Company Filing History:
Years Active: 2020
Title: Will Salisbury: Innovator in Contextual Search for Location Services
Introduction
Will Salisbury is an accomplished inventor based in San Francisco, CA. He has made significant contributions to the field of location services through his innovative patent. His work focuses on enhancing travel coordination systems by improving the way geographic locations are identified and organized.
Latest Patents
Salisbury holds a patent for a system titled "Contextual search for location services." This invention identifies geographic locations that respond to a location search request. The system organizes these locations into various hierarchical geohash levels, each mapping the geographic location into a geohash of a different area. The search request designates a context, such as whether the user is looking for an origin or a destination for their trip. This context is crucial as it helps determine the appropriate geohash level for selecting candidate search results. Additionally, the candidate results can be scored based on the context, utilizing prior user selections and trips scheduled with the trip coordination system. The combination of geohash and context associated with the user's request allows for a refined scoring function of the candidate search results based on previous trips.
Career Highlights
Will Salisbury is currently employed at Uber Technologies, Inc., where he continues to develop innovative solutions in the realm of location services. His work at Uber has positioned him as a key player in enhancing user experiences through technology.
Collaborations
Salisbury collaborates with talented individuals such as Srihari Reddy and Paul Mahon, contributing to a dynamic team focused on advancing location-based technologies.
Conclusion
Will Salisbury's contributions to the field of contextual search for location services exemplify the impact of innovative thinking in technology. His patent and work at Uber Technologies, Inc. highlight his commitment to improving travel coordination systems.