Are You Ready For Your Close Up, Miss Colada?

BevShots have discovered what you’d call a niche: they take your favourite alcoholic drink, crystallise a single droplet of it in an airtight container, photograph it at 1000x under a microscope, and then sell the resulting image on a printed canvas.

And man, are these things selling! Since August last year BevShots estimate sales of over 20,000 prints ($24.99-$549). The product is aimed at the ‘hedonist with a mind for science’ segment: those who appreciate good photography, laboratory conditions and a damn-tasty cocktail now and then.

Here’s my favourite image, the classic Vodka and Tonic:

The shots are taken in Florida State University’s chemistry department, where founder Lester Hutt developed the approach, which can take up to three months to produce an image.

Lester says:

“What you can see in the magnified pictures are the crystalised carbohydrates that have become sugars and glucose. With my background in chemistry, I saw the potential in these kind of pictures and am so glad to be able to offer them up as art works. It is a pleasure to show people what makes up their favourite drinks and how beautiful it can look.”

Most alcohols are blends, with varying levels of carbohydrates, sugars, acids and glucose, so each shot taken is entirely different from the last. Some favourite drinks are so pure that when they crystallise  into their component parts, they fall apart or don’t dry out properly. So, not unlike the perfect Margarita, they’re pretty hard to get ‘just right’, sometimes taking up to 200 attempts.

Here’s some more of their work – click through for the full images or visit BevShots.

I’m thirsty! Who’s for a drink?

Mobile Telephone

The Internet and the mobile phone are two mighty forces that have bent contemporary culture and remade it in their form. They offer immediacy, connectivity, and social interaction of a wholly different kind. These are technologies that have brought profound changes to the ways academia consider technoscience and digital communication. Their relationship was of interest to academics in the early 1990’s, who declared that their inevitable fusion would be the beginning of the age of Ubiquitous Computing: “the shift away from computing which centered on desktop machines towards smaller multiple devices distributed throughout the space” (Weiser, 1991 in Manovich, 2006). In truth, it was the microprocessor and Moore’s Law- “the number of transistors that can be fit onto a square inch of silicon doubles every 12 months” (Stokes, 2003) that led to many of the technologies that fall under this term: laptops, PDA’s, Digital Cameras, flash memory sticks and MP3 players. Only recently have we seen mobile telephony take on the true properties of the Internet.

The HARVEE project is partially backed by Nokia Corp. which recognises its potential as a Mobile 2.0 technology: user-generated content for mobile telephony that exploits web-connectivity. Mobile 2.0 is an emerging technology thematically aligned with the better established Web 2.0. Nokia already refer to their higher-end devices as multimedia computers, rather than as mobile phones. Their next generation Smartphones will make heavy use of camera-handling systems, which is predicated on the importance of user-generated content as a means to promote social interaction. This strategic move is likely to realign Nokia Corp.’s position in the mobile telephony and entertainment markets.

Last year, more camera phones were sold than digital cameras (Future Image, 2006). Nokia have a 12 megapixel camera phone ready for release in 2009, and it will be packaged with a processing unit equal to the power of a Sony PSP (Nokia Finland: non-public product specification document). MP3 and movie players are now a standard on many handsets, stored on plug-in memory cards and viewed through increasingly higher resolution colour screens. There is a growing mobile gaming market, the fastest growing sector of the Games Industry (Entertainment & Leisure Software Publishers Association (ELSPA) sales chart). The modern mobile phone receives its information from wide-band GPRS networks allowing greater network coverage and faster data transfer. Phone calls are the primary function, but users are exploiting the multi-media capabilities of their devices in ways not previously considered. It is these factors, technologic, economic and infrastructural that provide the perfect arena for Mobile AR’s entry into play.

Mobile Internet is the natural convergence of mobile telephony and the World Wide Web, and is already a common feature of new mobile devices. Mobile Internet, I would argue, is another path leading to Mobile AR, driven by mobile users demanding more from their handsets. Mobile 2.0 is the logical development of this technology- placing the power of location-based, user-generated content into a new real-world context. Google Maps Mobile is one such application that uses network triangulation and its own Google Maps technologies to offer information, directions, restaurant reviews or even satellite images of your current location- anywhere in the world. Mobile AR could achieve this same omniscience (omnipresence?) given the recent precedent for massively multi-user collaborative projects such as Wikipedia, Flickr and Google Maps itself. These are essentially commercially built infrastructures designed to be filled with everybody’s tags, comments or other content. Mobile AR could attract this same amount of devotion if it offered such an infrastructure and real-world appeal.

There is a growing emphasis on Ubiquitous Computing devices in our time-precious world, signified by the increased sales in Smartphones and WiFi enabled laptops. Perhaps not surprisingly, Mobile Internet use has increased as users’ devices become capable of greater connectivity. Indeed, the mobile connected device is becoming the ubiquitous medium of modernity, as yet more media converge in it. It is the mobile platform’s suitability to perform certain tasks that Mobile AR can take advantage of, locating itself in the niche currently occupied by Mobile Internet. Returning to my Mixed Reality Scale, Mobile AR serves the user better than Mobile Internet currently can: providing just enough reality to exploit virtuality, Mobile AR keeps the user necessarily grounded in their physical environment as they manipulate digital elements useful to their daily lives.

