Human Brain Project, World’s Most Ambitious in Neuroscience, Officially Started Today
The world’s most ambitious neuroscience project is underway. Scientists from the 135 partner institutions of the Human Brain Project, co-funded by the EU with an estimated budget of €1.2 billion ($1.6 billion USD), are meeting in Switzerland for the official launch today, October 7, 2013.
Over the course of a week, neuroscientists, doctors, computer scientists and roboticists will fine-tune the project’s details.
Its goal is to develop methods that will enable a deep understanding of how the human brain operates. The knowledge gained will be a key element in developing new medical and information technologies. Six months after its selection by the EU as one of its FET Flagships, the project partners are meeting at EPFL (Ecole polytechnique fédérale de Lausanne), the coordinating institution during this week. , this project of unprecedented complexity, with an estimated budget of €1.2 billion, has now been set in motion.
Six platforms to move the project forward
The Human Brain Project’s initial mission is to launch its six research platforms, each composed of technological tools and methods that ensure that the project’s objectives will be met. These platforms are: neuroinformatics, brain simulation, high-performance computing, medical informatics, neuromorphic computing and neurorobotics.
With more than 130 research institutions from Europe and around the world on board and hundreds of scientists in a myriad of fields participating, the Human Brain Project is the most ambitious neuroscience project ever launched. Over the next 30 months scientists will set up and test the platforms. Then, starting in 2016, the platforms will be ready to use by Human Brain Project scientists as well as researchers from around the world. These resources – simulations, high-performance computing, neuromorphic hardware, databases – will be available on a competitive basis, in a manner similar to that of other major research infrastructures, such as the large telescopes used in astronomy.
Neuroscience, medicine and technology: the Human Brain project’s goals
In the field of neuroscience, the researchers will have to manage an enormous amount of data – in particular the data that are published in thousands of scientific articles every year. The mission of the neuroinformatics platform will be to extract the maximum amount of information possible from these sources and integrate it into a cartography that encompasses all the brain’s organizational levels, from the individual cell all the way up to the entire brain. This information will be used to develop the brain simulation platform. The high-performance computing platform must ultimately be capable of deploying the necessary computational power to bring these ambitious developments about.
Medical doctors associated with the project are charged with developing the best possible methods for diagnosing neurological disease. Being able to detect and identify pathologies very rapidly will allow patients to benefit from personalized treatment before potentially irreversible neurological damage occurs. This is the mission of the medical informatics platform, which will initially concentrate on compiling and analyzing anonymized clinical data from hundreds of patients in collaboration with hospitals and pharmaceutical companies.
Finally, the Human Brain Project includes an important component whose objective is to create neuro-inspired technologies. Microchips are being developed that imitate how networks of neurons function – the idea being to take advantage of the extraordinary learning ability and resiliency of neuronal circuits in a variety of specific applications. This is the mission of the neuromorphic computing platform. The neurorobotics platform will focus on integrating neural network simulations into robots (initially virtual ones), who will benefit from new aptitudes such as learning ability or resiliency.
Next milestone: 2016
The platforms will be set up as part of a global, coherent project. For example, the scientists will depend on the brain simulation not only to better understand the mechanisms of neurological disease and identify new therapeutic targets, but also to update functional principles or even accelerate the development of neuro-inspired technologies. At the same time, these same technologies could contribute to meeting the simulation’s computational requirements. The success of the Human Brain Project depends in large part on the dynamics of exchange that will occur between its six platforms.
The scientists involved in the Human Brain Project now have two and a half years to finalize the research platforms. Once these are established, researchers will have at their disposal the infrastructures, tools and methods they need in order to meet their objectives. Now, nine months after its selection as a EU Flagship, the project is officially on its way. -- © EPFL