PhD position on models of decision making in Bristol

Dear Colleagues,

I would like to let you know about a fully funded 3-year interdisciplinary PhD studentship on computational models of decision making at the University of Bristol.

The student will be based in Bristol University's interdisciplinary centre for research into /Decision Making in an Unstable World  /(http://www.bristol.ac.uk/decisions-research/).  The centre currently has 2 postdoctoral researchers and 4 PhD students, runs a wide variety of topic focused seminars and workshops, and offers a range of exciting collaborative opportunities. The research team is located in a newly-refurbished dedicated space.

Applications are welcomed from UK/EU students who are enthusiastic and highly-motivated who possess, or will shortly obtain, a first or upper second class degree, or equivalent, in a numerate subject from across the Mathematical, Natural and Engineering Sciences (for example Mathematics, Computer Science, Statistics or Physics).  Applicants must demonstrate a strong desire to be part of an interdisciplinary research team that combines mathematical and computational modelling with experimental research on humans.  Successful applicants will receive an EPSRC 3-year studentship covering living expenses and fees.

For further information, please visit http://www.bristol.ac.uk/decisions-research/.  Informal enquiries are very welcome and should be made to Dr David Leslie (david.leslie@bristol.ac.uk <mailto:david.leslie@bristol.ac.uk>) or Prof Iain Gilchrist (i.d.gilchrist@bristol.ac.uk <mailto:i.d.gilchrist@bristol.ac.uk>). Information about postgraduate study at the university, including the application procedure, is available at http://www.bris.ac.uk/prospectus/postgraduate/.  Please select 'Mathematics (PhD)' and indicate that that you are responding to the "Inter-disciplinary decision-making studentship advertisement" in the Research Details and Funding sections of the form.

We will carry out interviews and hope to appoint to this studentship as soon as possible.

*The closing date for applications is 9am on the 1^st October 2012.
*

**

Best wishes,

Rafal

Two PhD positions available at the Centre for Theoretical Neuroscience, University of Waterloo

Two fully funded graduate student positions (M(A)Sc/PhD) are available
immediately in the recently established van der Meer lab at the
University of Waterloo, Canada.

Research in the lab centers around the interplay between
decision-making, memory, and planning, which we approach using
synergistic experimental and computational tools. The lab’s newly
outfitted space enables the recording of neural activity from 10s to
100s of neurons, from multiple brain sites, as rodents perform flexible
behavioral tasks.

Possible experimental projects include, but are not limited to: (1) the
role of specific spike timing patterns (theta phase precession, replay)
in the acquisition and behavioral expression of place-reward
associations (van der Meer & Redish, J Neurosci 2011; Malhotra et al.
Rev Neurosci 2012) and (2) the relationship between ensemble states in
the hippocampus, ventral striatum, and subsequent behavior (van der Meer
et al. Neuron 2010).

The lab also hosts computational projects that explore related topics in
spiking network simulations (in collaboration with Chris Eliasmith’s
group). These may include, for instance, the embedding of a model
hippocampus in a large-scale functional model of the brain to explore
unifying hypotheses about its contributions to learning, memory and
flexible navigation (route planning).

Numerous opportunities for participating in funded, ongoing national and
international collaborations, as well as summer schools, are available.

Depending on background and interests, successful applicants may choose
as their home department Biology, Computer Science, or Systems Design
Engineering, all of which are compatible with the optional Diploma in
Theoretical Neuroscience.

Background in a quantitative discipline is highly desirable; experience
with rat behavior and/or electrophysiology is useful but not required.
To be considered for an interview, please send a cover letter and CV to
Matt van der Meer, Canada Research Chair in Integrative Neuroscience
(mvdm at uwaterloo dot ca). Informal inquiries are of course welcome!

For more information about the lab and the Centre for Theoretical
Neuroscience, see www.vandermeerlab.org and ctn.uwaterloo.ca.


--

Matthijs (Matt) van der Meer

Assistant Professor & Canada Research Chair in Integrative Neuroscience
Department of Biology and Centre for Theoretical Neuroscience
University of Waterloo, Canada

p: (519) 888-4567 x31151 | f: (519) 746-0614 | w: www.vandermeerlab.org
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Open position - Neuro-robotics group, The BioRobotics Institute, Scuola Superiore Sant'Anna, Pisa, Italy

Call for expression of interest in a position within the Neuro-robotics group of The BioRobotics Institute, Scuola Superiore Sant'Anna, Pisa, Italy
The successful candidate will work on real-time and neuromorphic artificial models of the human somatosensory system, applied to robotic tactile sensing technologies.

The following optional qualifications will be an added value for the successful applicant:
- PhD in Computer Science, Real-time systems, Robotics and Cognitive Systems, Computational Neuroscience
- Experience in modeling and artificial mimicry of biological systems
- Experience in real-time programming, and in developing experimental and demonstration robotic platforms
- Experience in multi-disciplinary teams involving neuroscientists and roboticists
- Valuable publication record
- Fluency in spoken and written English

The salary and the duration of the position will be negotiated with the successful candidate.
The position will be opened and awarded as soon as a number of qualified expressions of interest will be received. Therefore, immediate feedback by potential candidates is encouraged.

