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Quantum communication simulator as a simulation tool for quantum communication experiment
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International Journal of Sensor Networks and Data Communications

ISSN: 2090-4886

Open Access

Quantum communication simulator as a simulation tool for quantum communication experiment


3rd International Conference and Business Expo on Wireless & Telecommunication

July 20-21, 2017 Munich, Germany

Zuriati Ahmad Zukarnain

Universiti Putra Malaysia, Malaysia

Keynote: Int J Sens Netw Data Commun

Abstract :

For decades now, researchers have been trying to figure out how we can use the enormous potential of quantum mechanics to build a whole new generation of computers. According to Microsoft's research lab, we could crack the quantum computing code within the next 10 years. Fortunately, both Google and Microsoft are extremely invested in the idea of quantum computers. They believe this quantum technology will be vast demand in near future. Quantum cryptography sets goal towards the holy grail of absolute security in the cryptography domain. However, lack of efficient simulation based on the performance analysis tools may cause delay in achieving the goal. On the other hand, the real quantum experiment and quantum communication require expensive components and inefficient. Hence, a powerful performance analysis tool with ease to handle will give benefit to all the researchers in the area of quantum communication. We are proposing an efficient simulation tool called as quantum communication simulator. Quantum communication simulator is a tailored simulation tool for quantum communication experiment that may give benefit to the theorist, experimental, hardware developers and also the end user. The quantum communication simulator should aim for both the performance oriented and also the cost oriented. The quantum communication simulator is based on drag and drop interfaces with a complement functions such as budget estimation, cost planning, online collaboration and inbuilt which align with quantum communication experimental models. Further, estimation of cost is also included to assist budgeting and decision making process. Modeling and performance analysis or testing the real quantum experiment is expensive due to the nature of optical components. In order to overcome this problem, a quantum communication simulator is needed to model and simulate the real quantum communication experiments. The motivation for this particular quantum communication simulator is the culmination of lead researcherâ??s respective fruitful researchers from digital security, high-speed network and quantum computation. Therefore, a quantum communication simulator is needed to model and simulate the real quantum experiment and quantum communication. The quantum communication simulator is a comprehensive design and analysis tool for quantum experiments to cover the gaps of deficiency of theoretical and experimental research. This simulator is a realistic simulation of transmitter, channel, receiver modules based on hybrid simulation techniques with the advantages of drag-drop interface. Thus, this simulator also add special versatile features such as online teaching, collaboration and market survey that end up with a complete solution package. The proposed quantum communication simulator is an added package/library which is based on the established open source and can give great benefits to the people to explore more quantum communication experiments. Furthermore this product will offer a good price to the society as an alternative paradigm for digital communication in providing security by laws of quantum mechanics that would be less expensive, more applicable and convenient.

Biography :

Zuriati Ahmad Zukarnain is an Associate Professor at Universiti Putra Malaysia, Malaysia. She is the Head of high performance computing section at Institute for Mathematics and Research (INSPEM). She received her PhD at University of Bradford, UK. Her research interests include: Efficient multiparty QKD protocol for classical network and cloud; load balancing in the wireless ad hoc network; quantum processor unit for quantum computer; authentication time of IEEE 802.15.4 with multiple-key protocol; intra-domain mobility handling scheme for wireless networks; efficiency and fairness for new AIMD algorithms and A Kernel model to improve the computation speedup and workload performance. She has published more than 100 papers in reputed journals and has been actively involved as a member of the editorial board for some international peer-reviewed and cited journals. She is currently undertaking some national funded projects on QKD protocol for cloud environment as well as routing and load balancing in the wireless ad hoc network.

E-mail: zuriati@upm.edu.my

 

Google Scholar citation report
Citations: 343

International Journal of Sensor Networks and Data Communications received 343 citations as per Google Scholar report

International Journal of Sensor Networks and Data Communications peer review process verified at publons

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