Neurobiology of decision making Flashcards
decisions as links between memory and future actions
- decision making is not an isolated process
- decisions link between past experiences that help guide future actions
- you need to activate your past experiences in memory to inform your decision
how does longterm memory influence decisions?
- experiences have been stored in your long-term memory system, so you access your long-term memory to make decisions
- You will use the information from long-term memory to form predictions about the outcome of your decision
what is the prediction-choice-outcome loop?
- We start out with a goal that we we’d like to achieve, that ultimately requires us to make a decision
- If there are many ways how to achieve this goal, we make predictions about the outcome of different options
- We then form a decision and make appropriate actions that should get us closer to our goal
- The result of these actions will be an action outcome that we observe
- This outcome will be subjected to internal monitoring processes where we evaluate, if our decision and the corresponding actions have actually achieved our goal (or at least brought us closer to it). If we haven’t reached our goal, our brain seems to generate a prediction error, i.e. a signal indicating how large the discrepancy is between what we had predicted originally and what the actual outcome was.
- The prediction error, can be used to update our memory based on the experience we have just made. This updated memory content can then be used to make more precise predictions the next time when we face the same or a similar choice.
what are the aims of decision making?
- avoid harm
- minimise time we spend of effortful tasks
- minimise the amount of effort
- avoid missed opportunities
- maximise reward
What are some factors to consider before making a decision?
- difficulty of the action
- probability of success and failure
- how valuable is the possible reward at this moment
- any missed opportunities
how can biases affect decision making?
one bias is to stick with the same option you have chosen before, or sticking with your default option
how have biases been shown in gambling?
- People show a tendency to choose certain gains over gambles (if the gambles means that you could also loose).
- Individuals also show a tendency to prefer gambles over certain losses (if the gamble means that you could potentially also win).
what is temporal discounting?
choosing immediate rewards over future rewards unless benefits are made explicit
what are the two levels of decision-making?
- simple decisions
- more complex decisions
simple perceptual decision task, Hanks & Summerfield (2017)
- Monkey sat infront of a screen and focuses on a fixation
- stimulus then appears on screen: random dots
- some of the dots move coherently in one direction and some dots move randomly
- of there is a higher % of coherently moving dots on one side of the screen it is assumed to be easier to process so this is where the monkey will focus
- tracked using eye movement trackers
- suggesting the we focus on simple perceptual things
accumulating evidence in perceptual decision, . Shadlen et al. (1996)
- When the stimulus, consisting of random-moving dots (and some coherently moving dots), is presented, neurons that are tuned to detect a specific motion direction will start to fire.
- Neurons in sensory brain areas are tuned to a preferred feature. For instance, some neurons respond most strongly to leftward moving stimuli while other neurons respond most strongly to upward moving stimuli, etc.
- The more dots are moving in a given direction coherently, the stronger these corresponding motion detector neurons will fire.
- The firing rate will increase as more evidence for a given motion direction is being accumulated.
- The more dots move coherently in one direction, the stronger the evidence for this direction.
- This would be reflected in the evidence accumulation curve being steeper and reaching the threshold faster.
what are the three stages of perceptual decision making?
- Detection of sensory evidence; What are the alternatives that can be detected (left/right, red/blue, etc.)?
- Integration of evidence over time, because evidence is noisy
- Checking if threshold has been reached, if so elicit appropriate action
where does evidence for accumulation take place?
- Brain areas responsible for encoding the relevant feature, e.g. area MT/V5 if motion is relevant for decision
- Parietal and dorsal prefrontal cortex
- Recent evidence: sensorimotor areas representing possible actions, accumulate evidence as well
Mental maps in decision-making
hypothesis:
- Decision making processes rely on internal models of the current task
- we have an internal representation stored in our memory that provides us with some guidance about the different options that are available in a choice situation
- The internal model helps us to predict the different outcomes of the available options based on our experiences
experiences need to be organized in internal models or mental maps
Rats experiencing a spatial maze, Experiments by Edward Tolman. Kaplan et al. (2017
- Tolman had rats experiencing a spatial maze. The shortest path to the goal was blocked so the rat had to go all the way round.
- If then the path was unblocked later, the rats quickly realized that they could take a shortcut and go directly from A to B to reach the goal faster.
- the rats seem to have positions A and B encoded as being close together in space, although they had never experienced going straight from A to B.
- means that the rats had encoded transitive relations of the different locations in the maze and had used this information to build a mental map of the maze
- This mental map informed their decision at the first intersection to go straight ahead instead of taking the path they had been trained on.
