20250622_201243.jpg

=

Complexer impr … call it sighting

How can a sighting BE a ghost

=

list 10 influences of parietal on insula . GPT-4o mini

The parietal lobe and the insula are both critical regions of the brain that interact in various ways. Here are ten influences of the parietal lobe on the insula:

Sensory Integration: The parietal lobe processes sensory information from the body, which can influence the insula's role in integrating bodily sensations and emotional responses.

Spatial Awareness: The parietal lobe is involved in spatial awareness and navigation, which can affect how the insula processes spatial aspects of emotional experiences.

Attention: The parietal lobe plays a role in directing attention, which can modulate the insula's response to internal and external stimuli.

Body Representation: The parietal lobe contributes to the perception of body schema, influencing the insula's processing of bodily states and self-awareness.

Pain Perception: The parietal lobe's involvement in processing pain can affect how the insula interprets and responds to pain signals.

Emotional Processing: The parietal lobe can influence the insula's role in emotional awareness and the subjective experience of emotions.

Language Processing: Areas of the parietal lobe involved in language can impact the insula's functions related to emotional and social communication.

Motor Control: The parietal lobe's role in planning and executing movements can influence the insula's processing of the emotional significance of actions.

Visceral Sensation: The parietal lobe's integration of sensory information can affect how the insula interprets visceral sensations, contributing to emotional and physiological responses.

Cognitive Functions: Higher cognitive functions, such as decision-making and problem-solving in the parietal lobe, can influence the insula's role in evaluating risks and rewards associated with emotional experiences.

These influences highlight the interconnectedness of brain regions and their collaborative roles in processing sensory, emotional, and cognitive information.

which has the most enduring representations, parietal or insula? . GPT-4o mini

The insula is generally considered to have more enduring representations compared to the parietal lobe. Here’s why:

Emotional and Interoceptive Processing: The insula is crucial for processing emotions and interoceptive signals (awareness of internal bodily states). These representations can be long-lasting, as they are tied to emotional memories and bodily experiences.

Integration of Bodily States: The insula integrates sensory information related to the body's internal state, which can create enduring representations of how certain emotions or experiences feel physically.

Role in Self-Awareness: The insula contributes to self-awareness and the sense of self, which are often stable over time and can influence long-term emotional and cognitive processes.

Chronic Pain and Conditions: The insula is involved in the perception of chronic pain and other long-term conditions, leading to enduring representations of these experiences.

In contrast, while the parietal lobe is essential for processing sensory information and spatial awareness, its representations are often more context-dependent and can change based on new sensory inputs or experiences. Thus, the insula's role in emotional and bodily awareness tends to create more stable and enduring representations.

if one has eg. 10 actions with associated and ordered 1 to 10 rewards, where is such ordering stored? . GPT-4o mini

The ordering of actions and their associated rewards is primarily stored in several interconnected brain regions, each contributing to different aspects of decision-making, learning, and memory. Here are the key areas involved:

Prefrontal Cortex (PFC): The PFC is crucial for higher-order cognitive functions, including planning, decision-making, and the evaluation of rewards. It helps in maintaining the order of actions and their associated rewards in working memory.

[Functions less well]

Striatum: This region, part of the basal ganglia, plays a significant role in reward processing and reinforcement learning. It helps encode the value of actions based on past experiences and rewards, contributing to the ordering of actions based on their expected outcomes.

[Normally based on hip, birds!]

Hippocampus: The hippocampus is essential for forming and retrieving memories, including the contextual and temporal aspects of actions and rewards. It helps in storing the sequence of actions and their associated rewards over time.

[Danage]

Insula: The insula is involved in interoceptive awareness and emotional processing, which can influence how rewards are perceived and prioritized, affecting the ordering of actions based on their emotional significance.

[Direct target paruetal]

… theory is vis to ghost ided

Amygdala: This region is involved in emotional learning and memory, particularly in associating actions with emotional responses. It can influence the ordering of actions based on the emotional weight of the associated rewards.

?

Cerebellum: While primarily known for its role in motor control, the cerebellum also contributes to learning and timing, which can be relevant in the sequencing of actions and rewards.

?

In summary, the ordering of actions and their associated rewards is stored and processed across multiple brain regions, with the prefrontal cortex and striatum playing particularly significant roles in decision-making and reward evaluation.

=== eof