A list of publications representing the research interests of the Neuro-Robotics group is reported at the following web pages:
http://www.sssup.it/external_context.jsp?ID_LINK=9111&area=6&SECPUB=SEC_0002&userid=m.c.carrozza&uid=001083
http://scholar.google.it/citations?user=viSqeKEAAAAJ

For additional information, please send a detailed CV to:
Prof. Maria Chiara Carrozza    m.c.carrozza@sssup.it
Dr. Calogero M. Oddo            oddoc@sssup.it
Dr. Fabrizio Vecchi            f.vecchi@sssup.it

Postdoctoral Research Associate in Neuroscience - University of Leicester

Postdoctoral Research Associate in Neuroscience - University of Leicester

At Leicester we're going places. Ranked in the top 20 universities in Britain our aim is to climb further. A commitment to high quality fused with an inclusive academic culture is our hallmark and led the Times Higher Education to describe us as "elite without being elitist".

This is an exciting research opportunity to contribute to the development of a low power wireless implantable chip, used to process and transmit data from recorded neurons to external devices (like brain machine interfaces). The focus of your research will be the implementation of optimal spike detection and sorting techniques.

The project will be carried out with Prof. Rodrigo Quian Quiroga, director of the newly created Centre for Systems Neuroscience at the University of Leicester (www.le.ac.uk/neuroengineering).

You will have, or be close to completing, a PhD in Neuroscience, Signal Processing or a related area such as physics, mathematics, engineering or computer sciences. You will have a strong background in Mathematics (mainly Signal Processing) and/or Neuroscience. Experience with neurophysiology is also desirable. The position also requires very good knowledge of programming, especially in Matlab.

Informal enquiries are welcome and should be made to Prof. Rodrigo Quian Quiroga on rqqg1@le.ac.uk or  0116 252 2314.

The closing date for this post is midnight on 5 September 2012.

PhD student fellowship in the field of behavioral genetic and neuropsychopharmacology

We are seeking a highly motivated candidate for a PhD student fellowship to join our team at the Italian Institute of Technology (IIT), in Genova, Italy.

The overall goal of our research is to understand the genetic bases that cause the development of specific cognitive abnormalities and schizophrenia neuropathology. While several potential schizophrenia-susceptibility genes have been identified, effect sizes are very small and replication is inconsistent, likely because of the complexity of human polymorphisms, genetic and clinical heterogeneity and the potential impact of gene-gene and gene-environment interactions. In this context, mutant mice bearing targeted mutations of schizophrenia-susceptibility genes are unique tools to elucidate the neurobiological basis of this devastating disorder. Using genetically modified mice for genes relevant to schizophrenia, we will then employ a combined approach beginning at the behavioral level and culminating at the cellular and molecular levels. Cognitive abnormalities are core enduring symptoms in schizophrenia, dramatically contribute to poor functional outcomes in patients and currently represent a great “unmet therapeutic need”. We then mainly focus our work on behavioral cognitive analyses and relative neuronal correlates.

The IIT in Genova provides state-of-the-art research facilities in mouse behavioral phenotyping, molecular and cellular biology, imaging and electrophysiology. It brings together a large number of researchers with diverse backgrounds working together to achieve a high standard in training education.
The research fellowship is intended for a 3-year PhD position starting from January 2013.

Applications should include a cover letter, a CV, and at least two reference letters. Please send this material to:

Dr Francesco Papaleo
Team Leader
Department of Neuroscience and Brain Technologies, Istituto Italiano di Tecnologia, Via Morego 30
16163 Genova - Italy
Phone: +39 01071781786
E-mail: francesco.papaleo@iit.it

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Research Associate in Computational Neuroscience

Please find below an advertisement for a postdoctoral position. Please note that while the position is fixed term for one year, there is the prospect, for a suitable candidate, of follow-on funding.

Research Associate in Computational Neuroscience

Imperial College London -Department of Bioengineering

Salary range: £32,100 per annum

Fixed term appointment for 12 months

Applications are invited for an Imperial/Wellcome Trust funded Research Associate post on the development of a computational model of optogenetic modulation of neural circuits. You will be based in the Department of Bioengineering, and work jointly with Dr Simon Schultz (Department of Bioengineering) and Dr Konstantin Nikolic (Centre for Bio-Inspired Technology & Department of Electrical & Electronic Engineering). The RA would join a stimulating research environment with a rich programme of seminars and discussion meetings focused on Neurotechnology. The project is highly interdisciplinary. The RA will work at the interface between mathematics, engineering, physics and the life sciences, specifically in the mathematical and computational modeling of cortical neurons expressing channelrhodopsin, halorhodospsin, ArchT or similar light-activated ion channels. The research on this project will lead to a substantial project proposal which if accepted may allow for the extension of this post for up to 3 years.  

The Research Associate will have a PhD in Computational Neuroscience, Physics, Engineering or a related subject, and experience in computational modelling. The Research Associate's task will be to create mathematical models and then create computer simulations of individual cortical neurons as well as sets of neurons expressing optogenetic mechanisms. The RA will perform detailed system modeling and biophysical simulations of the experimentally determined optogenetic mechanisms, such as channelrhodopsin, halorhodospin, ArchT, etc. These models will be incorporated in models of neurons, and used for a large-scale model of optogenetic manipulation of the cortical circuit by, to the cortical microcircuit scale. The RA will study the effects of optical stimulation on a cortical column in which light sensitive ion channels have been expressed and analyse their implications for simulating brain injuries.

