Dylber Murtishi
About Dylber Murtishi
Dylber Murtishi is the Associate Director of Data Operations Supply Chain Digitization and Serialization at Bristol Myers Squibb, with a background in Electrical Engineering and extensive experience in android app development and supply chain digitization.
Company
Dylber Murtishi is currently an Associate Director at Bristol Myers Squibb, working in Data Operations for Supply Chain Digitization and Serialization. He plays a key role in the Global Supply Chain Digitization team, focusing on data management and serialized processes. His responsibilities include developing strategies that enhance decision-making capabilities within the supply chain.
Title
Dylber Murtishi holds the position of Associate Director - Data Operations Supply Chain Digitization, Serialization at Bristol Myers Squibb. His role involves managing and optimizing data operations to support the company's supply chain and serialization efforts.
Education and Expertise
Dylber Murtishi earned a Bachelor of Science in Electrical Engineering (BSEE) from the University of Connecticut, where he studied from 1992 to 1997. He has over five years of experience in android app development and possesses extensive skills in analytical problem-solving, communications, and team leadership.
Background
Before joining Bristol Myers Squibb, Dylber Murtishi worked at ASML as an Engineer for 23 years, from 1997 to 2020, in Wilton, Connecticut. His career trajectory demonstrates a strong foundation in engineering and data operations, combined with practical experience in supply chain digitization and serialization.
Supply Chain Digitization Initiatives
At Bristol Myers Squibb, Dylber Murtishi is part of the Global Supply Chain Digitization team. His work focuses on developing digitization strategies aimed at enabling faster and more effective decision-making within the supply chain. His dedication to quality workmanship and self-initiative supports his role in managing serialization data and enhancing the overall efficiency of supply chain processes.