Humans
are
highly
social,
typically
without
this
ability
requiring
noticeable
efforts.
Yet,
such
social
fluency
poses
challenges
both
for
the
human
brain
to
compute
and
scientists
study.
Over
last
few
decades,
neuroscientific
research
in
sociality
has
witnessed
a
shift
focus
from
single-brain
analysis
complex
dynamics
occurring
across
several
brains,
posing
questions
about
what
these
mean
how
they
relate
multifaceted
behavioural
models.
We
propose
term
Relational
Neuroscience
collate
interdisciplinary
field
devoted
modelling
inter-brain
subserving
connections,
spanning
real-time
joint
experiences
long-term
bonds.
Hyperscanning,
i.e.,
simultaneously
measuring
activity
multiple
individuals,
proven
be
promising
technique
investigate
dynamics.
Here,
we
discuss
hyperscanning
can
help
within
of
Neuroscience,
considering
variety
subfields,
including
cooperative
interactions
dyads
groups,
empathy,
attachment
bonding,
developmental
neuroscience.
While
presenting
light
hyperscanning,
our
discussion
also
takes
into
account
behaviour,
physiology
endocrinology
properly
interpret
contexts.
consider
strengths
but
limitations
caveats
answer
interacting
brains.
The
aim
is
provide
an
integrative
framework
future
work
build
better
theories
contexts
subfields
model
sociality.
Neuroscience & Biobehavioral Reviews,
Год журнала:
2024,
Номер
169, С. 105979 - 105979
Опубликована: Дек. 13, 2024
Humans
are
highly
social,
typically
without
this
ability
requiring
noticeable
efforts.
Yet,
such
social
fluency
poses
challenges
both
for
the
human
brain
to
compute
and
scientists
study.
Over
last
few
decades,
neuroscientific
research
of
sociality
has
witnessed
a
shift
in
focus
from
single-brain
analysis
complex
dynamics
occurring
across
several
brains,
posing
questions
about
what
these
mean
how
they
relate
multifaceted
behavioural
models.
We
propose
term
'Relational
Neuroscience'
collate
interdisciplinary
field
devoted
modelling
inter-brain
subserving
connections,
spanning
real-time
joint
experiences
long-term
bonds.
Hyperscanning,
i.e.,
simultaneously
measuring
activity
multiple
individuals,
proven
be
promising
technique
investigate
dynamics.
Here,
we
discuss
hyperscanning
can
help
within
Relational
Neuroscience,
considering
variety
subfields,
including
cooperative
interactions
dyads
groups,
empathy,
attachment
bonding,
developmental
neuroscience.
While
presenting
Neuroscience
light
hyperscanning,
our
discussion
also
takes
into
account
behaviour,
physiology
endocrinology
properly
interpret
contexts.
consider
strengths
but
limitations
caveats
answer
interacting
people.
The
aim
is
provide
an
integrative
framework
future
work
build
better
theories
contexts
subfields
model
sociality.
Applied Psychology Health and Well-Being,
Год журнала:
2025,
Номер
17(1)
Опубликована: Фев. 2, 2025
Parent-adolescent
emotion
transmission
is
crucial
for
adolescents'
psychological
development.
Parental
negative
emotions
could
impair
parent-adolescent
interaction
and
relationships.
Brief
mindfulness
practices
(BMPs)
are
effective
improving
emotional
regulation
reducing
emotions.
However,
few
studies
explored
the
effects
of
BMP
on
transmission.
This
study
used
hyperscanning
technique
to
examine
differences
in
change
states,
cooperative
performance,
interbrain
synchrony
(IBS)
between
group
(20
dyads)
control
rest
(CR)
under
induced
parental
cooperation
tasks.
Results
showed
(1)
decreases
emotions,
hostility,
state
anxiety
after
BMP,
but
only
decreased
CR
rest;
(2)
an
increase
success
rate
no
(3)
IBS
delta
theta
bands
feedback
increases
failure
rest.
These
findings
suggest
that
may
mitigate
adolescents
promote
their
focused
attitude
toward
cooperation.
Abstract
Collective
decision
making
using
simple
social
interactions
has
been
studied
in
many
types
of
multiagent
systems,
including
robot
swarms
and
human
networks.
However,
existing
studies
have
rarely
modeled
the
neural
dynamics
that
underlie
sensorimotor
coordination
embodied
biological
agents.
In
this
study,
we
investigated
collective
decisions
resulted
from
among
agents
with
dynamics.
We
equipped
our
a
model
minimal
based
on
framework,
embedded
them
an
environment
stimulus
gradient.
single-agent
setup,
between
two
sources
depends
solely
agent’s
its
environment.
same
also
agents,
via
their
interactions.
Our
results
show
success
depended
balance
intra-agent,
interagent,
agent–environment
coupling,
use
these
to
identify
influences
environmental
factors
difficulty.
More
generally,
illustrate
how
behaviors
can
be
analyzed
terms
participating
This
contribute
ongoing
developments
neuro-AI
self-organized
systems.
NeuroImage,
Год журнала:
2025,
Номер
312, С. 121217 - 121217
Опубликована: Апрель 15, 2025
Young
children
with
autism
spectrum
disorder
(ASD)
traits
frequently
encounter
difficulties
in
peer
interaction.
Assessing
interaction
performance
is
crucial
but
challenging
within
the
clinical
diagnostic
paradigm
of
ASD.
Hyperscanning,
which
simultaneously
monitors
brain
activity
multiple
individuals,
has
become
a
popular
tool
for
assessing
social
interaction's
neural
features.
The
present
study
aims
to
investigate
brain-to-brain
connectivity
between
child-dyads
engaged
game-like
collaborative
task
via
hyperscanning
electroencephalogram
(EEG)
approach.
final
sample
comprised
66
young
children:
18
child
dyads
typical
development
(TD),
TD-TD,
and
15
ASD
matched
TD,
TD-ASD.
indicated
depressed
level
dyad
group
as
responder,
notable
decrease
observed
beta
oscillation
over
right
parietal
left
temporal
coupling
subjects.
A
pattern
that
differed
from
TD-TD
was
identified
regard
full-band
right-to-right
region.
It
exhibited
enhanced
following
completion
task,
not
case
TD-ASD
group.
Significant
correlations
were
scores
on
symptom
rating
scale
selected
significant
interbrain
index.
application
EEG
demonstrated
participating
autistic
an
attenuated
apparently
distinct
alteration
comparison
control
These
findings
highlight
value
physiologically
based
measures
informing
etiological
interventional
studies
neuropsychiatry.
Frontiers in Virtual Reality,
Год журнала:
2025,
Номер
6
Опубликована: Май 15, 2025
This
study
investigates
inter-brain
synchronization
during
a
collaborative
visual
search
task
performed
in
Virtual
Reality
(VR),
and
compares
it
to
the
same
executed
real-world
environment.
Previous
research
has
demonstrated
that
settings
leads
measurable
neural
synchrony,
as
captured
through
EEG
hyperscanning.
However,
limited
work
explored
whether
similar
dynamics
occur
immersive
VR.
In
this
study,
we
recorded
hyperscanning
data
from
participant
pairs
engaged
joint
task,
conducted
both
VR
physical
settings.
Our
results
reveal
occurred
condition
at
levels
comparable
real
world.
Furthermore,
greater
synchrony
was
positively
correlated
with
better
performance
across
conditions.
These
findings
demonstrate
is
viable
platform
for
studying
tasks,
support
its
use
future
team-based
neuroscience
simulated
environments.
