Blog posts related to Augmented Reality

March biweekly on AR – Part I

The AR field is franticaly producing news. People seem to like the ‘buzz’ around the concept, developers and companies constantly introduce products and services, while the public seem to show lots of interest about what is out there.

In an effort to keep up with the news we will try to post a summary of noteworthy subjects, bi-weekly. And here is the first bunch…

Synthetic Toys @ International Workshop on AR Standards

One of the aspects the AR community is currently working on is standardisation throughout the spectrum of technologies, services and paradigms within the field. Meetings are being held annually, to discuss the progress of this effort, bringing together companies, researchers, innovators and analysts.

This year’s meeting will be held on February 17-19, 2011 in Barcelona. Synthetic Toys will be there to present their position on user experience in augmented reality (Ux4AR). You can check the draft agenda at the AR Standards website, here with our position paper amongst them.

Allaboutmusic.gr #Layar layer from Synthetic Toys!

The All About Music Portal is a collection of interesting spots for the music professional and enthusiast in Greece, including listings of Recordings/Rehearsal Studios, Live Stages, Music companies, Music-related Spots, Shops & Schools.

Synthetic Toys has created, on behalf of All About Music a layer for Layar’s AR browser, enabling users to locate the aforementioned points of interest using their mobile phone. The layer is named ‘All About Music’ and is viewable in Greece. Music enthusiasts can now point their phones, locate studios, shops and music related spots nearby, find their way there, link to their websites and call to book that rehearsal this afternoon.

All about Music Layar layer screenshots

All About Music said:

This application really transforms the service we provide to our audience. Now all the information for the musician is available literally at their fingertips! This is great times for augmented reality applications. Think of musician’s city tours. Think of music points of interest. We at All About Music are thankful to Synthetic Toys and Layar for opening all these new perspectives.”

Synthetic Toys said:
For us it was a prime opportunity, to create a layer of Layar’s AR browser, addressed to an audience that is very much connected to modern technology, and can put it into use. We have been involved with AR research for quite some time and for us to build this layer was very rewarding. Layar’s support was excellent through the process. Moreover, it is a pleasure to support with such a feature the effort of our friends at All About Music, in what is one of the very few layers for Greece!

If you come to Greece and want to check which bands play around tonight and find your way there, be sure to check All About Music for Layar, by Synthetic Toys.

2010 (A)R-evisited

Happy new year, may all your dreams come true!

After a brief break to catch our breath and have a much-needed holiday, Synthetic Toys is back up and running. This time we attempt a recap of 2010 in the area of Augmented Reality (AR).  AR has drawn much attention through the past year, almost a decade after we started working on the subject. Although the ‘hype’ surrounding the field is quite a lot we are still skeptical about recent ‘advancements’ and how these will shape the way AR evolves.  We will attempt to look into things aided from notable sources and offer our predictions and hopes for the field in 2011. One thing is for sure. AR is as interesting as it ever was, if not more, now that people begin understand its idiosyncrasies and pitfalls as well as its potential.

Handheld AR

Handheld AR is probably the sector that became more popular during 2010 with many companies offering AR-related applications, attracting lots of public attention [3,6]. Companies like Layar, Wikitude, Metaio and Qualcomm presented applications within this paradigm. The general idea is to use a smartphones modalities – GPS, compass, camera and wireless/GSM – in combination to superimpose 2D and 3D information in space using primarily the phones screen as a presentation medium. Examples of each company’s approach can be seen on their websites. In our minds we separate Handheld AR applications in two categories. Those that use a tangible reference for registration – like Qualcomm’s game using a camera tracked marker – and those that use a non-tangible one, like GPS and compass. Marker-less registration kind of falls between these categories but can be potentially more important.