Our preferred method of application is online via the Imperial College website athttp://www3.imperial.ac.uk/employment where you will find a job description and person specification for this post.   Please select "Job Search" then enter the job title or vacancy reference number EN20120252FH into "Keywords". Complete and upload an application form as directed.

Should you have any queries, please contact:

Dr Simon Schultz, email: s.schultz@imperial.ac.uk , group web page http://www.schultzlab.org

or

Dr Konstantin Nikolic, T: +44 (0)20 7594 1594, E: k.nikolic@imperial.ac.uk

Please note that applications sent directly to these email addresses will not be accepted.

Closing Date: 17 September 2012

Simon R Schultz

Director of Postgraduate Studies (Research)

Royal Society Industry Fellow and Senior Lecturer

Department of Bioengineering

Imperial College London

Phone: +44-207 594 1533

Email: s.schultz@imperial.ac.uk

http://www.schultzlab.org

http://www.imperial.ac.uk/neurotechnology

Member of National Committee, British Neuroscience Association

http://www.bna.org.uk

Brain imaging postdoctoral positions at Stony Brook University

There are two postdoctoral positions in brain imaging open at Stony Brook University.

One is for diffusion MRI:

http://naples.cc.sunysb.edu/Admin/CampusJob.nsf/487fa351f970ddc3852569800011d0e4/819C0E87E24593AC85257A38004D3853?OpenDocument

and the other for multimodal image analysis:

http://naples.cc.sunysb.edu/Admin/CampusJob.nsf/487fa351f970ddc3852569800011d0e4/02DFAB49D07FDF4185257A2A00526356?OpenDocument

Cheers,

@rno

PhD call - neuromorphic, event-driven, asynchronous sensors - Istituto Italiano di Tecnologia

Two PhD positions with scholarships in the field of event-driven, asynchronous, neuromorphic sensors are available at the Robotics Brain and Cognitive Sciences Department of Istituto Italiano di Tecnologia (IIT) in the Neuromorphic Systems and Interfaces group led by Dr. Chiara Bartolozzi.

Deadline: 21^st September 2012

On-line application: http://servizionline.unige.it/studenti/post-laurea/dottorato

Research theme:

Carrying out real-world tasks in artificial behaving systems robustly and efficiently is one of the major challenges of today’s research in ICT. This is especially true if performances even remotely similar to those of biological behaving systems are desired. Indeed, biological systems are clearly outperforming artificial computing and robotic systems in terms of appropriateness of the behavioural response, robustness to interference and noise, adaptation to ever changing environmental conditions, or energy efficiency. All these properties are strongly interconnected and arise from the characteristics of the radically different style of computation used by the biological brain. In conventional robotics systems, sensory information is available in a sequence of “snapshots” taken at regular intervals. In this context high dynamics can be sensed only by increasing the sampling rate. Unfortunately the available bandwidth limits the amount of information that can be transmitted forcing a compromise between resolution and speed. As a result, current robotic systems are too slow and cannot react appropriately to unexpected, dynamical events. Biological systems also show us that predictive behaviour can compensate quite effectively for such latencies; however, proper predictions can be achieved only if scenes' dynamics are captured with sufficient temporal resolution. Neuromorphic sensors appear then as an efficient optimal solution to the problem. Neuromorphic event-based sensors sample information asynchronously with temporal resolutions that are order of magnitudes larger than the ones of conventional artificial cameras, while, at the same time, largely suppressing information redundancies and optimizing bandwidth usage and computational costs.

In this context two complementary research themes are available for PhD thesis:

Event-driven visual perception (theme 1.15)

N. of available positions: 1

The goal of the proposed research theme is the development of event-driven artificial vision for a humanoid robot, fully exploiting the advantages of such an un-conventional type of sensory encoding and validating it on a robotic platform capable of complex interaction with the real world. The research will start from the existing work on the development of event-driven motion estimation and object recognition and will involve the development of algorithms for spike-based vision, using both artificial and real data. This work will be complemented by the use and validation of the developed computational methods for driving the behaviour of the humanoids robot iCub (www.icub.org).

Event-driven tactile sensing (theme 1.16)

N. of available positions: 1

The goal of the proposed research theme is the study and development of artificial event-driven tactile sensors for a humanoid robot. It is a multi-disciplinary work that will combine the study of:

-           biological sensory transduction,

-           neuromorphic mixed signals microelectronics for the development of the sensor encoding

-           diverse existing mechanisms and materials for tactile sensory transduction

with the goal of creating an optimal system for event-driven tactile sensors. The potential applications of this line of research will start from the use in a bio-inspired event-driven humanoid robot (the “neuromorphic” iCub), up to the use in artificial limbs for sensorized prosthetics.

For further details concerning the research project, please contact: chiara.bartolozzi@iit.it

The PhD scholarships are part of the post-graduate program of the University of Genova, school of “Life and Humanoid Technologies”, Doctoral Course on “Robotics, Cognition and Interaction Technologies”. http://www.iit.it/en/openings/phd-calls.html

Memory and Learning in Robot Cognitive Development (PhD Position proposal)

The Robotics, Brain and Cognitive Sciences Department at  the Fondazione Istituto Italiano di Tecnologia (IIT - www.rbcs.iit.it) is offering positions for the Doctoral Course on “Life and Humanoid Technologies”
http://www.iit.it/en/openings/
phd-calls/1595-phd-school-in-life-and-humanoid-technologies.html

If your research interest is in addressing cognition from the human as well as humanoid perspective this proposal may be of interest to you.

