Ricoh will be showcasing a prototype Theta 360 camera that can capture 4K clips and live-stream video at the annual NAB show next week. In addition to its video capture and streaming capabilities, the Theta concept will also have four microphones, allowing it to capture ‘spatial surround-sound audio.’
In an interview at Photokina last year Ricoh told our Richard Butler that putting such features into the current form factor would be difficult due to processing power and heat management, so it will be interesting to see how they pulled it off.
DPReview will be at NAB and will drop by the Ricoh booth to see if we can take a closer look.
RICOH TO SHOWCASE THETA 360-DEGREE CAMERA WITH 4K VIDEO AND LIVESTREAMING AT 2017 NAB SHOW
WEST CALDWELL, NJ, April 20, 2017 — Ricoh today announced it will be showcasing a prototype of its newest Theta 360-degree camera, capable of capturing high-resolution 4K video in a single shot, at the upcoming 2017 NAB Show, April 24-27, in Las Vegas. The camera will be featured at the Ricoh booth, C11139, located in the Central Hall of the Las Vegas Convention Center.
In addition to capturing 4K video at 30 frames per second, the new camera will enable 4K 360-degree livestreaming, and a built-in 4-channel microphone will record spatial “surround-sound” audio.
The new camera is expected to be launched later in the year.
Ricoh offers the industry’s most extensive line of spherical imaging cameras, known for their high image quality, sleek design and ease of use. First introduced in 2013, Theta cameras allow consumers to record fully spherical images that show the entirety of a scene in photos or videos. The camera line’s combination of small size, high quality imagery and incredible functionality are a result of Ricoh’s many decades of experience in advanced imaging and optical technologies. The company has long been a leader in professional printers and copiers, and is known for its high-quality optics and optical components. A key achievement with the Theta series is an ultra-small twin-lens folded-optical system capable of capturing two wide-angle images and then marrying them into a single spherical image.