Network Adds 4K Cameras, 3D Views".{{cite web}}: Missing or empty |url= (help)
↑ "Technical program of LCN 2012 and adjunct workshops — [IEEEXplore version Nov 2012]". 37th Annual IEEE Conference on Local Computer Networks. 2012. pp. ii–xxxi. doi:10.1109/lcn.2012.6423692. ISBN 9781467315647.
↑ "Virtual replay: Relive soccer, baseball, F1 and hockey games in VR". Wareable. 2017-07-28. Retrieved 2019-07-29.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[1] Anderson, Karen (July 12, 1999). "Helping Spot the Ball Virtual insertion and sports analysis technology simplify sports for viewers".{{cite web}}: Missing or empty |url= (help)

[2] Anderson, Karen (July 12, 1999). "Helping Spot the Ball Virtual insertion and sports analysis technology simplify sports for viewers".{{cite web}}: Missing or empty |url= (help)

[3] Reynolds, Mike (June 3, 2013). "In a Search for the 'Ultimate Replay,' YES Network Adds 4K Cameras, 3D Views".{{cite web}}: Missing or empty |url= (help)

[4] "Technical program of LCN 2012 and adjunct workshops — [IEEEXplore version Nov 2012]". 37th Annual IEEE Conference on Local Computer Networks. 2012. pp. ii–xxxi. doi:10.1109/lcn.2012.6423692. ISBN 9781467315647.

[5] "Virtual replay: Relive soccer, baseball, F1 and hockey games in VR". Wareable. 2017-07-28. Retrieved 2019-07-29.

[1]

[2]

[3]

[4]

[5]