At RBCS department top-level neuroscience research and top-level robotics research is being merged to seek answers towards some of the long standing open problems in both fields. The research team at RBCS is composed of neuroscientists, engineers, psychologists, physicists working together to investigate brain functions, realize intelligent machines and advanced prosthesis. RBCS is also the home of the humanoid iCub.

Emphasizing on “cumulative learning/cumulative reasoning” agenda for the cognitive development of iCub, we invite applications/enquiries from prospective candidates interested in investigating computational and biological mechanisms of ‘humanlike’ memories and endowing humanoid robots (iCub) with similar capabilities (see below for full description of the theme). This PhD project (Theme 1.11, see below) will be partially conducted within the framework of the EU funded project ‘DARWIN’ (http://darwin-project.eu/) in collaboration with a team of leading international scientists. The state of the art humanoid iCub as well as an industrial platform (see the website) will be used to validate the cognitive architecture in a range of playful scenarios and tasks inspired from animal and infant cognition.

Considering the interdisciplinary nature of the problem, the proposal is open for candidates from diverse disciplines (e.g. physics, biology, robotics, computer science) with an interest in understanding/modeling ‘human like’ memories and implementing such architectures on cognitive robots.

For further details concerning this research project, please contact: vishwanathan.mohan@iit.it

For more information on administrative issues, please contact:
Ms. Anastasia Bruzzone
Tel. +39 010 71781472
Fax. +39 010 7170817
Email: anastasia.bruzzone@iit.it

To apply, follow the instructions indicated in the links, in short: a detailed CV, a research proposal under one or more themes chosen among those above indicated, reference letters, and any other formal document concerning the degrees earned. Note that these documents are mandatory in order to consider valid the application.

DEADLINE is September 21, 2012 at noon (strict deadline, no extension).
ONLINE APPLICATIONS only, look at:
http://servizionline.unige.it/
studenti/post-laurea/dottorato

Theme 1.11: Towards a Humanlike “memory” for Humanoid robots

   Memory is the capability of the nervous system to benefit from experience. For cognitive robots “learning continuously” in time through various playful sensorimotor interactions with the world (and people in it), there is an urgent need to develop an equally powerful (and humanlike) memory architecture that can “abstract and store” useful information in such interactions and remember ‘valuable’ ones when faced with novel situations. While the neuroscience of memory has progressed significantly in recent times (Patterson et al, 2007, Martin, 2009, Meyer and Damasio, 2009, Squire et al, 2011), computational principles to implement such biologically inspired memory architectures in autonomous robots is still lagging way behind. Certainly, “learning” has been given importance in robotics but most of the learning is still restricted to task specific scenarios (learn to imitate movements, learn to push, learn to stack objects, etc.). Attempts to create a ‘task independent’ repository of causal knowledge that can be exploited/recycled under different circumstances and goals have been very sparse. This lacuna has to be filled if we are to see the emergence of truly cognitive systems that can use ‘experience’ to go ‘beyond experience’ in novel/unencountered situations. Further, we know from several studies in neuroscience that human memories are very different from generic computer memories. It’s not a ‘warehouse’ where information is dumped and retrieved through some iterative search. It is modality independent (ex. You can move from apple to how it tastes, the crunchy sound of it when you bite, and what you can do with it), there is no limit to retrieval (with more experience on a topic you recall more and more). There is a fine categorization between declarative (what is an apple), procedural (how to make an apple pie) and episodic (what you did with an apple yesterday) memory. It is also known that brain networks involved in recalling the past are also active in simulating the future (Schacter et al, 2007, Buckner et al 2007, Buckner et al 2008, Bressler et al, 2010, Sporns, 2010) for reasoning and planning action in novel situations (more recently named as the Default Mode Network of the brain). Considering that cognitive robots envisioned to assist us in the future are being designed to perform their goals in a dynamic and changing world that we humans inhabit, every moment is indeed novel and a powerful humanlike memory grounded in neurobiology is a fundamental requirement to “cognitively” exploit past experience in new situations. This PhD theme invites prospective candidates interested in investigating computational and biological mechanisms of ‘humanlike’ memories and endowing humanoid robots (iCub) with similar capabilities. This PhD proposal will be conducted within the framework of the EU funded project ‘DARWIN’ (http://darwin-project.eu/) in collaboration with a team of leading international scientists. The state of the art humanoid iCub as well as an industrial platform (see the website) will be used to validate the cognitive architecture in a range of playful scenarios and tasks inspired from animal and infant cognition.

