This Article offers a historical, theoretical, and practical perspective on law as an information technology. Law fundamentally concerns information—providing information to the community about the content of legal norms and, at least in its common law form, eliciting information about the world from the disputes before a court. This Article first surveys law’s history as an information technology and shows how law is changed by the information technology of its day. It then applies information theory to understand how the computer—the key technology of our day— is changing how practitioners conduct legal search and thereby which forms of law are the most efficient. Information theory focuses on the signal to noise ratio of communication. The key to creating a better computerized legal search engine is to reduce the signal to noise ratio in the link between the user and the search engine. As this ratio decreases, this Article shows that legal search translates the uncompressed form of legal information into an algorithm for predicting what the law will be in a particular situation.
The ongoing improvement in legal search is transforming the optimal form of the law by changing the cost of finding it. It rebalances the weights in the classic debate between rules and standards. In particular, exponential increases in computational power make standards relatively more attractive than rules by decreasing the costs of their application. These same increases also allow us to embed information gathering processes within the law itself by creating what we call “dynamic rules.” Dynamic rules are rules that change automatically in response to changing empirical information. Legislatures are already beginning to enact such rules. Since this Article posits that legal standards and dynamic rules are likely to be important forms of legal rules in the coming era, this Article closes with a comparison of their relative costs and benefits.
John O. McGinnis and Steven Wasick,
66 Fla. L. Rev.
Available at: http://scholarship.law.ufl.edu/flr/vol66/iss3/2