Network design and optimization
Abstract
A computer-implemented method for selecting one or more providers having one or more specialties for a network available to members while satisfying one or more constraints, the method comprising: at a first computing device: receiving, from a second computing device separate and distinct from the first computer, a network provider request to select an optimized network of providers, the request including: a desired objective including at least one of provider cost minimization, provider average quality maximization and provider total volume maximization, one or more geographical designations, computing an optimized provider network of one or more selected providers including: applying a model that produces a non-optimized provider network of one or more providers having one or more specialties that satisfies the desired objective for the one or more geographical designations of the members without consideration of the availability in the geographical designation of one or more providers having one or more specialties, and applying a linear decomposition to the pre-optimized provider network to generate an optimized provider network; providing the optimized provider network to the second computing device.
Claims
exact text as granted — not AI-modifiedI/We claim:
1 . A computer-implemented method for selecting one or more providers having one or more specialties for a network available to members while satisfying one or more constraints, the method comprising:
at a first computing device:
receiving, from a second computing device separate and distinct from the first computer, a network provider request to select an optimized network of providers, the request including:
a desired objective including at least one of provider cost minimization, provider average quality maximization and provider total volume maximization,
one or more geographical designations,
computing an optimized provider network of one or more selected providers including:
applying a model that produces a non-optimized provider network of one or more providers having one or more specialties that satisfies the desired objective for the one or more geographical designations of the members without consideration of the availability in the geographical designation of one or more providers having one or more specialties, and
applying a linear decomposition to the pre-optimized provider network to generate an optimized provider network;
providing the optimized provider network to the second computing device.
2 . The method of claim 1 , wherein without consideration of the availability in the geographical designation of one or more providers having one or more specialties includes forgoing considering whether a ratio of total members in a particular geographical designation have access to a particular specialty is greater than a member coverage ratio threshold.
3 . The method of claim 2 , wherein without consideration of the availability in the geographical designation of one or more providers having one or more specialties includes forgoing considering whether a single member in each of the geographical designations will have access to each of the particular specialties;
4 . The method of claim 3 , wherein without consideration of the availability in the geographical designation of one or more providers having one or more specialties includes for each particular geographical designation, each particular provider and/or each particular provider specialty, forgoing considering whether all members in the particular geographical designation have access to the particular provider specialty offered by the particular provider;
5 . The method of claim 1 , wherein the average cost of the selected providers is less than a predetermined provider cost threshold.
6 . The method of claim 1 , wherein the average volume of the patients seen by the selected providers is greater than a predetermined provider volume threshold.
7 . The method of claim 1 , wherein the average quality of the selected providers is greater than a predetermined provider quality threshold.
8 . The method of claim 1 , wherein the linear decomposition is Benders decomposition.
9 . The method of claim 1 , wherein the model that produces a non-optimized provider network is
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wherein:
{tilde over (c)} is a vector of objective coefficients,
{tilde over (y)} is a vector of binary variables used to provide a non-optimized provider network,
y represents a feasible set for {tilde over (y)},
S represents a set of specialties,
{tilde over (Q)} s ({tilde over (y)}) is a recourse subproblem that represents the coverage ratio requirement for each specialty,
w zs is a vector of decision variables that determines if members located at one of the geographical designations have an access to specialty s considered in network,
W represents the feasible set for {tilde over (w)},
z is the one or more geographical designations.
10 . A system comprising:
one or more memory units each operable to store at least one program; and
at least one processor communicatively coupled to the one or more memory units, in which the at least one program, when executed by the at least one processor, causes the at least one processor to perform the steps of claims 1 - 9 .Cited by (0)
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