Suggested References:
[1] Martin A.  Circuits in mind: The neural foundations for object concepts. The Cognitive Neurosciences, 4th Edition.  M. Gazzaniga (Ed.), MIT Press, 1031-1045, 2009.
[2] Patterson, K., Nestor, P.J. & Rogers, T.T. (2007) Where do you know what you know? The representation of semantic knowledge in the human brain, Nature Reviews Neuroscience, 8(12), 976-987 [3] Squire, L.R. & Wixted, J. The cognitive neuroscience of human memory since H.M. Annual Review of Neuroscience,34, 259-288.
[4] Buckner, R.L and Carroll, D.C. (2007) Self-projection and the brain. Trends in Cognitive Science; 2:49-57.
[5]Schacter, D.L., Addis, D.R., and Buckner, R.L. (2007) Remembering the past to imagine the future: the prospective brain. Nat Rev Neurosci; 8(9):657-661.
[6] Bressler SL, Menon V. Large-scale brain networks in cognition: emerging methods and principles. Trends in Cognitive Sciences 14:277-290 (2010).
[7] Sporns,O. "Networks of the Brain", MIT Press, 2010, ISBN 0-262-01469-6.
[8] Meyer K, Damasio A. (2009) Convergence and divergence in a neural architecture for recognition and memory. Trends in Neuroscience. Jul;32(7):376-82.

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Prof. Giulio Sandini

Head: Robotics, Brain and Cognitive Sciences

Istituto Italiano di Tecnologia

Phone: +39 010 71781 416 - Fax: +39 010 7170817

http://www.rbcs.iit.it

and

LIRA-Lab University of Genova

Postdoc Position Available Florida International University, Miami FL

Postdoc Position Available

Florida International University, Miami FL

 

Florida International University is recognized as a Carnegie engaged university. Its colleges and schools offer more than 180 bachelor’s, master’s and doctoral programs in fields such as engineering, international relations, architecture, law and medicine. As one of South Florida’s anchor institutions, FIU is worlds ahead in its local and global engagement, finding solutions to the most challenging problems of our time. FIU emphasizes research as a major component of its mission and enrolls 48,000 students in two campus and three centers including FIU Downtown on Brickell and the Miami Beach Urban Studios. More than 160,000 alumni live and work in South Florida. FIU is a member of the Sun Belt Conference and has 400 student-athletes participating in 17 sports. In 2010 the Panthers won their first bowl game. For more information about FIU, visit http://www.fiu.edu/.

 

A postdoctoral position is available in the laboratory of Dr. Jorge Riera, i.e. the Neuronal Mass Dynamics (NMD) Lab, Department of Biomedical Engineering at FIU (http://www.bme.fiu.edu). The selected candidate will be part of a multi-disciplinary effort to study the main physiopathological aspects underlying refractory epilepsy in type II Focal Cortical Dysplasia (FCD). The postdoctoral researcher will combine optogenetic/pharmacological manipulations and four recording techniques to study the neuro- vascular/metabolic coupling mechanisms and microcircuit working principles at the degenerated (i.e. the core) and adjacent “edematous” regions of this type of brain lesion using a rat’s model of type II FCD. The main recording techniques will be intracranial potentials obtained with MEA, large-scale EEG data, laser Doppler flowmetry and O₂/NO amperometric measurements. He/she will investigate pathways for inflammatory signaling, as well as mechanisms for seizure-induced tissue damages and cellular reactivity in this type of lesion. The postdoctoral researcher will interact extensively with biomedical engineers (e.g. Dr. Wei-Chiang Lin @FIU), neuroscientists (e.g. Dr. Tara Stewart at Miami Children Hospital), industrial partners and students.

The candidates must be able to demonstrate excellent communication skills and the ability to work as part of a team. The position is for two years, renewable on a yearly basis. This work will require experimental design for physiological measurements and extensive analysis of data. A PhD or comparable advanced degree in Neuroscience, Biomedical Engineering, Physics or related fields is required. Applicants must have a strong background in neuroscience. Prior experience of working with biophysical models and/or in computational neurosciences is highly desirable. Applicants must be comfortable programming in MATLAB (desirable) or C++.

The NMD lab is focused on: i) developing biophysical models to interpret and fuse different modalities of brain imaging, ii) using them to study complex problems associated with neurological disorders in pre-clinical trials, and iii) finally transferring technologies resulting from these studies to biomedical industry and clinical practice. The Biomedical Engineering Department at Florida International University is leading the state in biomedical engineering education. It is endowed by generous support from the Wallace H. Coulter Foundation, the Ware Foundation and the State of Florida. Many faculty in the department work closely with researchers in the Brain Institute at the Miami Children’s Hospital, CATE Institute for neuroscience research and many biomedical companies in South Florida. Applications must be submitted via email to jrieradi@fiu.edu (deadline, December 1^st) along with the following documents (CV, three references, cover letter).

FIU is a member of the State University System of Florida and is an Equal Opportunity, Equal Access Affirmative Action Employer.

Jorge Riera, PhD

Associate Professor

Director, Neuronal Mass Dynamics Lab.

