Day 3 Key Sessions 8:30AM Unpacking Quantum For Innovation and Your Organization Leslie Shannon Head of Trend Scouting, Nokia
Quantum technology, while seemingly fu- turistic, is rapidly approaching mainstream adoption. This session demystifies the quan- tum landscape, providing a foundational understanding of its potential impact on
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Actionable Insights: This session provides attendees with: • An understanding of the current state of quantum technology. • Insights into the four key areas of quan- tum and their potential applications. • A deep dive into the promise of quantum sensing. • Strategies for preparing for the quantum era and incorporating quantum technolo- gies into their organizations. Join us to explore the fascinating world of quantum technology and discover how it can drive innovation and transform your organization.
innovation and business strategy. The Promise of Quantum Sensing:
Quantum sensing stands out as a particu- larly promising area with near-term applica- tions. These sensors can offer unprecedent- ed precision, enabling: • Early disease detection: Detecting min- ute changes in biological systems, leading to earlier and more accurate diagnoses. • Enhanced navigation: Developing highly accurate navigation systems that are not reliant on GPS. • Improved environmental monitoring: De- tecting pollutants and other environmen- tal changes with unprecedented accuracy. • Market Projections: The quantum sensing market is projected to reach $1.3 billion by 2028, with a CAGR of 13.4% (Source: Glob- al Market Insights, 2022).
Four Areas of Quantum
Quantum Computing Leveraging quantum phenomena to perform
Quantum Security Utilizing quantum
Quantum Networking Creating networks that rely on quantum phenomena to transmit information with unparalleled security and efficiency.
Quantum Sensing Harnessing the sensitivity of quantum systems to develop highly accurate sensors for applications in healthcare, environmental monitoring, and navigation.
mechanics to develop secure communication networks and protect sensitive data from increasingly sophisticated cyber threats.
complex calculations beyond the capabilities of classical computers. This holds the potential to revolutionize fields like drug discovery,
materials science, and artificial intelligence.
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