*********************************
There is now a CONTENT FREEZE for Mercury while we switch to a new platform. It began on Friday, March 10 at 6pm and will end on Wednesday, March 15 at noon. No new content can be created during this time, but all material in the system as of the beginning of the freeze will be migrated to the new platform, including users and groups. Functionally the new site is identical to the old one. webteam@gatech.edu
*********************************
TITLE: Optimal Timing of Sequential Distribution: The Impact of Congestion Externalities and Day-and-Date Strategies
SPEAKER: Hyoduk Shin
ABSTRACT:
The window between a film’s theatrical and video releases has been steadily declining with some studios now testing day-and-date strategies (i.e., when a film is released across multiple channels at once). We present a model of consumer choice that examines trade-offs between substitutable products (theatrical and video forms), the possibility of purchasing both alternatives, and the timing of consumption; this permits a normative study of the impact of smaller release windows (0-3 months) for which there is a scarcity of relevant data. In this setting, we demonstrate that congestion externalities can drive consumers to smooth consumption over time such that their derived equilibrium behavior is consistent with empirical observations: an exponentially time decaying demand. Using this equilibrium characterization, we first study how day-and-date strategies impact consumption incentives and explore their optimality from a profit-maximizing perspective. We establish that day-and-date strategies are optimal for films with high content durability (i.e., films whose content tends to lead consumers to purchase both alternatives). Furthermore, in circumstances where content durability is low and congestion cannot be efficiently reduced, day-and-date strategies are optimal for hit films while a direct-to-video strategy is optimal for lower value films. Interestingly, even at lower levels of congestion, a studio can optimally use a day-and-date strategy for films with content durability within a medium-low range. Second, we characterize the optimal delayed release strategy as influenced by congestion, content durability, and movie quality. We find that the optimal release time is non-monotonic in content durability: within an intermediate range of content durability, the optimal release time first increases in durability, then decreases. We also illustrate that, for relatively low quality movies, an increase in quality should be accompanied by a later video release time. Surprisingly, however, we observe the opposite for relatively higher quality movies: an increase in the quality can justify an earlier release of the video.
(This is co-work with Terrence August.)
