diff --git a/docs/Project.toml b/docs/Project.toml
index b51530c9d0..a3139adfc5 100644
--- a/docs/Project.toml
+++ b/docs/Project.toml
@@ -5,6 +5,7 @@ BifurcationKit = "0f109fa4-8a5d-4b75-95aa-f515264e7665"
 CairoMakie = "13f3f980-e62b-5c42-98c6-ff1f3baf88f0"
 CommonSolve = "38540f10-b2f7-11e9-35d8-d573e4eb0ff2"
 ControlSystemsBase = "aaaaaaaa-a6ca-5380-bf3e-84a91bcd477e"
+ControlSystemsMTK = "687d7614-c7e5-45fc-bfc3-9ee385575c88"
 DataInterpolations = "82cc6244-b520-54b8-b5a6-8a565e85f1d0"
 DiffEqDevTools = "f3b72e0c-5b89-59e1-b016-84e28bfd966d"
 Distributions = "31c24e10-a181-5473-b8eb-7969acd0382f"
@@ -20,6 +21,8 @@ ModelingToolkit = "961ee093-0014-501f-94e3-6117800e7a78"
 ModelingToolkitStandardLibrary = "16a59e39-deab-5bd0-87e4-056b12336739"
 NonlinearSolve = "8913a72c-1f9b-4ce2-8d82-65094dcecaec"
 Optim = "429524aa-4258-5aef-a3af-852621145aeb"
+Optimization = "7f7a1694-90dd-40f0-9382-eb1efda571ba"
+OptimizationOptimJL = "36348300-93cb-4f02-beb5-3c3902f8871e"
 OrdinaryDiffEq = "1dea7af3-3e70-54e6-95c3-0bf5283fa5ed"
 Plots = "91a5bcdd-55d7-5caf-9e0b-520d859cae80"
 PreallocationTools = "d236fae5-4411-538c-8e31-a6e3d9e00b46"
diff --git a/docs/src/examples/remake.md b/docs/src/examples/remake.md
index b42315304e..9d40a83dbf 100644
--- a/docs/src/examples/remake.md
+++ b/docs/src/examples/remake.md
@@ -1,7 +1,3 @@
-```@meta
-Draft = true
-```
-
 # Optimizing through an ODE solve and re-creating MTK Problems
 
 Solving an ODE as part of an `OptimizationProblem`'s loss function is a common scenario.
diff --git a/docs/src/tutorials/disturbance_modeling.md b/docs/src/tutorials/disturbance_modeling.md
index e4b980a707..8d3baba265 100644
--- a/docs/src/tutorials/disturbance_modeling.md
+++ b/docs/src/tutorials/disturbance_modeling.md
@@ -1,7 +1,3 @@
-```@meta
-Draft = true
-```
-
 # Disturbance and input modeling modeling
 
 Disturbances are often seen as external factors that influence a system. Modeling and simulation of such external influences is common in order to ensure that the plant and or control system can adequately handle or suppress these disturbances. Disturbance modeling is also integral to the problem of state estimation, indeed, modeling how disturbances affect the evolution of the state of the system is crucial in order to accurately estimate this state.
diff --git a/docs/src/tutorials/optimization.md b/docs/src/tutorials/optimization.md
index 89237e01e6..c248dc527b 100644
--- a/docs/src/tutorials/optimization.md
+++ b/docs/src/tutorials/optimization.md
@@ -1,7 +1,3 @@
-```@meta
-Draft = true
-```
-
 # Modeling Optimization Problems
 
 ModelingToolkit.jl is not only useful for generating initial value problems (`ODEProblem`).