Qualcomm & Mattel on Augmented collaborating on Reality

We at Synthetic Toys are thrilled with the current popularity of AR but can not help to remain skeptical on how current, marketing-driven, popularity can lead to the maturity of AR. But more of this further on…

3D Displays

3D Displays – HMD-less or not – have also gained lots off attention the last year, due to the appearance of blockbuster titles like Avatar in 3D. Big players like Sony, Panasonic, Toshiba, Mitsubishi and Philips introduced such displays in the market, in an effort to capitilize on the technology. Generally, HMD ones are not as easy to use due to various issues such as ocular and non-ocular symptoms, as commented on a previous post and require further research [10]. For this reason many researchers, including companies like Apple and Microsoft experiment with 3D displays that do not require a spectacles-type apparatus, but instead rely on different modalities to determine orientation of gaze [11]. Although the currently available solutions are at their infancy we feel this paradigm is quite promising and there is lots of potential and opportunities for research. Particularly, in conjunction with smartphones, where viewing distance is more or less easily determined, such displays can enhance handheld AR to another level, without requiring from the users to wear ‘dorky’ HMDs.

Kinect

Right from the moment of its release, Microsoft’s Kinect became a very popular gadget with hackers, with open-source drivers appearing immediately after its European release. Kinect can have a sizeable impact in the field, as many believe it is one of the best AR-related sensors in the market. Anything that can provide information on the user’s movements in real time has to be pretty useful in AR context. James McQuivey, Consumer Product Strategy analyst at Forrester, had written two weeks prior to the release of Kinect that it “is to multitouch user interfaces what the mouse was to DOS. It is a transformative change in the user experience, the interposition of a new and dramatically natural way to interact — not just with TV, not just with computers — but with every machine that we will conceive of in the future.” [4]. He further asked [5] “What will we call the new experiential medium that will result from natural user interfaces+3D+touch interfaces+augmented reality — technologies which are all conspiring in this decade to alter our lives?”

Augmented reality with hacked Kinect

Most researchers have used it to control software like word processors or games, like World of Warcraft depicted here but it is quite reasonable to foresee its use in AR applications. The popularity of Kinect is quite high and you can find some really nice AR-related experiments, such as the ones depicted in the video above, over the web. Moreover, the technology behind Kinect – or indeed part of it  – may soon be available to PCs enabling researchers and developers to use it in different scenarios with greater ease.  For us Kinect does one simple thing. Places the sensory modalities ‘away’ from the proximity of the user. Now, how about making a 3D display that is away from the user, independent of viewing distance and angle and… oh yes, we talked about that on the previous section…

Standardisation

One of the subjects often discussed in workshops and conferences is the need for stadardisation in AR. Many of the aforementioned AR players, researchers and institutions have debated on whether it is time for AR to have such standards. Granted standardisation does offer some benefits through unification, interoperability, reliability and predictability.

We feel that AR standardisation deserves a thorough examination and we will look into the subject in detail in the future. We are also keen on seeing the results of an AR Standards Meeting in Barcelona on February, expected to attract the interest of many important players in the field. However, we feel its a tad too early, mainly because we are reluctant to believe that AR has matured enough and that the current ‘call’ for standards is more market-driven than a technological necessity.

And that brings us to…

Our opinion

2010 was a year with a lot of publicity of AR, with many people getting involved and lots of new ideas flying around. But that is not necessarily a good thing. Augmented Reality has been around for quite some time – we’ve been researching it for over a decade – and approaching the field with the ‘naivety’ of modern marketing will not get far. In fact we are afraid that people are ‘over-hyped’ with AR and they will be disappointed soon, once they find the technology has limitations at the current state of things. Most of the market hype is driven from the, undoubtedly clever and successful, publicity methods of the big players. Handheld AR in particular seems a very easy way of getting people to know the concept and getting a hands-on experience. And that is the way it should be during the beginning. But lets face it, after a while is simply a gimmick. And that is attributed, in our eyes, to the limitations of current technologies, particularly when related to registration and the level of immersion of the presentation. Moreover, the next set of services and applications will not only need to exploit technological advancement to the fullest but will also some ‘out-of-the-box’ thinking to devise new paradigms. But lets get into the gist of things…

Handheld AR is probably the flavour of AR that will remain fairly popular due to the evolution in smartphones and tablets. However, there will soon be dire need for new types of services that enhance the user’s day-to-day routines and reality. Enhancing the latter does not necessarily mean placing high quality 3D graphics around. Enhancement also can come as any type of information, whether visual, audible or as tactile feedback.

