Compartmental OED: Difference between revisions

Compartmental OED
State dimension:	1
Differential states:	12
Discrete control functions:	1

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Revision as of 13:41, 13 February 2026

The Compartmental OED problem looks for an optimal measurement strategy to determine a three parameters in a one-dimensional ODE model, where we can directly measure the single state. The following description is taken from [1].

Here we consider the open one-compartment model with first-order absorption input fitted by Button (unpublished Ph.D. thesis, Texas A&M University, 1979) to the results of an experiment in which six horses each received 15 mg/kg of theophylline as aminophylline by intragastric administration.

The optimal integer control functions shows bang bang behavior.

Mathematical formulation

For the three-dimensional parameter $p = (θ_{1}, θ_{2}, θ_{3})$ the original initial value problem is given by $\dot{y} (t) = : f (t, p) = θ_{3} \cdot (- θ_{1} \cdot \exp (- θ_{1} \cdot t) + θ_{2} \cdot \exp (- θ_{2} \cdot t)), y (0) = 0 .$

We assume both $x_{0}$ and $t_{f}$ to be fixed and are only interested in when to measure, with an upper bound $M$ on the measuring time. We can measure the state directly, i.e. $h (x (t)) = x (t)$ .

Now we formulate the OED problem:

$\begin{array}{lll} \min_{y, G, F, z, w} & trace (F^{- 1} (t_{f})) \\ subject to \\ \dot{y} (t) & = & f (t, p) \\ \dot{G} (t) & = & f_{p} (y (t), p) \\ \dot{F} (t) & = & w (t) (h_{y} (y (t)) G (t))^{T} (h_{y} (y (t)) G (t)) \\ \dot{z} (t) & = & w (t), \\ y (0) & = & y_{0} \\ G (0) & = & 0 \\ F (0) & = & 0, \\ z (0) & = & 0 \\ w (t) & \in & 𝒲 \\ z (t_{f}) & \leq & M \end{array}$

Parameters

These fixed values are used within the model:

$y_{0} = 0; t_{f} = 40; 𝒲 = [0, 1]; M = 5; p = (0.05884, 4.298, 21.80)$

Reference Solutions

Here is one local solution to the above control problem.

Reference solution plots
Sensitivities and measurement control for $θ = (0.05884, 4.298, 21.80)$ .

References

[1] Optimum Experimental Designs for Properties of a Compartmental Model, A. Atkinson, K. Chaloner, A. Herzberg, J. Juritz, https://www.jstor.org/stable/pdf/2532547.pdf

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-The '''Compartmental OED problem''' looks for an optimal measurement strategy to determine a three parameters in a three-dimensional [[:Category:ODE model|ODE model]], where we can directly measure the three states. The following description is taken from [[#compartmental| [1]]].
+The '''Compartmental OED problem''' looks for an optimal measurement strategy to determine a three parameters in a one-dimensional [[:Category:ODE model|ODE model]], where we can directly measure the single state. The following description is taken from [[#compartmental| [1]]].
 Here we consider the open one-compartment model with first-order absorption input fitted by Button (unpublished Ph.D. thesis, Texas A&M University, 1979) to the results of an experiment in which six horses each received 15 mg/kg of theophylline as aminophylline by intragastric administration.