Tag Archives: digital information

Summary So Far

By Tom Saunter | Published: July 2, 2009
This entry is part 11 in the series An Opus to AR

In summary, Mobile AR has many paths leading to it. It is this convergence of various paths that makes a true historical appraisal of this technology difficult to achieve. However, I have highlighted facets of its contributing technologies that assist in the developing picture of the implications that Mobile AR has in store. A hybridisation of a number of different technologies, Mobile AR embodies the most gainful properties of its three core technologies: This analyst sees Mobile AR as a logical progression from VR, but recognises its ideological rather than technological founding. The hardware basis of Mobile AR stems from current mobile telephony trends that exploit the growing capabilities of Smartphone devices. The VR philosophy and the mobile technology are fused through the Internet, the means for enabling context-based, live-updating content, and housing databases of developer-built and user-generated digital objects and elements, whilst connecting users across the world.

I have shown that where the interest in VR technologies dwindled due to its limited real-world applicability, Mobile Internet also lacks in comparison to Mobile AR and its massive scope for intuitive, immersive and realistic interpretations of digital information. Wearable AR computing shares VR’s weaknesses, despite keeping the user firmly grounded in physical reality. Mobile AR offers a solution that places the power of these complex systems into a mobile telephone: the ubiquitous technology of our generation. This new platform solves several problems at once, most importantly for AR developers and interested Blue-chip parties, market readiness. Developing for Mobile AR is simply the commercially sensible thing to do, since the related industries are already making the changes required for its mass-distribution.

Like most nascent technologies, AR’s success depends on its commercial viability and financial investment, thus most sensible commercial developers of AR technologies are working on projects for the entertainment and advertising industries, where their efforts can be rewarded quickly. These small-scale projects are often simple in concept, easily grasped and thus not easily forgotten. I claim here that the first Mobile AR releases will generate early interest in the technology and entertainment markets, with the effect that press reportage and word-of-mouth behaviour assist Mobile AR’s uptake. I must be careful with my claims here however, since there is no empirical evidence to suggest that this will occur for Mobile AR. Looking at the emergence of previous technologies, however, the Internet and mobile telephony grew rapidly and to massive commercial success thanks to some strong business models and advancements in their own supporting technologies. It is strongly hoped by developers like Gameware and T-Immersion that Mobile AR can enjoy this same rapid lift-off. Both technologies gained prominence once visible in the markets thanks to a market segment called early adopters. This important group gathers their information from specialist magazine sources and word of mouth. Mobile AR developers would do well to recognise the power of this group, perhaps by offering shareware versions of their AR software that encourage a form of viral transmission that exploit text messaging.

Gameware have an interesting technique for the dissemination of their HARVEE software. They share a business interest with a Bluetooth technology firm, which has donated a prototype product the Bluetooth Push Box, which scans for local mobile devices and automatically sends files to users in acceptance. Gameware’s Push Box sends their latest demo to all visitors to their Cambridge office. This same technology could be placed in public places or commercial spaces to offer localised AR advertising, interactive tourist information, or 3D restaurant menus, perhaps.

Gameware, through its Nokia projects and HARVEE development program is well placed to gain exposure on the back of a market which is set to explode as mobile offerings become commercially viable, ‘social’, powerful, multipurpose and newsworthy. Projects like HARVEE are especially interesting in terms of their wide applicability and mass-market appeal. It is its potential as a revolutionary new medium that inspires this very series.

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Layar – A Press Release

By Tom Saunter | Published: June 16, 2009

Press Release:

The first Mobile Augmented Reality browser premiers in the Netherlands.
June 16th, 2009

Five Dutch content providers to participate in the worlds first AR browser.

AMSTERDAM, Tuesday June 16th, 2009. Mobile innovation company SPRXmobile launches Layar, worlds first mobile Augmented Reality browser, which displays real time digital information on top of reality (of) in the camera screen of the mobile phone. While looking through the phone’s camera lens, a user can see houses for sale, popular bars and shops, jobs, healthcare providers and ATMs. The first country to launch Layar is The Netherlands. Launching partners are local market leaders ING (bank), funda (realty website), Hyves (social network), Tempo-team (temp agency) and Zekur.nl (healthcare provider).

How it works:

Layar is derived from location based services and works on mobile phones that include a camera, GPS and a compass. Layar is first avaliable for handsets with the Android operating system (the G1 and HTC Magic). It works as follows: Starting up the Layar application automatically activates the camera. The embedded GPS automatically knows the location of the phone and the compass determines in which direction the phone is facing. Each partner provides a set of location coordinates with relevant information which forms a digital layer. By tapping the side of the screen the user easily switches between layers. This makes Layar a new type of browser which combines digital and reality, which offers an augmented view of the world.

What it looks like:

Dutch launch:

The premier launch is for the Dutch market. Launching content partners are ING (ATM’s), Funda (houses for sale), Hyves (social network hot spots) Tempo-team (jobs) and Zekur.nl (healthcare providers). Layar will be launched per country with local content partners in order to guarantee relevent results for the end user. SPRXmobile is planning further roll-outs, together with local partners, in Germany, the UK and the United States this year. SPRXmobile wil continue with regular releases of new layers after each local launch. The Layar application will be available via the Android Market. Other handsets and operating systems are in development with a prime focus on the iPhone 3G S.

