Abstract
This paper is concerned with optimal strategies for drilling in an oil exploration model. An exploration area contains n1 large and n2 small oilfields, where n1 and n2 are unknown, and represented by a two‐dimensional prior distribution π. A single exploration well discovers at most one oilfield, and the discovery process is governed by some probabilistic law. Drilling a single well costs c, and the values of a large and small oilfield are v1 and v2 respectively, v1 > v2 > c > 0. At each time t = 1, 2, …, the operator is faced with the option of stopping drilling and retiring with no reward, or continuing drilling. In the event of drilling, the operator has to choose the number k, 0 ≤ k ≤ m (m fixed), of wells to be drilled. Rewards are additive and discounted geometrically. Based on the entire history of the process and potentially on future prospects, the operator seeks the optimal strategy for drilling that maximizes the total expected return over the infinite horizon. We show that when π≻π′ in monotone likelihood ratio, then the optimal expected return under prior π is greater than or equal to the optimal expected return under π′. Finally, special cases where explicit calculations can be done are presented.
Highlights
In this paper, we consider the problem of finding optimal strategies for drilling in Beale’s model of oil exploration, see Beale [2].Beale’s model assumes that a single area for oil exploration is available for drilling
A single exploration well discovers at most one oilfield, and the discovery process is governed by some probabilistic law
Beale’s model ensured that (i) the vector (s1, s2, f ), with s1 denoting the number of successes in discovering large oilfields, s2 the number of successes in discovering small oilfields, and f the total number of failures, is a sufficient statistics; (ii) the posterior distribution of the number of undiscovered oilfields can always be written in a product form M1(n1)M2(n2), with n1 representing the number of large oilfields and n2 the number of small oilfields
Summary
We consider the problem of finding optimal strategies for drilling in Beale’s model of oil exploration, see Beale [2]. Beale’s model assumes that a single area for oil exploration is available for drilling. This area is hypothesized to contain two types of oilfields, namely, large and small oilfields. The number of these oilfields is unknown and is represented by the vector π = π1, π2 = π1(0), π2(0) , . . where (π1(n1), π2(n2)) means that there are n1 large undiscovered oilfields with probability π1(n1) and n2 small undiscovered oilfields with probability π2(n2), with n1≥0 π1(n1) =.
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