New files for other algorithms

This commit is contained in:
Eduardo Cueto Mendoza 2021-01-03 15:16:21 +00:00
parent 6d6b0a5186
commit 40bf4570af
3 changed files with 102 additions and 1 deletions

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@ -52,7 +52,7 @@ for b in bandits
println("Mean estimate: ", b.p_estimate) println("Mean estimate: ", b.p_estimate)
end end
println("Total reward eaarned: ", sum(rewards)) println("Total reward earned: ", sum(rewards))
println("Overall win rate: ", sum(rewards)/ num_trials) println("Overall win rate: ", sum(rewards)/ num_trials)
println("Number times explored: ", num_times_explored) println("Number times explored: ", num_times_explored)
println("Number times exploited: ", num_times_exploited) println("Number times exploited: ", num_times_exploited)

51
optimistic_starter.jl Normal file
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@ -0,0 +1,51 @@
using Random
using Plots
mutable struct Bandit
p::Number #the win rate
p_estimate::Number #How to estimate the win rate
N::Number #Number of samples
Bandit(p) = new(p,5,1)
end
function pull(ban::Bandit)
return convert(Int,rand() < ban.p)
end
function update(ban::Bandit, x::Number) #x is a sample number
ban.N += 1
ban.p_estimate = ((ban.N - 1) * ban.p_estimate + x) / ban.N
end
num_trials = 10000;
ϵ = 0.1;
bandit_probs = [0.2,0.5,0.75];
bandits = [Bandit(p) for p in bandit_probs];
rewards = zeros(num_trials);
num_times_explored = 0;
num_times_exploited = 0;
num_optimal = 0;
optimal_j = argmax([b.p for b in bandits]);
println("Optimal j: ", optimal_j);
for i in 1:num_trials
j = argmax([b.p_estimate for b in bandits])
x = pull(bandits[j])
rewards[i] = x
update(bandits[j],x)
end
for b in bandits
println("Mean estimate: ", b.p_estimate)
end
println("Total reward earned: ", sum(rewards))
println("Overall win rate: ", sum(rewards)/ num_trials)
println("Number of times selected each bandit ", [b.N for b in bandits])
cumulative_rewards = cumsum(rewards)
win_rates = cumulative_rewards ./ Array(1:num_trials)
plot(win_rates)
plot!(ones(num_trials) .* max(bandit_probs...))

50
ubc1.jl Normal file
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@ -0,0 +1,50 @@
using Random
using Plots
mutable struct Bandit
p::Number #the win rate
p_estimate::Number #How to estimate the win rate
N::Number #Number of samples
Bandit(p) = new(p,0,0)
end
function pull(ban::Bandit)
return convert(Int,rand() < ban.p)
end
function update(ban::Bandit, x::Number) #x is a sample number
ban.N += 1
ban.p_estimate = ((ban.N - 1) * ban.p_estimate + x) / ban.N
end
function ucb(mean::Number,n::Number,nⱼ::Number)
return mean + (2*log(n) / nⱼ)
end
num_trials = 100000;
ϵ = 0.1;
bandit_probs = [0.2,0.5,0.75];
bandits = [Bandit(p) for p in bandit_probs];
rewards = zeros(num_trials);
total_plays = 0;
optimal_j = argmax([b.p for b in bandits]);
for j in 1:size(bandits)[1]
x = pull(bandits[j])
total_plays += 1
update(bandits[j],x)
end
for i in 1:num_trials
j = argmax([ucb(b.p_estimate,total_plays,b.N) for b in bandits])
x = pull(bandits[j])
total_plays += 1
update(bandits[j],x)
rewards[i] = x
end
cumulative_average = cumsum(rewards) ./ Array(1:num_trials);
plot(cumulative_average,xaxis=:log)
plot!(ones(num_trials) .* max(bandit_probs...))