Dept. Biomedical Engineering

Florida International University

Email: jrieradi@fiu.edu

Phone: 305 348-4948

http://www.bme.fiu.edu/

Six assistant professor positions at cluster of excellence "Hearing4all", Oldenburg, Germany

The Faculties of Mathematics and Sciences and of Medicine and Health Sciences of the University of Oldenburg are seeking to fill as soon as possible the following positions within the cluster of excellence „Hearing4all“ (www.hearing4all.de)

A)        Assistant professorship (W1) „Neurobiology of Hearing“ (TG 1)

with the research areas auditory neurophysiology and animal psychoacoustics

B)        Assistant professorship (W1) „Analysis and Modelling of the Auditory System“ (TG 1&3)

with the research areas psychoacoustics, functional imaging of the auditory system and auditory modeling

C)        Assistant professorship (W1) „Psychophysiology of Hearing“ (TG 2&7)

with the research areas objective auditory diagnostics and auditory signal processing

D)        Assistant professorship (W1) „Rehabilitative Audio Signal Processing“ (TG 4)

with the research areas audio signal processing, acoustics, audiology, psychoacoustics, hearing aid technology   

E)        Assistant professorship  (W1) „Assistive Audio Technology“ (TG 6)

with the research areas machine listening, audio & speech signal processing, man-machine interaction, evaluation of audio technology

F)        Assistant professorship (W1) „Methods in Neurocognitive Psychology“ (TG 7)

with the research areas brain-computer interfaces, neurocognition, cognitive psychophysiology,

The successful candidates are expected to actively contribute to the cluster of excellence “Hearing4all” and to the further structured research programmes within the Centre of Excellence for Hearing Research, i.e., the collaborative research centre “The Active Auditory System” (SFB/TRR31), the Research Unit “Individualized Hearing Acoustics”, the national centre of competence for hearing technology (HörTech) and the PhD Program “Function and Pathophysiology of the Auditory System”. They are also expected to contribute to the core teaching program of the respective contributing disciplines (Medical Physics and Acoustics, Psychology, Neuroscience).

A successful candidate is expected to have an academic university degree, possess pedagogic skills, be able to independently perform excellent scientific work usually demonstrated by international publications, and should be experienced in at least one of the respective research areas listed above. She/he should be qualified for heading a junior research group and assuming an important research function within the task groups (TG) of the cluster of excellence (c.f., www.hearing4all.de). Please indicate in your application for which position(s) you apply. Additional conditions for employment according to law (NHG §30) apply.

The position is available from 1 November 2012, for initially 3 years, with prospect for continuation for 3 more years after successful evaluation. At the end of the total 6-year period a competitive tenure-track option for a W2 Professorship within the framework of the German regulations is provided. The tenure decision is based on an external evaluation and tenure can be given to 50% of the junior research group leaders.

The University of Oldenburg strives to increase the proportion of women in science, so we especially encourage female candidates to apply. Handicapped applicants will be given preference if equally qualified.

Please send your application at the latest by August 31st, 2012 to Prof. Dr. Dr. Birger Kollmeier, Carl von Ossietzky Universität Oldenburg, Fakultät V, Exzellenzcluster „Hearing4all“, 26111 Oldenburg (e-mail: Karin.Klink@uni-oldenburg.de). The application should include a CV, a list of publications, and copies of certificates for academic grades. It is planned to interview candidates in the beginning of October.

Full Professorship (W3) in Optophysiology and Neurophysiology at the University of Freiburg

The Faculty of Biology and the newly established Research Cluster "BrainLinks-BrainTools" (BLBT), funded by the Excellence Initiative of the German Federal and State Governments, at the University of Freiburg invite applications for a

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The applicant’s research should be in the area of systemic neurosciences and should focus on questions of neural networks and their activity dynamics in relation to neurotechnology and its applications. The application of modern neurobiological experimental techniques, in particular optogenetics and methods derived from it, is desired.
The tasks associated with the position include teaching biology students in the field of optophysiology and neurophysiology. Close interactions and cooperations with the neuroscience research centers and institutions of the university are expected.
For further information please visit the homepage of the Faculty of Biology at www.biologie.uni-freiburg.de and of the Cluster of Excellence „BrainLinks-BrainTools“ www.brainlinks-braintools.de.

The position requires a completed university education, including PhD and German habilitation or equivalent scientific accomplishments, and teaching experience.

The deadline for application is October 15, 2012. Complete applications along with all pertinent documents (exclusively in electronic form; e-mail: dekanat@biologie.uni-freiburg.de) should be addressed to the Dean of the Faculty of Biology, Schänzlestrasse 1, D-79104 Freiburg.

The University of Freiburg is an equal opportunity employer. Applications of women are strongly encouraged. Handicapped candidates with equivalent qualifications will be given preference.

Early stage Researcher Position available - University of Antwerp

Early Stage Researcher: NAMASEN is the acronym for an Initial Training Network (http://www.namasen.net), funded by the European Commission under the FP7 Marie-Curie PEOPLE programme. Its ultimate mission is to lay the foundation of a virtual scientific institute for the multi-disciplinary study of Neuroengineering and Network-Neurosciences that will train a new generation of scientists and professionals and that will contribute to Europe’s leading role in scientific innovation.

NAMASEN targets both technological and scientific priorities, such as the development of novel multi-electrode arrays and advanced interfaces that functionally interact with neurons and networks. NAMASEN investigates neuro-electronic hybrids as devices able to undergo a functional and anatomical reconfiguration, on the basis of the activity-dependent plasticity and rewiring properties of neurons, under some control by the experimenter.
Description

Within the NAMASEN ITN Network, a 2-years position is available at the Laboratory of Theoretical Neurobiology and Neuroengineering of the University of Antwerp (Belgium), at the level of Early Stage Researchers (prospective PhD researchers). As a part of the training experience, the researcher will be based in Antwerp but will spend exchanges abroad, during secondment periods within the european ITN network.

