اسلایدهای درس «پایتون برای اقتصادسنجی در اقتصاد»

این اسلایدها مربوط به ارائه Fabian H. C. Raters در دانشگاه Goettingen است. مطالب به صورت خلاصه و مفید ارائه شده است. همچنین فایل های notebook و تمرین هایی برای خودآزمایی در سایت دوره موجود است.
اسلایدها در ضمیمه این پست قرار داده شده است.
سایت دوره

#اسلاید
#اقتصاد
#پایتون_مالی

@python4finance

https://www.nature.com/articles/s41593-020-00722-3
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ADNI: Understanding Alzheimer’s disease through collaboration and data sharing

Of the many outstanding mysteries of neuroscience, the pathogenic origins of
Alzheimer’s disease (AD) remain one of the most perplexing neurological
puzzles. An estimated 5.7 million Americans are presently afflicted with the
disease, which gradually

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“Synthesizing excitement: a new way your brain makes glutamate” by Samuel Rose

A recent report in Cell details a new way that the brain synthesizes
glutamate, originating from sun exposure, no less. The research raises the
question, do we really know how the brain makes one of

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https://www.internationalbrainlab.com/opportunities#jobs
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Ayahuasca: Ritual psychedelic turns modern-day anti-depressant

For any of the 300 million individuals worldwide suffering from depression, a
fast-acting, effective treatment can mean the difference between life and
death. Yet despite the growing number of pharmaceutical agents advertising
relief from sadness,

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How the brain learns to read: development of the “word form area”

The ability to recognize, process and interpret written language is a uniquely
human skill that is acquired with remarkable ease at a young age. But as
anyone who has attempted to learn a new language

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Tweaking synapses

Nature Reviews Neuroscience, Published online: 28 September 2020;
doi:10.1038/s41583-020-00389-6

Strengthening of the developing retinogeniculate circuit in mouse pups is
promoted by a neuronal receptor and locally restricted by the microglial
release of the receptor’s ligand.

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https://twitter.com/oritpeleg/status/1312074215571419137?s=20

APS March meeting is happening online this year (March 15-19), and we have a Focus Session alert!

Physics of Social Interactions: Work on interactions between organisms or on inanimate interactions that mimic social ones

Organized by @oritpeleg &
@greg_stephens
Please RT!

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Open science: Sharing is caring, but is privacy theft? by David Mehler and Kevin Weiner

Open Science (OS) is a movement toward increased sharing among scientists of
their data, their materials, their computer code, their papers, and their peer
reviews. The ultimate goal of this movement is to boost collaborative

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CALL FOR PAPERS

Reinforcement learning (RL) algorithms learn through rewards and a process of trial-and-error. This approach is strongly inspired by the study of animal behaviour and has led to outstanding achievements.

Link: Google Site

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Mapping gut neurons

Nature Reviews Neuroscience, Published online: 24 September 2020;
doi:10.1038/s41583-020-00386-9

Mapping gut neurons

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Fractional infinite-horizon optimal control problems with a feed forward neural network scheme

Volume 30, Issue 1-4, February - November 2019, Page 125-147
.

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Alternative continuous- and discrete-time neural networks for image restoration

Volume 30, Issue 1-4, February - November 2019, Page 107-124
.

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Retrospective Evaluation of Sequential Events and the Influence of Preference-Dependent Working Memory: A Computational Examination

