Although I know that SARSA is on-policy while Q-learning is off-policy, when looking at their formulas it's hard (to me) to see any difference between these two algorithms.

According to the book Reinforcement Learning: An Introduction (by Sutton and Barto). In the SARSA algorithm, given a policy, the corresponding action-value function Q (in the state s and action a, at timestep t), i.e. Q(s_{t}, a_{t}), can be updated as follows

Q(s

_{t}, a_{t}) = Q(s_{t}, a_{t}) + α*(r_{t}+ γ*Q(s_{t+1}, a_{t+1}) - Q(s_{t}, a_{t}))

On the other hand, the update step for the Q-learning algorithm is the following

Q(s

_{t}, a_{t}) = Q(s_{t}, a_{t}) + α*(r_{t}+ γ*max_{a}Q(s_{t+1}, a) - Q(s_{t}, a_{t}))

which can also be written as

Q(s

_{t}, a_{t}) = (1 - α) * Q(s_{t}, a_{t}) + α * (r_{t}+ γ*max_{a}Q(s_{t+1}, a))

where γ (gamma) is the discount factor and r_{t} is the reward received from the environment at timestep t.

Is the difference between these two algorithms the fact that SARSA only looks up the next policy value while Q-learning looks up the next *maximum* policy value?

**TLDR (and my own answer)**

Thanks to all those answering this question since I first asked it. I've made a github repo playing with Q-Learning and empirically understood what the difference is. It all amounts to how ** you select your next best action**, which from an algorithmic standpoint can be a

*mean*,

*max*or

*best*action depending on how you chose to implement it.

The other main difference is *when* this selection is happening (e.g., *online* vs *offline*) and how/why that affects learning. If you are reading this in 2019 and are more of a hands-on person, playing with a RL toy problem is probably the best way to understand the differences.

One last **important** note is that both Suton & Barto as well as Wikipedia often have *mixed, confusing* or *wrong* formulaic representations with regards to the *next state best/max action and reward*:

r(t+1)

is in fact

r(t)

Hope this helps anyone ever getting stuck at this.