I chose to draw each clay object created for the unfeasible objects experiments. Why? The photographs don't seem to do justice to the significance of the object, its purpose and the process its undergone. Both with my self and the participant. They say drawing itself is a form of embodiment. "In the gesture of a drawing, there abides the question of how human beings hold memory. A trace of the body, the projection of an emotion, a record of the experience of seeing are woven into the gestured mark, a kinetically vitalized inscription that can serve as a site of empathy and invitation as much as a line of mimetic description" Marking Time, Figuring Space: Gesture and the Embodied Moment. Sara Schneckloth The
Year: 2018
Clay hand experiments at Radiona
Some documentation from the workshop at Radiona in Zagreb [See Re-mapping the senses workshop] [For more information about the clay hand experiment see here] [For more information about the clay hand experiment see here]
Proprioceptive drift visualisation
[wpvideo VartTqKO ] My experiments show a strong ‘drift’ in the perceived location of the hand before and after the experiment. This is known as proprioceptive drift. I asked people to locate the position of their index finger under a platform before and after embodying a clay object. And also draw their hand without looking before and afterwards. This animation shows these superimposed, illustrating the drift away from the real location of the hand.
Fish-brain-machine / Radiona workshop
After constructing the Fish-brain-machine PCB circuits we spent some time experimenting and describing the hallucinogenic visuals created by the stroboscopic light. The ping pong balls over the eyes diffuse the LED light, making for a more intense effect - and enabling use with eyes open. Here they describe some of the effects including seeing colours and 'a strange experience' of seeing with only one eye - I get this exact same feeling when using it. It is also hard to know if your eyes are open or closed. [See also Re-mapping the senses workshop ] https://www.youtube.com/watch?v=Lwne5xICLkI
Spontaneous sensations
Possibly one of the simplest experiments possible to conduct, requiring no special equipment. Simply stare at your hand for 5 mins. The experiment is described in the paper “the tickly homunculus and the origins of spontaneous sensations arising on the hands" in which you focus on your hand while staring at it (convergent focusing) or divergent focusing (staring at red marker next to the hand you are focussing on) for just 10 seconds and report the sensations. Here are the outcomes superimposed from 8 participants. In this experiment, many of the bemused participants described a tingling where the hand made contact with the table. They were bemused because I did this experiment in the context of our methods and methodologies discussion group - where I was
Radiona workshop, Zagreb
I'm doing a workshop related to my research, perceptual illusions and altering perception through experiments, Clay hand illusion and other activities based on sound and light and taste, at Radiona Zagreb, 21-22/04/2018 https://radiona.org/ check out the web Re-mapping the senses workshop page and resources here...
Fish-brain-machine
As part of my Enki exhibition at Kapellica Gallery in Ljubljana 2012, I developed a related perceptual illusions and brain hacks workshop with Marc Dusseiller [Hackteria], as part of the gallery’s Biotech program. We came up with the idea to make a special issue circuit for the workshop and we set to work designing a circuit the encapsulated the Enki project in miniature. After a couple late nights, we came up with this super cool PCB design. Marc worked hard to create a fully functional efficient design, which was also aesthetically pleasing. The outline of the fish is also the ground in the circuit. This has to be the most ultra minimal brain-machine available to build. 6 components. We spent further
Strange face illusion with two-way Mirror feedback
“… a quiet room dimly lit by a 25 W incandescent light. The lamp was placed on the floor behind the observer so that it was not visible either directly or in the mirror. A relatively large mirror (0.5 m60.5 m) was placed about 0.4 m in front of the observer. The luminance of the reflected face image within the mirror was about 0.2 cd mÿ2 and this level allowed detailed perception of fine face traits but attenuated colour perception…The task of the observer was to gaze at his/her reflected face within the mirror. Usually, after less than a minute, the observer began to perceive the strange-face illusion…” Giovanni B Caputo, Perception, 2010, volume 39, pages 1007 – 1008 2010
Mechanically Augmented Reality
When I first learned about the Rubber hand illusion [RHI] I immediately began to think about ways in which the process could be automated to create an artwork, in which the experimenter's presence was removed. This could be done using sensors and a microcontroller to articulate solenoids to tap fingers for example. That thought train was on a back burner until discovered the work of fellow MMU PGR Lin Charlston. As part of her PhD research [See her profile here 'The Multimodal book as organism, artefact and assemblage: non-human agency in processes of growing and making'] She invented a beautifully simple, entirely mechanical device just to do exactly this. Your hand is placed inside a box, while the other hand turns a crank. On top of the box, another rubber hand
On the embodiment of unfeasible objects