Gameware: A Case-Study in AR Development

I have been aided in this series by a connection with Gameware Development Limited, a Cambridge-based commercial enterprise working in the entertainment industry. Gameware was formed in May 2003 from Creature Labs Ltd, developing for the PC games market which produced the market leading game in Artificial Intelligence (AI), Creatures. When Gameware was formed, a strategic decision was made to move away from retail products and into the provision of technical services. They now work within the Broadcasting and Mobile Telephony space in addition to the traditional PC market. I use this business as a platform to launch into a discussion of the developments current and past that could see AR become a part of contemporary life, and just why AR is such a promising technology.

Gameware’s first explorations into AR came when they were commissioned by the BBC to develop an AR engine and software toolkit for a television show to be aired on the CBBC channel. The toolkit lets children build virtual creatures or zooks at home on their PCs which are uploaded back to the BBC and assessed:

 

A typical Zook, screenshot taken from Gameware's Zook Kit which lets children build virtual creatures
A typical Zook, screenshot taken from Gameware's Zook Kit which lets children build virtual creatures

 

The children with the best designs are then invited to the BAMZOOKi studio to have their virtual creatures compete against each other in a purpose-built arena comprised of real and digital elements. The zooks themselves are not real, of course, but the children can see silhouettes of digital action projected onto the arena in front of them. Each camera has an auxiliary camera pointed at AR markers on the studio ceiling, meaning each camera’s exact location in relation to the simulated events can be processed in real time. The digital creatures are stitched into the footage, and are then navigable and zoomable as if they were real studio elements. No post-production is necessary. BAMZOOKi is currently in its fourth series, with repeats aired daily:

 

BAMZOOKi, BBC's AR game show where children’s zooks compete in a studio environment
BAMZOOKi, BBC's AR game show where children’s zooks compete in a studio environment

 

BAMZOOKi has earned Childrens BBC some of its highest viewing figures (up to 1.2 million for the Monday shows on BBC1 and around 100,000 for each of the 20 episodes shown on digital Children’s BBC), which represents a massive milestone for AR and its emergence as a mainstream media technology. The evidence shows that there is a willing audience already receptive to contemporary AR applications. Further to the viewing figures the commercial arm of the BBC, BBC Worldwide, is in talks to distribute the BAMZOOKi format across the world, with its AR engine as its biggest USP. Gameware hold the rights required to further develop their BAMZOOKi intellectual property (IP), and are currently working on a stripped down version of their complex AR engine for the mobile telephony market.

I argue, however, that Broadcast AR is not the central application of AR technologies, merely an enabler for its wider applicability in other, more potent forms of media. Mobile AR offers a new channel of distribution for a variety of media forms, and it is its flexibility as a platform that could see it become a mainstream medium. Its successful deployment and reception is reliant on a number of cooperating factors; the innovation of its developers and the quality of the actual product being just part of the overall success the imminent release.

As well as their AR research, Gameware creates innovative digital games based on their Creatures AI engine. They recently produced Creebies; a digital game for Nokia Corp. Creebies is one of the first 3D games which incorporates AI for mobile phones. Gameware’s relationship with Nokia was strengthened when Nokia named them Pro-Developers. This is a title that grants Gameware a certain advantage: access to prototype mobile devices, hardware specifications, programming tools and their own Symbian operating system (Symbian OS) for mobile platforms. It was this development in combination with their experiences with BAMZOOKi and a long-standing collaboration with Cambridge University which has led to the idea for their HARVEE project. HARVEE stands for Handheld Augmented Reality Virtual Entertainment Engine.

Their product allows full 3D virtual objects to co-exist with real objects in physical space, viewed through the AR Device, which are animated, interactive and navigable, meaning the software can make changes to the objects as required, providing much space for interesting digital content. The applications of such a tool range from simple toy products; advertising outlets; tourist information or multiplayer game applications; to complex visualisations of weather movements; collaborating on engineering or architectural problems; or even implementing massive city-wide databases of knowledge where users might ‘tag’ buildings with their own graphical labels that might be useful to other AR users. There is rich potential here.

In HARVEE, Gameware attempt to surmount the limitations of current AR hardware in order to deliver the latest in interactive reality imaging to a new and potentially huge user base. Indeed, Nokia’s own market research suggests that AR-capable Smartphones will be owned by 25% of all consumers by 2009 (Nokia Research Centre Cambridge, non-public document). Mobile AR of the type HARVEE hopes to achieve represents not only a significant technical challenge, but also a potentially revolutionary step in mobile telephony technologies and the entertainment industry.

Gameware’s HARVEE project is essentially the creation of an SDK (Software Development Kit) which will allow developers to create content deliverable via their own Mobile AR applications. The SDK is written with the developer in mind, and does the difficult work of augmenting images and information related to the content. This simple yet flexible approach opens up a space for various types of AR content created at low cost for developers and end-users. I see Mobile AR’s visibility on the open market the only impediment to its success, and I believe that its simplicity of concept could see it become a participatory mass-medium of user-generated and mainstream commercial content.