Mechanics allowing tethering and location awareness are of course of paramount importance. However, increasing accuracy and performance while maintaining multi-modality will allow more complex – not complicated – frameworks to develop new services. We also feel that interaction between users, within the AR space much like a shared environment can have an important role is the sense of immersion of users.

Leaving the domain of Handheld AR behind and speaking in more generic terms, Interfaces in the context of AR are always a very challenging subject. Although some progress has been made on non-HMDs, very little improvement has been observed in HMDs – and to that we have to agree with Tom Carpenter [6]. Bearing in mind our own experience with HMDs and the sense of immersion they bring to the table there is still a lot to be done to investigate different technologies as well as the side effects of HMD usage. Naturally, we await with great interest the developments on the glass-less front.

If one thing has advanced considerably and will continue to do so, pushing AR development further, is processing power, particularly in small form factor platforms. Smartphones are capable these days to render complex graphics with very good frame rates. Consumption and battery longevity is indeed an issue but not so much as in the past. Although technically it belongs to 2009, Epic’s demonstration of the Unreal Engine 3 on IPhone, shown bellow, aptly demonstrates what these handheld beasts can do.

iPhone 4 Unreal Game – Project Sword

Concluding, we have to admit our review is nowhere near as extensive and detailed it could be. We gathered the things that had made an impression to us, those that we feel are the more important ones. We are certain we missed something and that our assessment may be erring a bit on skepticism. We are, nonetheless. very excited about the publicity AR is receiving and we are also planning on ‘playing ball’ within the current market with some ‘gimmicks’ of our own.

References

[1] The Year in Computing
[2] Eye-tracking for mobile control
[3] The Year in Enhancing Reality
[4] Get Ready for Kintetic to Completely Change our Lives
[5] Killing Me Softly With Kinect…And Leading Me To The Next Big Thing
[6] Augmented Reality – Year in Review – 2010
[7] Android 3.0 Honeycomb has Google-Built in Augmented Reality?
[8] Has Augmented Reality Peaked?
[9] Augmented Reality: Pure Hype or the Next Big Thing in mobile?
[10] Is 3D bad for you?
[11] 3D without four eyes

Apple patents glasses-less 3D projection system

Continuing on the theme of glass-less 3D displays mentioned a few days ago, The Register reports that Apple has patented a 3D display system that requires neither special glasses or ‘parallax’ screens that enables  “inexpensive auto-stereoscopic 3D displays that allow the observer complete and unencumbered freedom of movement.” The system’s concept revolves around the use of a combination of eye-tracking and a reflective display that monitors the position of the user and bounces the image from a projector so as to split 3D content for the left and right eye.

A diagram of how Apple's proposed 3D projection system would work. (Credit: U.S. Patent and Trademark Office)

A diagram of how Apple’s proposed 3D projection system would work. (Credit: U.S. Patent and Trademark Office)

Apple seems to agree more or less with our comments on our previous post (quotes are from the patent):

  • Volumetric displays, according to the patent, present images that “appear ghosted or transparent.”
  • The parallax barrier method “typically requires the observer to remain stationary in one location.”
  • Dynamically presented holographic images require “far greater computational ability and bandwidth than is generally required for [other auto stereoscopic displays]…in real time and at commercially acceptable costs.”

Apple’s effort is to first track viewers’ position and movement, and then use that information to guide the projection of pixels onto “a projection screen having a predetermined angularly-responsive reflective surface function.”. Each projected pixel is beamed onto a textured, reflective surface and reflected to the eyes of each viewer, separating left and right views and therefore producing a 3D effect. The projection angle changes according to the input of tracking sensors detecting user movement in relation to the screen.

Each pixel is aimed at a curved surface, where it reflects onto the correct eyeball

Apple assures us that it “valuably supports and services the historical trend of reducing costs, simplifying systems, and increasing performance”. We could not agree more on this philosophy.  What remains to be seen is whether Apple will actually realize such designs. We say they will.