University of Technology Sydney, Full-Time PhD scholarship
15411
Scholarship: This project includes funding for a living stipend scholarship at the rate of $28,092 per annum (tax-exempt). Fee waivers may be considered for the successful candidate.
Duration: 3 years (possible 6-month extension)
Requirements: Applicants must hold an undergraduate degree with at least a credit average (or equivalent) and have research experience through an Honours program (first class, or second class division one) or a Master's degree by research in a relevant subject.
This project aims to develop foundational technologies for an innovative perceptive mobile (cellular) communication network that is also capable of ubiquitous radio sensing. It is expected to generate groundbreaking theorems and algorithms that will significantly advance the knowledge of joint communication and sensing. The intended outcomes are an innovative large-scale sensing solution capable of real-time 3D-plus radio imaging of the world, and enhanced communications with improved quality and reliability. The technology will revolutionize traditional communication-only mobile networks. It will enable and boost expansive radio sensing applications in e.g. transportation, energy, agriculture, and security.
Students are expected to have a strong background on signal processing, information theory, and/or network techniques, and have a good knowledge on mobile communication networks and/or radar systems. Skills on Matlab programming are desired.
Contact: Ying He at 1point3acres.com with your CV and list of publications.
Duration: 3 years (possible 6-month extension)
Requirements: Applicants must hold an undergraduate degree with at least a credit average (or equivalent) and have research experience through an Honours program (first class, or second class division one) or a Master's degree by research in a relevant subject.
This project aims to develop foundational technologies for an innovative perceptive mobile (cellular) communication network that is also capable of ubiquitous radio sensing. It is expected to generate groundbreaking theorems and algorithms that will significantly advance the knowledge of joint communication and sensing. The intended outcomes are an innovative large-scale sensing solution capable of real-time 3D-plus radio imaging of the world, and enhanced communications with improved quality and reliability. The technology will revolutionize traditional communication-only mobile networks. It will enable and boost expansive radio sensing applications in e.g. transportation, energy, agriculture, and security.
Students are expected to have a strong background on signal processing, information theory, and/or network techniques, and have a good knowledge on mobile communication networks and/or radar systems. Skills on Matlab programming are desired.
Contact: Ying He at 1point3acres.com with your CV and list of publications.
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