Posts tagged anna hill
“If every habitable world in the universe is unique, and the precise chemical conditions of a planet helps shape the life that evolves there, then avatars could allow aliens to visit other worlds from the safety of their spaceship. Could it be that all the stories of alien encounters on Earth were really encounters with alien avatars? Maybe aliens don’t actually look like grey humanoids with large eyes and no noses. Instead, that haunting image may simply be what we look like to them.”
At the Kinetica Art Fair Collaborative Futures Panel, Anna Hill (Creative Director of Space Synapse) explained that she is “…working on systems to get from space to Earth, and offer some sort of collaboration between the two.”
She offered some examples, including Remote Suit, a wearable system designed to share the experience of being in space with people on Earth, and the Symbiotic Sphere – a pod which gathers inspirational space data including images, videos, sound and haptics from space, the idea being to give those who sit in it an idea of what it is like to be in space.
Anna outlined her vision of the future: “I can envisage a feminising of technology. I’m very interested in augmented learning and collective and systemic thinking – there will be fewer top-down organisations. And there’s a need for robots not to replace humans.”
NASA is no stranger to robotics, with more than 50 robotic spacecraft studying Earth and reaching throughout the solar system, from Mercury to Pluto and beyond. But their latest development in the field of ‘Telerobotics’ marks a new development in how robots and avatars could work together to facilitate more sophisticated unmanned space exploration.
“Tomorrow’s NASA space program will be different,” says Wallace Fowler of the University of Texas, a renowned expert in modeling and design of spacecraft, and planetary exploration systems. “Human space flight beyond Low Earth Orbit (LEO), beyond Earth’s natural radiation shields (the Van Allen belts), is dangerous. Currently, a human being outside the Van Allen belts could receive the NASA defined “lifetime dose” of galactic cosmic radiation within 200 days.”
The current Robots used by NASA, however, are a long way off the vision proposed in the film Avatar where human users truly ‘experience’ the environment they are placed in. This is where virtual reality environments begin to change things as highlighted in the Daily Galaxy blog:
The Virtual Interactive Environment Workstation (VIEW) was an early virtual reality instrument developed at NASA Ames. It was a leap forward in true ‘immersion’ of the user in a virtual environment, and was the first systems to use a ‘data glove’. This glove measured and tracked how a user moved their fingers, allowing interaction with the virtual world.
Today, NASA uses 3D and virtual technologies for a number of public outreach and education projects. The technology can also be used for training purposes, allowing an astronaut to practice, say, walking on the surface of mars. NASA is developing technologies that will allow a human explorer based on Earth, or in the relative safety of a space station or habitat, to actually experience exploration of a distant location. If the technology can be tied to robotic ‘avatars’ on a planetary surface in real-time, the user would not simply experience a simulation of the world – but could directly participate in exploration and science as if they were there.
Closer to the exploration front, similar technologies are also being used in NASA’s most avatar-like experiment of all – the Robonaut. According to researchers on the project, “Robonaut systems are the first humanoids specifically designed for space.”
Robonaut is a collaboration between the Robot Systems Technology Branch at the NASA Johnson Space Center and the US military’s Defense Advanced Research Projects Agency (DARPA) to build a robotic ‘astronaut equivalent’. Robonaut looks a bit like a human, with an upper torso, two arms and a head – all controlled by a human operator through telerobotic technologies. Robonaut was designed with the concept of creating a robot for tasks that ‘were not specifically designed for robots.’ In order for the Robonaut to complete these ‘human-like’ tasks, it is equipped with hands that are actually more dexterous than those of an astronaut in a pressurized spacesuit.
In 2004, the second generation of Robonaut gained mobility when engineers attached its body to a Segway Robotic Mobility Platform (RMP) commissioned by DARPA. Using virtual reality instruments, a human operator was immersed in the Robonaut’s actual environment and was able to perform remote operations.
More recently, NASA revealed the next generation of Robonaut, dubbed R2. General Motors has now joined on as a partner, and hopes that Robonaut will not only explore other worlds, but will help humans build safer cars. For more information on the R2 project, click here to see videos with some of the key researchers involved.
According to researchers on Robonaut, “As the project matures with increased feedback to the human operator, the Robonaut system will approach the handling and manipulation capabilities of a suited astronaut.”
With more ‘haptic technology’ which uses sensory feedback to recreate the sense of touch, a user might wear gloves that allow them to ‘feel’ objects in a virtual world. You could examine the texture and weight of rocks, or even experience the crunch of icy martian dirt.
Dr Grace Augustine’s Avatars on Pandora go well beyond current technologies. We’re not going to be growing any biological avatars for human explorers in the lab – but modern robotics are getting close to providing a ‘human’ experience through increased dexterity and mobility. Robotic avatars could allow humans to fully experience the environment of other worlds. Through the eyes of robotic avatars we could watch the sunrise over the rusty, red crater rims without having to “experience suffocation, the icy death of -200 degrees C on their skin or the sting of microscopic dust in their eyes.”
Even though NASA and others have come a long way in developing avatars, the technology still has a long way to go before we’re having adventures on Pandora-like planets. Perhaps more advanced civilizations on distant worlds have developed avatars just as good as those in the movie.
Robots and Avatars held a panel discussion at the Kinetica Art Fair in London on 6th Feburary 2010 which looked at future collaboration with robots and avatars in work and play space.
The panel was made up of some fascinating experts from digital, creative, academica and educational sectors and included Professor Noel Sharkey (University of Sheffield), Ron Edwards (Ambient Performance), Ghislaine Boddington (body>data>space), Peter McOwan (Queen Mary University of London), Anna Hill (Space Synapse) and Michael Takeo Magruder (King’s Visualisation Lab, King’s College London).
Ghislaine Boddington introduced the event by talking about body>data>space’s work and how the Robots and Avatars programme will “look at robots and avatars in the future, and examine how young people will work and play with representative forms in both the virtual and physical worlds.” Peter McOwen revealed details of his work on a European project called LIREC: Living with Robots and Interactive Companions and delved into human relationships with robots. Anna Hill from Space Synapse explored how earth to space collaborations work and emphasises the imporatance on a ‘feminised view of technology’. Michael Takeo Magruder talked about how we relate to avatars and share with us his work at Kings College Visualisation Lab within Second Life. Bringing the virtual into the workplace was the central theme of Ron Edwards’s presentation as he explained about his “enterprise-grade virtual worlds” that bring data into virtual training environments. Robots And Avatars stalwart and project champion Noel Sharkey wrapped up the presentations by talking about his new phrase “Robatars” – suggesting a hybrid between robots and avatars and challenging the ways in which we think of them now.
Click here to see further content from the Collaborative Futures Panel, including Steve Boxer’s full report on the Panel.