SPRXmobile:

Layar is developed by SPRXmobile, a mobile innovation company.

“Eventually, the physical and the virtual worlds will become one. Many visions on Augmented Reality have already been developed, but we are proud to be able to bring this one step closer to reality”, says Raimo van der Klein, co-founder of SPRXmobile.

More information:

http://layar.eu

http://www.sprxmobile.com

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Introduction

By Tom Saunter | Published: May 2, 2009
This entry is part 3 in the series An Opus to AR

Augmented Reality (AR) is a theme of computer research which deals with a combination of real world and computer generated data. AR is just one version of a Mixed Reality (MR) technology, where digital and real elements are mixed to create meaning. In essence AR is any live image that has an overlay of information that augments the meaning of these images.

Digital graphics are commonly put to work in the entertainment industry, and ‘mixing realities’ is a common motif for many of today’s media forms. There are varying degrees to which The Real and The Virtual can be combined. This is illustrated in my Mixed Reality Scale:

mixed-reality-scale

My Mixed Reality Scale, a simplified version of Milgram & Kishino's (1994) Virtuality Continuum

This is a simplified version of Milgram and Kishino’s (1994) Virtuality Continuum; simplified, because their research is purely scientific, without an explicit interest in media theory or effects, therefore not wholly applicable to my analysis. At the far left of my Mixed Reality Scale lies The Real, or physical, every-day experiential reality. For the longest time we lived solely in this realm. Then, technological innovation gave rise to the cinema, and then television. These media are located one step removed from The Real, a step closer to The Virtual, and can be considered a window on another world. This world is visually similar to our own, a fact exploited by its author to narrate believable, somewhat immersive stories. If willing, the viewer is somewhat ‘removed’ from their grounding here in physical reality, allowing them to participate in the construction of a sculpted, yet static existence. The viewer can only observe this contained reality, and cannot interact with it, a function of the viewing apparatus.

Later advancements in screen media technologies allowed the superimposition of graphical information over moving images. These were the beginnings of AR, whereby most of what is seen is real with some digital elements supplementing the image. Indeed, this simple form of AR is still in wide use today, notably in cases where extra information is required to make sense of a subject. In the case of certain televised sports, for example, a clock and a scoreboard overlay a live football match, which provides additional information that is useful to the viewer. Television viewers are already accustomed to using information that is displayed in this way:

Simple Augmented Reality, televised football matches augment meaning with digital graphics

Simple Augmented Reality, televised football matches augment meaning with digital graphics

More recently, computing and graphical power gave designers the tools to build wholly virtual environments. The Virtual is a graphical representation of raw data, and the furthest removed from physical reality on my Mixed Reality Scale. Here lies the domain of Virtual Reality (VR), a technology that uses no real elements except for the user’s human senses. The user is submersed in a seemingly separate reality, where visual, acoustic and sometimes haptic feedback serve to transpose them into this artificial, yet highly immersive space. Notice the shift from viewer to user: this is a function of the interactivity offered by digital space. VR was the forerunner to current AR research, and remains an active realm of academic study.

Computer graphics also enhanced the possibilities offered by television and cinema, forging a new point on the Mixed Reality Scale. I refer to the Augmented Virtuality (AV) approach, which uses mainly digital graphics with some real elements superimposed. For example, a newsreader reporting from a virtual studio environment is one common application. I position AV one step closer towards The Virtual to reflect the ratio of real to virtual elements:

An Augmented Virtuality, the ITV newscasters sit at a real table in a virtual studio

An Augmented Virtuality, the ITV newscasters sit at a real table in a virtual studio

There is an expansive realm between AV and VR technologies, media which offer the user wholly virtual constructions that hold potential for immersion and interactivity. I refer to the media of video games and desktop computers. Here the user manipulates visually depicted information for a purpose. These media are diametrically opposed to their counterpart on my scale, the cinema and television, because they are windows this time into a virtual world, actively encouraging (rather than denying) user interactivity to perform their function. Though operating in virtuality, the user remains grounded in The Real due to apparatus constraints.

Now, further technological advancements allow the fusion of real and virtual elements in ways not previously possible. Having traversed our way from The Real to The Virtual, we have now begun to make our way back. We are making a return to Augmented Reality, taking with us the knowledge to manipulate wholly virtual 3D objects and the computing power to integrate digital information into live, real world imagery. AR is deservedly close to The Real on my scale, because it requires physicality to function. This exciting new medium has the potential to change the way we perceive our world, forging a closer integration between our two binary worlds. It is this potential as an exciting and entirely new medium that has driven me to carry out the following work.

To begin, I address the science behind AR and its current applications. Next, I exploit an industry connection to inform a discussion of AR’s development as an entertainment medium. Then, I construct a methodology for analysis from previous academic thought on emergent technologies, whilst addressing the problems of doing so. I use this methodology to locate AR in its wider technologic, academic, social and economic context. This discussion opens ground for a deeper analysis of AR’s potential socio-cultural impact, which makes use of theories of media and communication and spatial enquiry. I conclude with a final critique that holds implications for the further analysis of Mixed Reality technology.

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