Using chains of bottleneck transitions to decompose and solve reinforcement learning tasks with hidden states

H. Aydin *Et Al.* , "Using chains of bottleneck transitions to decompose and solve reinforcement learning tasks with hidden states," *Future Generation Computer Systems* , vol.133, pp.153-168, 2022

Aydin, H. *Et Al.* 2022. Using chains of bottleneck transitions to decompose and solve reinforcement learning tasks with hidden states. *Future Generation Computer Systems* , *vol.133* , 153-168.

Aydin, H., Çilden, E., & Polat, F., (2022). Using chains of bottleneck transitions to decompose and solve reinforcement learning tasks with hidden states. *Future Generation Computer Systems* , vol.133, 153-168.

Aydin, HÜSEYİN, Erkin Çilden, And FARUK POLAT. "Using chains of bottleneck transitions to decompose and solve reinforcement learning tasks with hidden states," *Future Generation Computer Systems* , vol.133, 153-168, 2022

Aydin, HÜSEYİN *Et Al.* "Using chains of bottleneck transitions to decompose and solve reinforcement learning tasks with hidden states." *Future Generation Computer Systems* , vol.133, pp.153-168, 2022

Aydin, H. Çilden, E. And Polat, F. (2022) . "Using chains of bottleneck transitions to decompose and solve reinforcement learning tasks with hidden states." *Future Generation Computer Systems* , vol.133, pp.153-168.

@article{article, author={HÜSEYİN AYDIN *Et Al.* }, title={Using chains of bottleneck transitions to decompose and solve reinforcement learning tasks with hidden states}, journal={Future Generation Computer Systems}, year=2022, pages={153-168} }