2019 Â鶹´«Ã½AV CNS Workshop on Physical-Layer Methods for Security and Privacy in 5G and the IoT
Privacy
5G
IoT
Internet of Things
Security
The Â鶹´«Ã½AV Workshop on Physical-Layer Methods for Security and Privacy in 5G and the IoT will take place in conjunction with the 2019 Â鶹´«Ã½AV Conference on Communications and Network Security ( ) in Washington, D.C., USA, June 11,Ìý2019. We cordially invite you to submit previously unpublished contributions in security and privacy for 5G and the IoT based on physical-layer methods, including (but notÌýlimited to):
- Physical-layer methods for secrecy and privacy for 5G and the IoT
- Physical-layer security in co-located and distributed massive MIMO
- Secure transmission using physical layer characteristics at mmWave and THz frequencies
- Integration of physical-layer security into FD systems
- Secure orthogonal and non-orthogonal connectivity for massive numbers of devices
- Energy-efficient and low-overhead physical-layer secure transmission
- Physical layer security techniques for eMBB, mMTC, and URLLC applications
- Prototype, testbed, and performance evaluation of physical layer security and key generation
- Wireless, biometric, and physical unclonable functions (PUF)-based authentication
- Private information retrieval (PIR)
- Differential-privacy based schemes
- Anonymity and unlinkability
- Covert and stealth communications
The workshop features two keynotes given by world leading researchers in the field:
-
Sennur UlukusÌý (University of Maryland)
-
Trung Q. DuongÌý (Queen's University Belfast)
Submitted papers should be of sufficient length and detail for review by experts in the field. Papers should be submitted for review through EDAS. Final papers will be limited to
5 pages
in length in the standard Â鶹´«Ã½AV conference format. Accepted papers will beÌýpublished in Â鶹´«Ã½AV Xplore.Ìý
Important dates
Submission deadline:
Ìý
March 6, 2019
Acceptance notification:
April 7, 2019
For more information, please contact the workshop organizers:
Mario Goldenbaum
Rafael F. Schaefer
H. Vincent Poor