https://www.inscribercproject.com/workshop//workshop_home.php
Production of Images and Language Notation is the first INSCRIBE Workshop. It will be a four-session event, spread across four consecutive days (12 - 15 January 2021) on Zoom. The Workshop will be open to everyone who is interested, free of charge.
To access the Workshop, you will need to REGISTER HERE.
Registering once will enable you to access any of the 4 sessions.
Session 1 - 12 January 2021 - Is Iconography a Springboard for Writing?
Session 2 - 13 January 2021 - The Dawn of Writing
Session 3 - 14 January 2021 - More Recent Inventions
Session 4 - 15 January 2021 - Iconic vs non-Iconic Signs
Production of Images and Language Notation is the first INSCRIBE Workshop. It will be a four-session event, spread across four consecutive days (12 - 15 January 2021) on Zoom. The Workshop will be open to everyone who is interested, free of charge.
To access the Workshop, you will need to REGISTER HERE.
Registering once will enable you to access any of the 4 sessions.
Session 1 - 12 January 2021 - Is Iconography a Springboard for Writing?
Session 2 - 13 January 2021 - The Dawn of Writing
Session 3 - 14 January 2021 - More Recent Inventions
Session 4 - 15 January 2021 - Iconic vs non-Iconic Signs
Steps to organizing your manunoscript
Prepare the figures and tables:
1- Write the Methods.
2- Write up the Results.
3- Write the Discussion. 4- Finalize the Results and Discussion before writing the introduction. This is because, if the discussion is insufficient, how can you objectively demonstrate the scientific significance of your work in the introduction?
5- Write a clear Conclusion.
6- Write a compelling introduction.
7- Write the Abstract.
8- Compose a concise and denoscriptive Title.
9- Select Keywords for indexing.
10- Write the Acknowledgements.
11- Write up the References.
[ Source ]
Prepare the figures and tables:
1- Write the Methods.
2- Write up the Results.
3- Write the Discussion. 4- Finalize the Results and Discussion before writing the introduction. This is because, if the discussion is insufficient, how can you objectively demonstrate the scientific significance of your work in the introduction?
5- Write a clear Conclusion.
6- Write a compelling introduction.
7- Write the Abstract.
8- Compose a concise and denoscriptive Title.
9- Select Keywords for indexing.
10- Write the Acknowledgements.
11- Write up the References.
[ Source ]
www.elsevier.com
11 steps to structuring a science paper editors will take seriously
Read the advice of a researcher sharing his tips on how to write a scientific paper. This does not represent Elsevier’s policy.
Forwarded from Complex Systems Studies
💰 New #postdoc position to develop novel models of large-scale brain dynamics, and use these to uncover brain activity causing OCD
https://t.co/TxtwlHYVyt
https://t.co/TxtwlHYVyt
Forwarded from Turing
Temporally distinct myeloid cell responses mediate damage and repair after cerebrovascular injury
http://feeds.nature.com/~r/neuro/rss/current/~3/QtFjK6EXgN4/s41593-020-00773-6
Nature Neuroscience, Published online: 18 January 2021; doi:10.1038/s41593-020-00773-6 (https://www.nature.com/articles/s41593-020-00773-6)This study shows how different myeloid cell types contribute to damage and repair following cerebrovascular injury, a pathology common to many central nervous system disorders, and offers new therapeutic opportunities to improve clinical outcomes.
http://feeds.nature.com/~r/neuro/rss/current/~3/QtFjK6EXgN4/s41593-020-00773-6
Nature Neuroscience, Published online: 18 January 2021; doi:10.1038/s41593-020-00773-6 (https://www.nature.com/articles/s41593-020-00773-6)This study shows how different myeloid cell types contribute to damage and repair following cerebrovascular injury, a pathology common to many central nervous system disorders, and offers new therapeutic opportunities to improve clinical outcomes.
PhD position "Whole brain dynamics underlying flexible decision making
in rodent" at Donders Centre for Neuroscience at Radboud University, the
Netherlands
We are looking for A PhD candidate for a collaborative project in the
groups of Liya Ma and Paul Tiesinga at the Donders Institute utilizing
approaches from both experimental and computational neuroscience. You
will study Reinforcement Learning (RL) processes in animal models using
experimental and computational approaches. The experiments will
establish a mathematical model for RL behaviour in mice, identify neural
correlates for value-related parameters in the model using in vivo
high-density electrophysiology, manipulate the neural correlates, and
measure corresponding changes in RL-guided behaviour. The overall aim of
the project is to investigate the neural mechanism by which value
signals guide decision making. This will inform state-of-the-art deep
learning approaches and shed light on novel interventions for
psychiatric diseases. Guided and supported by our supervisory team, you
will design and perform experiments in mice, analyse data, conduct
computational modelling, and prepare manunoscripts. You will also have the
opportunity to write grants, peer-review journal articles, and
contribute to teaching and event organization.
