CTIS–QCQC' 25 Quantum Computing and Quantum Communication
CTIS’25 Workshop: Quantum Computing and Quantum Communication is conducted under the 3rd International Conference on Computer Technology and Information Science which will be held during May 27-29, 2025 in Ordos, China.
With the development of science and technology, mankind is standing at the forefront of science and technology, exploring more advanced computing and communication methods. In this process, quantum computing and quantum communication technologies stand out and are hailed as technological miracles in the field of future computing and communication. Quantum Computing is an emerging computational method that utilizes quantum qubit for computation, which is more efficient than traditional computing methods in certain problems. Quantum Communication is a new type of communication technology that utilizes the principles of quantum physics to achieve secure information transmission. In this special session, we will delve into the core concepts, algorithm principles, specific operational steps, mathematical models, as well as their application prospects and future development trends in these two fields. By studying these fields, this session aims to discover new research approaches, promote cooperation, and use quantum technology to address complex challenges.
Topics of interest for submission include, but are not limited to:
Quantum Qubits
Quantum Superposition
Quantum Entanglement
Quantum Algorithms
Quantum Computing Models
Quantum Computing Applications
Quantum Key Distribution
Quantum Transmission
Quantum Network
Quantum Information
CTIS–QCQC’25 Session Chair /Committee Member
Prof. Daowen Qiu
Sun Yat-sen University, China
Brief introduction:
Daowen Qiu, Doctor of Science, finished a postdoctoral follow from Tsinghua University in August 2002, and then was associated with Sun Yat-sen University under the "Hundred Talents Program" at the same year. He has been appointed as a full professor of computer science and a supervisor of the doctoral students since 2004. Also, he has engaged in research on quantum computing and quantum information for more than 20 years, and focuses on quantum computing models, quantum query algorithms, distributed quantum algorithms, (fuzzy, probabilistic, and quantum) automata and discrete event systems. His research integrates classical and quantum computational processing, aiming to achieve better physical realizability with essentially superior to classical computation as well. He has published more than 200 academic papers in academic journals and conferences and one academic monograph on quantum automata. Currently, he serves as an editorial board member of Theoretical Computer Science, an associate editor of Frontiers in Computer Science, and an editorial board member of Quantum Reports.
Speakers
Keynote speakers, invited speakers and oral presenters are most welcomed for this special session, and welcome your nominations or self-nominations!
