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A Model of Optimal Software Patent Policy Design

A Model of Optimal Software Patent Policy Design. Professor Matt Thatcher. Trade Secret Laws. Uniform Trade Secrets Act (UTSA) gives right to companies to keep certain information secret (to maintain competitive edge) covers formulas, patterns, programs, devices, methods, processes

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A Model of Optimal Software Patent Policy Design

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  1. A Model of OptimalSoftware Patent Policy Design Professor Matt Thatcher

  2. Trade Secret Laws • Uniform Trade Secrets Act (UTSA) • gives right to companies to keep certain information secret (to maintain competitive edge) • covers formulas, patterns, programs, devices, methods, processes • Must have the following characteristics: • be novel • represent economic benefit to firm • involved some cost and effort to develop • is generally unknown to the public • company must show effort to keep the information secret

  3. Trade Secret Laws (cont.) • Problems: • Software often must be put into the public realm, making it difficult to keep secret (and generally unknown to the public) • does not protect from independent discovery • Economic Espionage Act (1996) • penalties: up to $10 million and 15 years prison for theft of trade secrets • IP lost in industrial espionage  > $300 bill / year

  4. Trade Secret Laws (cont.) • How do you show you are keeping information secret? • identify all information to be protected • label it confidential • educate employees of importance of trade secrets • make only accessible to limited # of people on a need-to-know basis • develop non-disclosure agreements • develop non-compete clauses • Compuserv v. IBM (2005) • technology protections • firewalls, encryption, secure databases, etc.

  5. Why Do Firms Patent Software? Number of Software Patents Issued Per Year [Bessen and Hunt (2004)]

  6. Improvement to the Basic Product Patent Width (w = h - ) Patent Height (h) Allowable Imitation () Basic Product (s = 0) Patent Height: Protection from improvements Patent Width: Protection from imitation Patent Length: Duration of protection

  7. Patent Laws • Requires that innovation under review must be: • new, useful, and non-obvious to a person of ordinary skill in the relevant field • Once awarded, a patent provides patent-holder: • scope of protection from imitation for 20 years • protects functions/behaviors of the program • protects from independent discovery • Cannot patent • abstract ideas, laws of nature, scientific principles

  8. Patent Laws (cont.) • U.S. Patent and Trademark Office (USPTO) • patent examiners (~3000) search for prior art • existing body of knowledge that is available to a person of ordinary skill in the art • what is the problem with this in the software arena? • determine originality and novelty • ~ 25 month application process • details about patented innovations are placed in the public domain • No limit to monetary penalty

  9. Debating Patent Policy Design • Why reform the U.S. patent system? • Samuelson (2004) • What is wrong with software patent quality? • patent height is too low! • patent width is too wide! • patent length is too long! • Economic perspective • National Academies(2004) • Federal Trade Commission(2003)

  10. Research Questions • What is the target of feasible patent policy designs? • Which policy designs in the target • are good/bad for society? • are good/bad for consumers? • Which policy design is socially optimal? • How do changes to an established policy design affect social welfare? That is, what happens if the authority • increases height? • narrows width? • shortens length? • Should software products be patentable at all?

  11. Model of Duopoly Competition(R&D Race / Product Improvements / Price) • Pre-game • posit a basic, well-known software product • where quality of basic product is normalized to zero • Free Market Competition (No Patent Model) • Stage 1: two firms compete in R&D to develop a novel idea • Stage 2: the innovator (n) transforms a novel idea into an improvement (sn > 0) to the basic product at substantial fixed cost, C(sn)=ksn2 /2 • Stage 3: the imitator (m) observes the innovator’s product improvement and decides to what extent it will imitate at zero fixed cost, sm [0,sn] • Stage 4: the firms simultaneously set prices and offer products, where MC(sn) = MC(sm) = 0

  12. Vertically Differentiated Demands (Stage 4) • Individual’s utility function: • Individuals’ purchase decisions: • Solving for product demands:

  13. Graphical Representation of Demand (Stage 4)

  14. Graphical Representation of Demand(Stage 4)

  15. Solving for Prices (Stage 4) • Firms’ profit functions: • Profit functions (given quality levels) are concave in prices: • First Order Conditions (F.O.C.s): • Solving the F.O.C.s gives:

  16. Performance Measures (Stage 4) • Firms’ profit functions (after substitution): • Consumer surplus function: • Social welfare function:

  17. Solving for Imitator Quality(Stage 3) • Imitator profit function: • Profit function is concave in quality: • F.O.C.: • Solving the F.O.C. gives the imitator’s best response function:

  18. Solving for Innovator Quality(Stage 2) • Innovator’s profit function is concave in quality: • F.O.C.: • Solving the F.O.C. gives the free market outcome (MO) values:

  19. The Patent Model • Patent policy is set before the game begins: • patent height (h) • patent imitation level () • patent length (t) where 0 <  < h and t [0,1] • Which policies give the innovator profit incentive to seek a patent?

  20. Conclusions • The POR is the target of feasible patent policy designs • Impact of changes to established policy design on social welfare •  patent length   social welfare • but contracts the POR and eliminates good policy options •  patent width   social welfare •  patent height   social welfare if patent is long and high • Optimal patent policy design • max length and set height/width to intermediate levels • if length is short  set the highest, widest policy in the POR • reduces R&D incentives to discover a novel idea • Is policy too low, too wide, and too long? • it depends!!!! • many factors may prevent the policymaker from identifying the POR or hitting a good

  21. Questions?

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