Archive for category Tech Demo
Square Enix is hard at work on what is going to be their next gen engine, moving away from their past titles’ art work and into photo realism. Square is hoping to do what the Unreal Engine did for this generation, with their Luminous Engine Next Gen. I have to admit, the Photo Realism is just what I was hoping for. The studio plans to allow other studious to use the engine which will cut production time in half and lower the cost of game development as a whole. Whether this will allow for cheaper games, we’ll have to wait and see. Take a look at a very early sample of what to expect after the jump.
If you watch the video included, you can see how fast it is able to track, and even how it will remember where it rendered particular objects in a room. It was pretty insane and I think it would be something the NGP could really utilize and feel right at home with. Further into the video, it will even memorize pictures/posters, and allow you to flip through them with a motion of your finger, becoming a pretty nifty idea for a user interface.
Currently, the press release has only stated it’s use towards smartphones, but that does not, in any way, mean that this won’t be heading to the NGP as well, since it would definitely have a better appeal towards mobile gaming as a whole. If anything, this is probably the most advanced AR technology available to regular consumers at least.
Sony develops “SmartAR” Integrated Augmented Reality technology
Featured with markerless and high-speed object recognition & tracking as well as dynamic 3D space recognition & image rendering
Sony has developed integrated ‘Augmented Reality (hereafter referred to as ‘AR’) technology’ called as “Smart AR.” When capturing visuals through a camera on a device such as a smartphone, the technology enables additional information to be displayed on the device’s screens such as virtual objects, or images and texts that cannot be identified by visual perception alone. The technology employs the markerless approach, forgoing any requirement for special markers such as 2D barcodes. The object captured by the camera is quickly recognized and can be tracked at high-speed along with the movement of the camera, as it is displayed over the actual 3D space.
AR technology has recently been the subject of much interest, and is being used in a variety of applications such as advertisements, promotions, games, and information searches. Sony began researching AR in 1994 with two-dimensional barcodes recognition (marker approach), and in 1998, it developed VAIO “PCG-C1” personal computers equipped with software which automatically recognized ‘CyberCode*2.’
“SmartAR” technology combines ‘object recognition technology’ (markerless approach in which no special markers are required) for recognition of general objects such as photographs and posters with Sony’s own proprietary ‘3D space recognition technology,’ which has been fostered through the research of robots such as “AIBO” and “QRIO.” With “SmartAR” technology objects can be recognized and tracked at high-speed. In addition to displaying virtual objects or additional image or text information (hereafter, ‘AR information’), the technology also facilitates the expression of AR information over an extended space, thus producing a dynamic, large-scale AR experience.
Furthermore, information can be acquired or navigated by simply touching the AR information directly on the screen of the smartphone or other device, thus achieving an intuitive and seamless user interface that is unique to “SmartAR.”
Sony will continue to experiment with “SmartAR” technology with the aim to add new value for various services and business applications such as advertising and games.
< Main features >
(1) Object recognition that enables the markerless approach
AR information can be displayed on the captured image which appears on a device’s screen, including those images that do not have any special markers for AR. This technology is also compatible with image recognition technologies that use conventional markers (such as “CyberCode*2”). Because “SmartAR” can recognize everyday objects such as posters and menus, it has the potential for a wide variety of applications.
“SmartAR” object recognition technology identifies objects by analyzing features detected from a portion of the image (hereafter, ‘local features’) together with their positional relationship. Our feature matching technology that employs a proprietary probabilistic method that matches local features with minimal calculations enables high-speed recognition that is resistant to changes in lighting or the position of the object. In addition, recognition is still possible even if the object captured appears to be comparatively small in the display.
(2) High-speed tracking (‘rapid & accurate’)
Sony achieved its natural-feeling ‘rapid & accurate’ AR by quickly displaying AR information on the screen and then tracking the camera’s movements at high-speed. This has been realized by combining object recognition technology with our proprietary matching technology that uses features detected from a portion of the image (‘local features’) and image tracking technology that is capable of dealing with changes in the shape of the object.
(3) 3D space recognition
With our dynamic, large-scale AR, virtual objects can be merged with 3D structures detected in the physical world. For example, even if the AR image is a gigantic virtual character whose size exceeds the dimensions of the device’s screen, the technology allows the user to grasp the entirety of the virtual character when the camera is moved around. Furthermore, it is also possible to move the virtual object in the actual 3D space as if it were really there.
Three-dimensional space recognition technology is based on use of the disparity observed by the camera movements to estimate the shape of the 3D space and the position and angle of the camera. By combining this with object recognition technology, devices become capable of identifying and remembering 3D space constructions.
(4) AR Interaction
Information can be intuitively acquired and navigated by directly touching the AR information displayed on the smartphone or device’s screen. The distinctiveness of “SmartAR” technology comes from the user interface which enables users to naturally use and operate additional information and virtual objects.
*2. CyberCode is a two-dimensional barcode (marker) for enabling AR applications.
CyberCode is a registered trademark of Sony Corporation and is a technology that was developed by Sony Computer Science Laboratories, Inc.
* VAIO is a registered trademark of Sony Corporation.
With the reveal the other night, a demo was shown of the Uncharted game being developed for the handheld. Though we got to mainly see a few low-res videos and a few camera shots, we didn’t get to see a very detailed representation of the game in action.
Luckily, Gamespot has the production video reveal available in 720P with the English translation dubbed into it. The demo seems to use most of the system’s control features quite well. I know what I gotta start saving up money for next…
You can also see a screenshot of the game here. It’s amazing how much detail there is for being a handheld.
This video shows Anton Mikhailov, one of Sony’s R&D guys, doing some Move tech demo demonstrations, both sitting down and standing up. We’ve seen most of these tech demos before, but this actually does a better job of showing them off, since it’s a direct feed basically. Cool stuff. Hopefully developers implement some of the ideas these guys have.
For those who’d like to get their hands on the Move before investing in it, Sony plans to let us demo the technology at box stores like Best Buy and Wal-Mart beginning September 11, 2010, which is a little more than a week before the official North American release date of September 19, 2010. This is a good “move” for Sony, demoing the device before Microsoft’s November 4 release date for its new apparatus, Kinect. Read more at Kotaku.