Company Filing History:
Years Active: 2017-2019
Title: Innovations of Ali Sadighian
Introduction
Ali Sadighian is a prominent inventor based in Seattle, WA. He has made significant contributions to the field of inventory optimization and demand forecasting. With a total of 5 patents, his work focuses on enhancing the efficiency of inventory management systems.
Latest Patents
One of his latest patents is titled "Estimating an output based on robustness associated with multiple input variables." This invention describes techniques for determining the quantity of an item to inventory by accessing statistical data about variables associated with the item. The statistical data is generated based on historical realizations of these variables. The quantity is computed based on this data, allowing for the generation of regrets corresponding to inventorying various quantities of the item. The optimal quantity is determined from these regrets.
Another notable patent is "Inventory optimization based on leftover demand distribution function." This invention aims to determine the expected demand for an item by modeling the impact of demand between planning horizons. It includes estimating leftover demand to be fulfilled during the next planning horizon, which may be less than unfulfilled demand from the current planning horizon. This estimation is based on historical leftover demand and unfulfilled demand.
Career Highlights
Ali Sadighian is currently employed at Amazon Technologies, Inc., where he applies his expertise in inventory management and demand forecasting. His innovative approaches have contributed to the development of advanced systems that enhance operational efficiency.
Collaborations
Some of his notable coworkers include Deepak Bhatia and Chengliang Zhang, who collaborate with him on various projects within the company.
Conclusion
Ali Sadighian's contributions to inventory optimization and demand forecasting demonstrate his commitment to innovation in the field. His patents reflect a deep understanding of statistical analysis and its application in real-world scenarios.