This position largely focuses on conducting mathematical modeling as well as experimental electrophysological studies on in vitro neuronal networks, growing and developing ex vivo on substrate arrays of microelectrodes (MEAs), investigating their spontaneous collective activity, their excitability dynamics over long-time scales, and their active reconfiguration by optogenetic tools.

The NAMASEN ITN Network offers a unique research environment where leading academics will integrate accepted applicants into their research teams, providing a top-notch structured training programme in Neuroelectronics, Neuroengineering, and Nanotechnologies. More information on the NAMASEN ITN Network and this job opening can be found at: http://www.namasen.net

Nr of positions available : 1
Research Fields: Neurosciences - Neurophysiology
Career Stage: Early stage researcher or 0-4 yrs (Post graduate)
Research Profile: First Stage Researcher (R1)

Benefits:
The Researchers will be appointed on a full-time temporary contacts, for a period of up to two years (ESRs) including a possible secondments at a different NAMASEN partner.
The Researcher will be a Marie Curie fellow and will profit from all Marie Curie benefits, including living, mobility, travel, and career exploratory allowances according to the Marie Curie Framework 7 requirements (http://ec.europa.eu/mariecurieactions).

Application procedure:

Applications MUST include an extended CV, a motivation letter, and names and addresses of three references. Material should be addressed electronically to Prof. Michele Giugliano, Department of Biomedical Sciences, University of Antwerpen, Born-Bunge Foundation, Universiteitsplein 1, B-2610 Wilrijk, Belgium, michele_AT_tnb.ua.ac.b, until November 15th, 2012 (mass-emails will be trashed). For informal inquiries please contact Michele Giugliano or visit the website http://www.tnb.ua.ac.be.

Two PhD positions in spike train analysis and neuronal network dynamics in Firenze

Two PhD positions at Istituto dei Sistemi Complessi -- Firenze (Italy)

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http://neuro.fi.isc.cnr.it/index.php?page=marie-curie-itn
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The Phd positions are offered within the Marie Curie Initial Training Network -
‘Neural Engineering Transformative Technologies’ (NETT) to work at the
Institute of Complex Systems (ISC), CNR, Florence, Italy

Applications are invited for the above posts to work with Dr
Alessandro Torcini and Dr Thomas Kreuz in the Computational
neuroscience group at ISC, Florence. This world leading group combines
theoretical investigations (e.g., on nontrivial collective phenomena
in neuronal populations) with practical applications (e.g., spike
train analysis).

The two positions are on nonlinear dynamics/complex systems with
application to neuroscience, the research lines will be

1. Emergence of collective dynamics in scale-free neuronal networks    (ESR14)

2. Measures of spike train synchrony    (ESR15)


Gross Salary per annum:  42,028 € (Living Allowance) plus 9,290 -
13,272 € (Mobility Allowance) depending on circumstances

Required titles:  MSc in Physics, Mathematics or Engineering
obtained between 1 september 2008 -- 1 september 2012

Applications: The applications should be prepared and send as detailed
on this webpage:

http://neuro.fi.isc.cnr.it/index.php?page=how-to-apply

Closing date for both positions: 14 September 2012

Both full-time posts are available from 01 January 2013 and
will be offered on a fixed-term contract for a period of 36 months.

Contact:  Dr Thomas Kreuz (thomas.kreuz@cnr.it) or Dr Alessandro Torcini
(alessandro.torcini@cnr.it)

More details here:   http://neuro.fi.isc.cnr.it/index.php?page=marie-curie-itn
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[Comp-neuro] PhD position on "Bidirectional and multimodal feedback in robotic rehabilitation for brain injured patients" at IIT

Fondazione Istituto Italiano di Tecnologia (IIT) together with the University of Genova has opened the call for the Doctoral Course on Life and Humanoid Technologies.

http://www.iit.it/en/openings/

phd-calls/1595-phd-school-in-life-and-humanoid-technologies.html

Ph.D. positions are available at the Robotics Brain and Cognitive sciences department <http://www.iit.it/en/

research/departments/robotics-brain-and-cognitive-sciences.html>

where neuroscience and robotics research is being merged to seek answers towards some of the long standing open problems in both fields. The research team at RBCS is composed of neuroscientists, engineers, psychologists, physicists working together to investigate brain functions, realize intelligent machines and advanced prosthesis.

In the robotic rehabilitation field, we invite applications/enquiries from PhD candidates interested in investigating how to enhance/augment the feedback for both human patient and the robotic system aiding rehabilitation of the patient.

Using a robotic haptic device and an augmented feedback instrumentation (such as a vibration system), the candidate will explore how to provide human patients with extra sources of sensory feedback that is synchronized with the motor intention in such a way as to promote the building of a sensory re-afference. Moreover the candidate will investigate if using subject’s electromyography (EMG) signal as biofeedback provided to the robot, can lead to an increase in the patient-robot interaction and hence can accelerate human motor learning. Merging the two aforementioned techniques, the candidate will also evaluate the combined effects of additional feedback and robot assistance based on biosignals, on restoration of upper limb functions.

Experiments will take place at IIT at Motor Learning and Rehabilitation Laboratory (Professor Pietro Morasso), Gaslini Hospital, the laboratory in INAIL of Volterra and the Human Sensorimotor Control Laboratory of the University of Minnesota (Professor Juergen Konczak).

