Q1) Time: 3:57
Can you speculate how many bits of information are required to locate your car (the old-fashioned bug) either by calculating or by intuition?
a) 8
b)* 3
c) 4
d) 16
Q2) Time: 5:25
Which response do you think has the most intrinsic capability of encoding a stimulus?
a) Top trace.
b) Middle trace.
c)* Bottom trace.
Q3) Time: 11:39
If the stimulus and response are independent events with their own probabilities, p(s) & p(r), what then is the probability of the response given the stimulus, p(r|s)?
a)* p(r)
b) p(s)
c) p(s|r)
d) None of these.
Q4) Time: 11:46
If p(r|s) = p(r), what value must MI take?
a) 1
b) 0.5
c) 0
d) More information is needed.
Q5) Time: What does the fact that H[R] - Σ_s P(s)*H[R|s] = H[S] - Σ_r P(r)*H[S|r] indicate about mutual information? a) It is dependent on stimulus and response b) It is symmetric between stimulus and response c) Both of these. d) None of these.
Explanations can be added as needed; more questions/modifications as well.
Q1) Time: 3:57
Can you speculate how many bits of information are required to locate your car (the old-fashioned bug) either by calculating or by intuition?
a) 8
b)* 3
c) 4
d) 16
Q2) Time: 5:25
Which response do you think has the most intrinsic capability of encoding a stimulus?
a) Top trace.
b) Middle trace.
c)* Bottom trace.
Q3) Time: 11:39
If the stimulus and response are independent events with their own probabilities, p(s) & p(r), what then is the probability of the response given the stimulus, p(r|s)?
a)* p(r)
b) p(s)
c) p(s|r)
d) None of these.
Q4) Time: 11:46
If p(r|s) = p(r), what value must MI take?
a) 1
b) 0.5
c) 0
d) More information is needed.
Q5) Time: What does the fact that H[R] - Σ_s P(s)*H[R|s] = H[S] - Σ_r P(r)*H[S|r] indicate about mutual information?
a) It is dependent on stimulus and response
b) It is symmetric between stimulus and response
c) Both of these.
d) None of these.
Explanations can be added as needed; more questions/modifications as well.