In Erikkson and colleagues review of Working Memory, they emphasize the importan
ID: 163985 • Letter: I
Question
In Erikkson and colleagues review of Working Memory, they emphasize the importance of a 'component process' approach to understanding WM. What do they mean by component process and what implications does this have for the neurological mechanisms involved? In your answer, you should also mention the role of persistent neural activity and fast synaptic plasticity that the authors stress.
Article---> http://www.sciencedirect.com/science/article/pii/S0896627315007771
**Answer the question in 2-3 pharagraphs please***
Explanation / Answer
Here in this context of "neurocognitive architechture" of working memory is searched with definite precision to see the kind of struggles that we face everyday, and through this laboratory study they have established an method of working memory carryout process. First to look after the complete consensus, and into this it has got all the components of working memory. Information maintenance from this is very critical and thus needed a neural pathway and solid signalling process. Selective attention process and perceptual obejct representations, this two helps to built and keep the process, related to Late Term Memory object representation. Finally retrieval phase (while contours) is crucial to complete the loop.
The whole nerulogical mechanism is thus a constructive process with its components and there is also manipulation process involves with working memory (WM). So here it is mainly described WM is a result of various components and this is not constant, it gets updated. WM could be the kind of representation (temporarily enhanced accessibility), regardless the verbal, visual, auditory types of representation. Also WM is limited in its capacity as 3-4 tasks, this contrasts Long term memory (LTM) with WM.
The prefrontal cortex (PFC) has been suggested for resilient information maintainance during WM tasks. Human nerurological studies also proved that. Parietal cortex also activates bilaterally and it works with PFC. Neuronal ativity also depends on the event-related potentials, and each representative components of WM have its own neuronal pathway to base the work. For example the contralateral delay activity is an activity involes the visualisation. Fast synaptic movement is also thus involving motor neuron to have a quick response with WM. It has got its peripheral and central nervous system joined together to work at a pace faster with synaptic plasticity. The more young the age, more there is quicikness in response we have seen.