Considering the interdisciplinary nature of the problem, the proposal is open for candidates from different disciplines computer science, control engineering and basic neuroscience. Programming skills such as Matlab/Simulink are required.

For further details concerning this research project, please contact:

Dr. Marianna Semprini (marianna.semprini@iit.it) and Dr. Valentina Squeri (valentina.squeri@iit.it)

For more information on administrative issues, please contact:

Ms. Anastasia Bruzzone (anastasia.bruzzone@iit.it) Tel. +39 010 71781472

To apply, follow the instructions indicated in the links, in short: a detailed CV, a research proposal, reference letters, and any other formal document concerning the degrees earned. Note that these documents are mandatory in order to consider valid the application.

DEADLINE is September 21, 2012 at noon (Italian time zone, strict deadline, no extension).

ONLINE APPLICATIONS only: http://servizionline.unige.it/
studenti/post-laurea/dottorato

Postdoctoral positions open at the Circuit Dynamics and Computation Lab in the Champalimaud Neuroscience Programme in Lisbon, Portugal

Applications for highly motivated and enthusiastic individuals are sought for two postdoctoral position openings in the Circuit Dynamics and Computation laboratory led by Alfonso Renart at the Champalimaud Neuroscience Programme, in Lisbon, Portugal. The lab is interested in identifying generic principles governing the dynamics of cortical circuits and the way in which they produce function

The work will take place in the context of a collaborative project "The mechanistic basis of working memory in prefrontal cortical circuits" funded by the Human Frontier Research Project which also involves the labs of Paul Chadderton (Imperial College London, London) and Sebastian Royer (Center for Functional Connectomics, Seoul, Korea). The overall goal of the project is to combine state of the art techniques for recording and manipulating neural activity during behavior and theoretical analysis, in order to establish the dynamical basis of memory traces holding information about external events. One of the positions will be for modeling/data-analysis and the other one for performing population recordings in awake-behaving mice.

The modeling/data-analysis position is targeted to the study of non-stationary memory traces. We would like to understand generic principles for producing time-varying patterns of activity in neuronal circuits, and to quantify the temporal evolution of activity from large populations of simultaneously recorded neurons. Experience in modeling of recurrent neural circuits and in machine learning techniques for extracting structure from high-dimensional data will be highly valued.

The experimental position is targeted to the recording and optical manipulation of population activity in the prefrontal cortex of awake behaving mice. Candidates with experience on in-vivo electrophysiology, ideally in awake behaving rodents, and/or optogenetics are encouraged to apply.

Interested candidates should send applications (cover letter, CV and contact information of references) to alfonso.renart@neuro.fchampalimaud.org. Openings are available immediately and applications will be accepted until the positions are filled.

The Champalimaud Neuroscience Programme (CNP) aims at establishing links between nervous system function of behavior. Our scientific goals are represented by the full intellectual scope of the scientists of the program. The CNP aspires to help scientists to reach their full creative potential and to promote collective achievements beyond those reachable by individual scientists or laboratory groups through cooperation and exchange but without sacrificing independence and diversity of thought. The institute is located at the beautiful waterfront of Lisbon, Portugal. Lisbon offers a sunny Atlantic-Mediterranean climate, affordable cost of living, and vibrant culture, with good public transportation, international schools and convenient housing options both within and outside the city center.

English is the official language of the institute.


--

Alfonso Renart, PhD

Champalimaud Centre for the Unknown
Av. Brasília s/n (Doca de Pedrouços)
1400-038 Lisboa, Portugal
http://neuro.fchampalimaud.org/

Postdoctoral Position

Dear All,

This is to let you know of a newly available postdoctoral position.

The project will investigate the acquisition of motor and cognitive skills using eye-movement behaviours. The work will involve the use of functional MRI to investigate cerebellar plasticity related to learning and cerebellar interactions with frontal lobe areas concerned with eye movements (some of the issues to be investigated are discussed in Ramnani (2006), Nature Reviews Neuroscience 7(7): 511-522). Behavioural work will investigate skill acquisition from childhood through to old age, and in elite athletes.

The project is funded by a BBSRC project grant. Equipment includes state-of-the-art eye tracking facilities, and a recently upgraded on-site, research-dedicated 3T Siemens Trio MRI scanner hosted by the Psychology Department at Royal Holloway (Surrey, 35 minutes to central London).

Candidates should hold a strong first degree and should hold (or should expect to be awarded) a PhD in a discipline relevant to the project by January 2013. A record of published research, experience with studying eye movements, familiarity with functional neuroanatomy and proven programming skills are essential. Familiarity with practical and statistical neuroimaging methods is desirable. Candidates should be willing to learn new research methods and to have a strong interest in pursuing a research career.

Please see the full advert here: http://www.pc.rhul.ac.uk/sites/NeuroscienceLab/?p=646 and please feel free to get in touch if you feel that I can help with more information.

Best wishes,

Narender

Narender Ramnani

Reader in Cognitive Neuroscience

Brain, Action and Cognition Laboratory

Department of Psychology

Royal Holloway University of London

Egham, Surrey TW20 0EX

Tel: 01784 443519 (Direct)

www.pc.rhul.ac.uk/sites/neurosciencelab

Twitter: @n_ramnani

British Neuroscience Association Council Member ( http://www.bna.org.uk )