Humans organize sequences of events into a single overall experience, and
evaluate the aggregated experience as a whole, such as a generally pleasant
dinner, movie, or trip. However, such evaluations are potentially
computationally taxing, and so our brains must employ heuristics (i.e.,
approximations). For example, the peak-end rule hypothesis suggests that we
average the peaks and end of a sequential event vs. integrating every moment.
However, there is no general model to test viable hypotheses quantitatively.
Here, we propose a general model and test among multiple specific ones, while
also examining the role of working memory. The models were tested with a novel
picture-rating task. We first compared averaging across entire sequences vs.
the peak-end heuristic. Correlation tests indicated that averaging prevailed,
with peak and end both still having significant prediction power. Given this,
we developed generalized order-dependent and relative-preference-dependent
models to subsume averaging, peak and end. The combined model improved the
prediction power. However, based on limitations of relative-
preference—including imposing a potentially arbitrary ranking among
preferences—we introduced an absolute-preference-dependent model, which
successfully explained the remembered utilities. Yet, because using all
experiences in a sequence requires too much memory as real-world settings
scale, we then tested “windowed” models, i.e., evaluation within a specified
window. The windowed (absolute) preference-dependent (WP) model explained the
empirical data with long sequences better than without windowing. However,
because fixed-windowed models harbor their own limitations—including an
inability to capture peak-event influences beyond a fixed window—we then
developed discounting models. With (absolute) preference-dependence added to
the discounting rate, the results showed that the discounting model reflected
the actual working memory of the participants, and that the preference-
dependent discounting (PD) model described different features from the WP
model. Taken together, we propose a combined WP-PD model as a means by which
people evaluate experiences, suggesting preference-dependent working-memory as
a significant factor underlying our evaluations.

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A Computational Model of the Cholinergic Modulation of CA1 Pyramidal Cell Activity

Dysfunction in cholinergic modulation has been linked to a variety of
cognitive disorders including Alzheimer's disease. The important role of this
neurotransmitter has been explored in a variety of experiments, yet many
questions remain unanswered about the contribution of cholinergic modulation
to healthy hippocampal function. To address this question, we have developed a
model of CA1 pyramidal neuron that takes into consideration muscarinic
receptor activation in response to changes in extracellular concentration of
acetylcholine and its effects on cellular excitability and downstream
intracellular calcium dynamics. This model incorporates a variety of molecular
agents to accurately simulate several processes heretofore ignored in
computational modeling of CA1 pyramidal neurons. These processes include the
inhibition of ionic channels by phospholipid depletion along with the release
of calcium from intracellular stores (i.e., the endoplasmic reticulum). This
paper describes the model and the methods used to calibrate its behavior to
match experimental results. The result of this work is a compartmental model
with calibrated mechanisms for simulating the intracellular calcium dynamics
of CA1 pyramidal cells with a focus on those related to release from calcium
stores in the endoplasmic reticulum. From this model we also make various
predictions for how the inhibitory and excitatory responses to cholinergic
modulation vary with agonist concentration. This model expands the
capabilities of CA1 pyramidal cell models through the explicit modeling of
molecular interactions involved in healthy cognitive function and disease.
Through this expanded model we come closer to simulating these diseases and
gaining the knowledge required to develop novel treatments.

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High-fidelity vibrokinetic stimulation induces sustained changes in intercortical coherence during a
cinematic experience

Objective. High-fidelity vibrokinetic (HFVK) technology is widely used to
enhance the immersiveness of audiovisual (AV) entertainment experiences.
However, despite evidence that HFVK technology does subjectively enhance AV
immersion, the underlying mechanism has not been clarified. Neurophysiological
studies could provide important evidence to illuminate this mechanism, thereby
benefiting HFVK stimulus design, and facilitating expansion of HFVK
technology. Approach. We conducted a between-subjects (VK, N = 11; Control, N
= 9) exploratory study to measure the effect of HFVK stimulation through an
HFVK seat on electroencephalographic cortical activity during an AV cinematic
experience. Subjective appreciation of the experience was assessed and
incorporated into statistical models exploring the effects of HFVK stimulation
across cortical brain areas. We separately analyzed alpha-band (8–12 Hz) and
theta-band (5–7 Hz) activities as indices of engagement ...

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Mindful brains, By Emma Twait and Tzipi Horowitz-Kraus

In the world with so much buzz around us, it can be difficult to unplug from
work and not think about the never-ending list of things to do. Stress
accumulates…. If you can relate to

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