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All Outputs (10)

Towards a Platform-Independent Cooperative Human Robot Interaction System: III. An Architecture for Learning and Executing Actions and Shared Plans (2012)
Journal Article
Lallée, S., Pattacini, U., Lemaignan, S., Lenz, A., Melhuish, C., Natale, L., …Dominey, P. F. (2012). Towards a Platform-Independent Cooperative Human Robot Interaction System: III. An Architecture for Learning and Executing Actions and Shared Plans. IEEE Transactions on Autonomous Mental Development, 4(3), 239-253. https://doi.org/10.1109/TAMD.2012.2199754

Robots should be capable of interacting in a cooperative and adaptive manner with their human counterparts in open-ended tasks that can change in real-time. An important aspect of the robot behavior will be the ability to acquire new knowledge of the... Read More about Towards a Platform-Independent Cooperative Human Robot Interaction System: III. An Architecture for Learning and Executing Actions and Shared Plans.

Bioinspired control of electro-active polymers for next generation soft robots (2012)
Conference Proceeding
Wilson, E., Anderson, S. R., Assaf, T., Pearson, M., Walters, P., Prescott, T. J., …Porrill, J. (2012). Bioinspired control of electro-active polymers for next generation soft robots. In G. Herrmann, M. Studley, M. Pearson, A. Conn, C. Melhuish, M. Witkowski, …J. H. Kim (Eds.), Advances in Autonomous Robotics: Joint Proceedings of the 13th Annual TAROS Conference and the 15th Annual FIRA RoboWorld Congress, Bristol, UK, August 20-23, 2012, Proceedings (424-425). https://doi.org/10.1007/978-3-642-32527-4_42

The emerging field of soft robotics offers the prospect of replacing existing hard actuator technologies with new soft-smart materials [7]. Such materials have the potential to form a key component of safer, more compliant and light-weight robots. So... Read More about Bioinspired control of electro-active polymers for next generation soft robots.

Lump localisation through a deformation-based tactile feedback system using a biologically inspired finger sensor (2012)
Journal Article
Pipe, T., Roke, C., Melhuish, C., Pipe, A. G., Drury, D., & Chorley, C. (2012). Lump localisation through a deformation-based tactile feedback system using a biologically inspired finger sensor. Robotics and Autonomous Systems, 60(11), 1442-1448. https://doi.org/10.1016/j.robot.2012.05.002

The ability to localise harder areas in soft tissues is often desired during robot-assisted surgical operations. A deformation-based tactile feedback system was tested for the detection of objects within soft tissues, after being chosen over common p... Read More about Lump localisation through a deformation-based tactile feedback system using a biologically inspired finger sensor.

Towards an anthropomorphic design of minimally invasive instrumentation for soft tissue robotic surgery (2012)
Journal Article
Pipe, T., Tzemanaki, A., Dogramadzi, S., Pipe, A. G., & Melhuish, C. (2012). Towards an anthropomorphic design of minimally invasive instrumentation for soft tissue robotic surgery. Lecture Notes in Artificial Intelligence, 7429 LNAI, 455-456. https://doi.org/10.1007/978-3-642-32527-4_56

Minimally invasive procedures, such as laparoscopy, have significantly decreased blood loss, postoperative morbidity and length of hospital stay. Robot-assisted Minimally Invasive Surgery (MIS) has offered refined accuracy and more ergonomic instrume... Read More about Towards an anthropomorphic design of minimally invasive instrumentation for soft tissue robotic surgery.

Manipulating objects with gliders in cellular automata (2012)
Presentation / Conference
Georgilas, I., Adamatzky, A., & Melhuish, C. (2012, August). Manipulating objects with gliders in cellular automata. Paper presented at Automation Science and Engineering (CASE), 2012 IEEE International Conference on, Seoul, Korea

Micro-scale manipulation of objects is a growing requirement in specialised industries, especially those related to assembly of fragile micro-components. Widely implemented techniques in robotics and automation do not always cope with the delicate na... Read More about Manipulating objects with gliders in cellular automata.

Underactuated fingers controlled by robust and adaptive trajectory following methods (2012)
Journal Article
Jalani, J., Herrmann, G., & Melhuish, C. (2014). Underactuated fingers controlled by robust and adaptive trajectory following methods. International Journal of Systems Science, 45(2), 120-132. https://doi.org/10.1080/00207721.2012.687866

Choosing an appropriate control scheme to alleviate nonlinearities and uncertainties is not a trivial task, especially when models are not easily available and practical evaluation provides the only means for actual performance assessment. Various fa... Read More about Underactuated fingers controlled by robust and adaptive trajectory following methods.

Urine utilisation by microbial fuel cells; Energy fuel for the future (2012)
Journal Article
Ieropoulos, I., Greenman, J., & Melhuish, C. (2012). Urine utilisation by microbial fuel cells; Energy fuel for the future. Physical Chemistry Chemical Physics, 14(1), 94-98. https://doi.org/10.1039/c1cp23213d

This communication reports for the first time the direct utilisation of urine in MFCs for the production of electricity. Different conversion efficiencies were recorded, depending on the amount treated. Elements such as N, P, K can be locked into new... Read More about Urine utilisation by microbial fuel cells; Energy fuel for the future.

Improved single- and multi-contact life-time testing of dental restorative materials using key characteristics of the human masticatory system and a force/position-controlled robotic dental wear simulator (2012)
Journal Article
Alemzadeh, K., Dogramadzi, S., Raabe, D., Harrison, A., Ireland, A., Sandy, J., …Burgess, S. (2012). Improved single- and multi-contact life-time testing of dental restorative materials using key characteristics of the human masticatory system and a force/position-controlled robotic dental wear simulator. Bioinspiration and Biomimetics, 7(1), https://doi.org/10.1088/1748-3182/7/1/016002

This paper presents a new in vitro wear simulator based on spatial parallel kinematics and a biologically inspired implicit force/position hybrid controller to replicate chewing movements and dental wear formations on dental components, such as crown... Read More about Improved single- and multi-contact life-time testing of dental restorative materials using key characteristics of the human masticatory system and a force/position-controlled robotic dental wear simulator.

Tactile discrimination using active whisker sensors (2012)
Journal Article
Fox, C. W., Lepora, N. F., Sullivan, J. C., Mitchinson, B., Pearson, M., Evans, M., …Prescott, T. J. (2012). Tactile discrimination using active whisker sensors. IEEE Sensors Journal, 12(2), 350-362. https://doi.org/10.1109/JSEN.2011.2148114

We describe a novel, biomimetic tactile sensing system modeled on the facial whiskers (vibrissae) of animals such as rats and mice. The "BIOTACT Sensor" consists of a conical array of modular, actuated hair-like elements, each instrumented at the bas... Read More about Tactile discrimination using active whisker sensors.

Towards an intelligent distributed conveyor (2012)
Journal Article
Georgilas, I., Adamatzky, A., & Melhuish, C. (2012). Towards an intelligent distributed conveyor. Lecture Notes in Artificial Intelligence, 7429, 457-458

Manipulation, orientation and handling of components, subparts and finished products is an essential element of any industrial process, which attracts substantial portion of resources and infrastructure. A classic manipulation, e.g. robot arms, is no... Read More about Towards an intelligent distributed conveyor.