Robot Mimics Human Skeleton and Muscles

Hello ‘eccerobot’, the first anthropomimetic robot torso, designed as a means of investigating machine consciousness by closely modeling the device’s skeletal and internal structure to that of humans.

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Earlier this year, new machinery framework for ‘eccerobot’ was awarded 1st place at the international culturaland academic meeting of engineering students. the development of ‘eccerobot’ is led by robotics specialist owen holland with the ETF robotics research group at the university of belgrade.

The most recent updates to ‘eccerobot’ involve developing higher-level cognitive functioning, using reinforcement learning as a means of ‘teaching’ the device new functions. a virtual simulation of reinforced learning techniques, for example, is presented in videos here

‘Standard humanoid robots mimic the human form, but the mechanisms used in such robots are very different from those in humans, and the characteristics of the robots reflect this. this places severe limitations on the kinds of interactions such robots can engage in, on the knowledge they can acquire of their environment, and therefore on the nature of their cognitive engagement with the environment.’ – The ETF Research Team

The bones and joints of ‘eccerobot’ are composed of thermoplastic polymorph, a high tensile polymer that softens when heated and can thus be molded into precise forms. about 80 ‘muscles’ each rely on an individual actuator for their motion, each composed of a screwdriver motor with gearbox, kiteline ‘tendons’, and elastic shock cord.

The sensor system covers proprioception (one’s sense of the position of his own body parts), visual processing, audio with vibrational sensors, an inertial unit, and tactile feedback. throughout these systems, the engineers seek to mimic human reflexes and input processing; for example generating an artificial vestibulo-ocular reflex, which is responsible for the reason a human can shake his head while reading a book without impeding his vision of the text but not while keeping his head still and shaking the book at the same speed. two high-definition cameras with field programmable gate arrays allow for efficient preprocessing and processing of visual input. Two microphones imitate the simultaneously directional and acoustical audio characteristics read by human ears, although vibration and impact sensing through accelerometers offer an additional source of data.

The behaviour and ‘cognitive functioning’ of the robot consists of voluntary and involuntary movement control units, ‘ECCEOS’ (a physics-based computer model that compiles much of the data and functions together), and a higher level unit uniting ‘perception’, ‘planning’, and ‘decision-making.’

Source: Designboom

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