We ask
* A dedicated, reliable, detail-oriented, and well-organised team
player.
* Experience in animal behaviour preferred.
* Experience in electrophysiology preferred.
* Experience with MATLAB or Python preferred.
* Good communication and writing skills in English.
Please apply via the link in
https://www.academictransfer.com/nl/296962/phd-candidate-in-neuroinformatics/
before February 12th to receive full consideration.
Best regards,
Paul Tiesinga
in rodent" at Donders Centre for Neuroscience at Radboud University, the
Netherlands
We are looking for A PhD candidate for a collaborative project in the
groups of Liya Ma and Paul Tiesinga at the Donders Institute utilizing
approaches from both experimental and computational neuroscience. You
will study Reinforcement Learning (RL) processes in animal models using
experimental and computational approaches. The experiments will
establish a mathematical model for RL behaviour in mice, identify neural
correlates for value-related parameters in the model using in vivo
high-density electrophysiology, manipulate the neural correlates, and
measure corresponding changes in RL-guided behaviour. The overall aim of
the project is to investigate the neural mechanism by which value
signals guide decision making. This will inform state-of-the-art deep
learning approaches and shed light on novel interventions for
psychiatric diseases. Guided and supported by our supervisory team, you
will design and perform experiments in mice, analyse data, conduct
computational modelling, and prepare manunoscripts. You will also have the
opportunity to write grants, peer-review journal articles, and
contribute to teaching and event organization.
We ask
* A dedicated, reliable, detail-oriented, and well-organised team
player.
* Experience in animal behaviour preferred.
* Experience in electrophysiology preferred.
* Experience with MATLAB or Python preferred.
* Good communication and writing skills in English.
Please apply via the link in
https://www.academictransfer.com/nl/296962/phd-candidate-in-neuroinformatics/
before February 12th to receive full consideration.
Best regards,
Paul Tiesinga
AcademicTransfer
PhD Candidate in Neuroinformatics
A PhD candidate for a project which provides a great opportunity to gain expertise in both experimental and computational neuroscience. You will study Reinforcement Learning (RL) processes in animal models using experimental and computational...
Forwarded from Complex Systems Studies
Winter School "Ethics and Neuroscience" 2021
https://www.bccn-berlin.de/events-list/winter-school-ethics-and-neuroscience-2021.html
https://www.bccn-berlin.de/events-list/winter-school-ethics-and-neuroscience-2021.html
www.bccn-berlin.de
Winter School "Ethics of Neuroscience and AI" 2021 - BCCN
The 10th Winter School Ethics of Neuroscience and AI is taking place on March 8-12, 2021. It is organized by the BCCN Berlin/ICCN and the Berlin School of Mind and Brain. The event is tailored for MSc and PhD students, but covers a range of topics of potential…
Forwarded from Turing
Splicing Control of Pontocerebellar Development
https://www.cell.com/neuron/fulltext/S0896-6273(20)31003-5?rss=yes
In this issue of Neuron, Chai et al. (2021) analyze several families with neurodegeneration and marked pontocerebellar hypoplasia and microcephaly and identify recessive (bi-allelic) mutations in peptidyl-prolyl isomerase-like 1 (PPIL1) and pre-RNA-processing-17 (PPR17). PPIL1 patient mutation knockin mice develop neuronal apoptosis. Loss of either protein affects splicing predominantly involving GC-rich and short introns.
https://www.cell.com/neuron/fulltext/S0896-6273(20)31003-5?rss=yes
In this issue of Neuron, Chai et al. (2021) analyze several families with neurodegeneration and marked pontocerebellar hypoplasia and microcephaly and identify recessive (bi-allelic) mutations in peptidyl-prolyl isomerase-like 1 (PPIL1) and pre-RNA-processing-17 (PPR17). PPIL1 patient mutation knockin mice develop neuronal apoptosis. Loss of either protein affects splicing predominantly involving GC-rich and short introns.
Forwarded from Complex Systems Studies
💰 Interested in the brain, and you live outside Norway? Apply to one of 16 new #PhD positions opening in computational neuroscience, bioinformatics and AI at University of Oslo! Open until March 1st!
https://www.mn.uio.no/compsci/english/
https://www.mn.uio.no/compsci/english/
A new Army Research Office (ARO) undergraduate research apprenticeship program (URAP) position is available for the summer of 2021 at the Nathan Kline Institute for Psychiatric Research in Orangeburg, NY (https://www.nki.rfmh.org/). Research will be conducted under the mentorship of Samuel Neymotin, Haroon Anwar, and Salvador Dura-Bernal to help achieve the goals of an ARO grant (PI: Neymotin) that aims to train neocortical circuit models to play video games using biologically-plausible learning rules, and to compare the models? performance against commonly used deep reinforcement learning algorithms. Students will have the opportunity to learn cutting edge methods in computational neuroscience, machine learning, and Python software development, and potentially publish their results.