Further to my last post detailing experiments relating to the embodiment of invisible and even third hands, here are some notes on my first 'Clay hand Illusion' experiments... The ‘Rubber hand illusion’ shows it is possible to convince participants that a rubber hand is their own by placing it in front of them while stroking it in the same way as their hidden real hand. The use of self-made clay hands, or objects [see below] in place of the rubber hand raises several interesting possibilities for exploration, which move away from the embodiment of replica body parts, and towards the possible embodiment of modified body parts, or completely 'unfeasible' objects.The clay allows for the gradual and immediate morphing of forms and for the
Illusions of Invisible, alien hands, 3 arms, and shrinking bodies…
I have previously posted about the original 'rubber hand illusion' in which participants are convinced a fake rubber hand is their own. A classic low tech experiment that can help us "understand how sight, touch and “proprioception” the sense of body position, combine to create a convincing feeling of body ownership, one of the foundations of self-consciousness (Nature 1998, vol 391, p 756 )” Further to this research recent studies have gone on to experimentally induct of out of body experiences or create body swap illusions. [ Henrik Ehrsson and Olaf Blanke http://www.eurekalert.org/pub_releases/2007-08/ucl-foe081407.php ] Between these two experiments, several interesting versions of hand-related experiments also exist which demonstrate the plasticity of our body perception... The Alien Hand Experiment first created in the 1960s predates the Rubber hand experiment, seems more 'trick'
Blind drawing of hand
Blind drawing of hand starting from the left and using a continuous line, before and after experiments. Could this exercise be used as a measure of "proprioceptive drift" before and after 'Rubber hand illusion' type experiments? I will be exploring this idea soon with the research group at BEAM lab...
Clay hand drawings
Here are are a selection of drawn outlines of clay hands created by workshop participants aged 6 to 12 for the original clay hand experiment (see posts tagged rubber hand or clay hand) Participants of all ages were asked to create a hand and use it in place of a replica rubber hand, the idea was to test if a self-created hand was easier to connect with. The hands were then taken and worked on further, sometimes becoming more distorted and abstract.
Face as Interface
Trying to create a simple motion tracking patch using PD_extended and Gem, I came across this project by Elektro Moon Vision http://elektromoon.co.nr/ the mini App provides OSC data from movements such as eyebrows, nose, mouth, orientation scale etc. This is massively useful for an experiment I have in mind related to the "strange face in the mirror illusion" The data can be captured and used to control a 3D model in virtual space for example. Matching rotation, scale and orientation to the model and the movement of my head... This is a simple motion detection patch that tracks the difference between two frames creating ghostly outlines of momentarily disembodied features. It's sensitive enough to pick up facial expressions such as the movement of muscles and
Drawing a strange face in the dark
Shortly after my experience of the "Strange face in the mirror experiment" I made these drawings in low light conditions as a way of recording the perceivable elements of my face and shape of the head. The particles of carbon and graphite reflect well the visual noise, like static, one experiences in the experiment. These drawings don't illustrate the hallucinations I experienced [these will follow] "staring at one's own reflection in a mirror in a darkened room for some time can induce vivid hallucinations. For purposes of research, I had to try it" My experience of the ‘strange face illusion’... For my description of my experience of the 'strange face', illusion see here... "staring at one's own reflection in a mirror in a darkened room for
Mixing object actions and context
This research looked at how we respond to the observation of actions and how the context affects our neural processing of that action. I was fascinated to learn simply by observing an action with an object that can be potentially used for an action - such as a potato peeler - the brain seems to simulate this action. But what happens when we observe an object being used for an action in an unusual context? Or what happens if we see an object being used for an unusual action, perhaps even in an unusual space. The experiments used videos of a person performing a task with specific objects in specific contexts such as cracking and egg into a bowl in the kitchen. and was then repeated in
Rubber hands ‘feel’ touch that eyes see
The first report on the Rubber Hand illusion. Published in Nature in 1998 by Matthew Botvinick, and Jonathan Cohen of the Department of Psychiatry, University of Pittsburgh... "We report here an illusion in which tactile sensations are referred to an alien limb. The effect reveals a three-way interaction between vision, touch and proprioception, and may supply evidence concerning the basis of bodily self-identification." "It has been proposed that the body is distinguished from other objects as belonging to the self by its participation in specific forms of intermodal perceptual correlation7,8. Subjects in our first experiment who referred their tactile sensations to the rubber hand also consistently reported, in both sections of the questionnaire, experiencing the rubber hand as belonging to themselves. Indeed,