RoBoSAS: Robotics, BCI and Secure Adaptive Systems at Essex University and NASA JPL

A Web site in support of the project "Gobal engagement with NASA JPL and ESA in Robotics, Brain Computer Interfaces, and Secure Adaptive Systems for Space Applications" funded by EPSRC

Thursday, 11 April 2013

Focus magazine reports on our collaborative brain computer interfaces

Focus, an Italian national science magazine (probably the most widespread with approximately half a million copies printed monthly), has devoted a short article to our work on collaborative BCI in its April 2013 issue.


Posted by Riccardo Poli at 03:12 No comments:
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Project Collaborators

  • Adrian Stoica
  • Ana Matran-Fernandez
  • Caterina Cinel
  • Dimitrios Andreou
  • Francisco Sepulveda
  • Gareth Howells
  • Huosheng Hu
  • Klaus McDonald-Maier
  • Maria Fasli
  • Riccardo Poli
  • Theo Theodoridis

Blog Archive

  • ▼  2013 (12)
    • ►  August (1)
    • ▼  April (1)
      • Focus magazine reports on our collaborative brain ...
    • ►  March (1)
    • ►  February (6)
    • ►  January (3)
  • ►  2012 (14)
    • ►  December (3)
    • ►  September (2)
    • ►  August (2)
    • ►  July (2)
    • ►  May (2)
    • ►  April (3)

About the project

The project brings together complementary expertise from several leading research groups of the University of Essex, namely Robotics, Brain-Computer-Interfaces (BCI), Computational Intelligence and the Embedded and Intelligent Systems group to address significant challenges in autonomous systems for space applications. It seeks to significantly enhance and widen an existing collaboration for the design of autonomous embedded systems, robotics,evolutionary computing and BCI with the California Institute of Technology / NASA Jet Propulsion Laboratory (JPL), Pasadena, USA and the European Space Agency (ESA), in utilising the combination of a dedicated research programme combined with networking activities, including short-term and longer exchange visits of both academic staff and researchers, student placements and joint workshops to be held as part of conferences.

In order to achieve our primary aim of engineering a robust and reliable autonomous robotic systems capable of adapting to a rapidly changing dynamic environment, we will explore employing hybrid techniques that are better able to face the issues emerging from space applications than any technique in its own right. For example, very limited work has been carried out to use the concept of empirical non-intrusive monitoring that drives the self-healing process of an embedded robotic system that operates in a potentially hostile environment, such as space. This project will explore this.

A further major factor to address is that of secure communications. Security of communication is of paramount importance in space applications. The scientific impact and the investment associated with them are simply too great to risk an unauthorised breaking into a satellite or a spacecraft, or remotely taking a rover for a joy ride on a planet. While data encryption techniques are now highly sophisticated and well established, encryption itself cannot necessarily protect against fraudulent data manipulation when the security of encryption keys cannot be absolutely guaranteed. So, additionally, the programme will explore enhancing the significant existing research collaboration between the partners in deriving encryption keys directly from properties of digital systems (ICmetrics, this term stems originally from NASA JPL).

Also, the possibility of controlling external devices using brain-computer interface technology could have a tremendous influence on strategic plans for future space missions. Indeed there is interest both at ESA and JPL in this area. Essex has historically been leading in this area. The Essex BCI group was one of the three partner institutions who were contracted by the European Space Agency in 2006 to produce a critical review of non-invasive BCI with a look at future perspectives for space applications. This study was one of the first of its kind. The possibility of using BCI in space applications has since been explored by a small number of studies. In this project we will explore a number of avenues with a top quality research team of BCI researchers, computer scientists and space experts.
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