Candidates will be considered based on their experience in computational neuroscience, machine learning, and Python programming. Candidates must be located within commuting distance to Nathan Kline Institute during the apprenticeship period.
For consideration, please click the link to ?Apply Now? at https://www.usaeop.com/program/undergraduate-apprenticeships/
Make sure to use code U803 (Nathan Kline Institute) and apply by the deadline (March 15, 2021). Letters of recommendation are optional.
For questions, email Samuel.Neymotin@nki.rfmh.org<mailto:Samuel.Neymotin@nki.rfmh.org>
Candidates will be considered based on their experience in computational neuroscience, machine learning, and Python programming. Candidates must be located within commuting distance to Nathan Kline Institute during the apprenticeship period.
For consideration, please click the link to ?Apply Now? at https://www.usaeop.com/program/undergraduate-apprenticeships/
Make sure to use code U803 (Nathan Kline Institute) and apply by the deadline (March 15, 2021). Letters of recommendation are optional.
For questions, email Samuel.Neymotin@nki.rfmh.org<mailto:Samuel.Neymotin@nki.rfmh.org>
AEOP
Undergraduate Internships
Interested in pursuing a career in STEM? Want to take the next step in STEM education? As an intern, gain first-hand exposure to the cutting-edge research that's happening in top university labs and U.S. Army Research Laboratories and Centers. Work under…
Forwarded from Turing
Targeted photostimulation uncovers circuit motifs supporting short-term memory
http://feeds.nature.com/~r/neuro/rss/current/~3/QlUF12L3s1E/s41593-020-00776-3
Nature Neuroscience, Published online: 25 January 2021; doi:10.1038/s41593-020-00776-3 (https://www.nature.com/articles/s41593-020-00776-3)Two-photon photostimulation and imaging of a cortical short-term memory circuit reveal intercalated modules that can independently maintain memory. The modules are defined by connectivity between neurons with similar task-related tuning.
http://feeds.nature.com/~r/neuro/rss/current/~3/QlUF12L3s1E/s41593-020-00776-3
Nature Neuroscience, Published online: 25 January 2021; doi:10.1038/s41593-020-00776-3 (https://www.nature.com/articles/s41593-020-00776-3)Two-photon photostimulation and imaging of a cortical short-term memory circuit reveal intercalated modules that can independently maintain memory. The modules are defined by connectivity between neurons with similar task-related tuning.
Phase-Amplitude Coupling in Neuronal Oscillator Networks
Phase-amplitude coupling (PAC) describes the phenomenon where the power of a high-frequency oscillation evolves with the phase of a low-frequency one. We propose a model that explains the emergence of PAC in two commonly-accepted architectures in the brain, namely, a high-frequency neural oscillation driven by an external low-frequency input and two interacting local oscillations with distinct, locally-generated frequencies. We further propose an interconnection structure for brain regions and demonstrate that low-frequency phase synchrony can integrate high-frequency activities regulated by local PAC and control the direction of information flow across distant regions.
[ source ]
#paper
Follow: @theTuringMachine
Phase-amplitude coupling (PAC) describes the phenomenon where the power of a high-frequency oscillation evolves with the phase of a low-frequency one. We propose a model that explains the emergence of PAC in two commonly-accepted architectures in the brain, namely, a high-frequency neural oscillation driven by an external low-frequency input and two interacting local oscillations with distinct, locally-generated frequencies. We further propose an interconnection structure for brain regions and demonstrate that low-frequency phase synchrony can integrate high-frequency activities regulated by local PAC and control the direction of information flow across distant regions.
[ source ]
#paper
Follow: @theTuringMachine
Forwarded from Complex Systems Studies
Brain & Mind Computational Seminar
23.2.2021 11:30 – 12:45 (Tehran Time)
A monthly seminar and venue for informal conversation about topics such as artificial intelligence, neuroscience, human behaviour, and digital humanities. Welcome!
Speakers:
Luigi Acerbi
Probabilistic machine and biological learning under resource constraints
Yasser Roudi
https://www.aalto.fi/en/events/brain-mind-computational-seminar
23.2.2021 11:30 – 12:45 (Tehran Time)
A monthly seminar and venue for informal conversation about topics such as artificial intelligence, neuroscience, human behaviour, and digital humanities. Welcome!
Speakers:
Luigi Acerbi
Probabilistic machine and biological learning under resource constraints
Yasser Roudi
https://www.aalto.fi/en/events/brain-mind-computational-seminar