http://cs.nyu.edu/cs/faculty/shasha/papers/wirelessprops.zip


Highest Priority:

* User-generated video aggregation over 5G through collaborative routing and
compression --
Use ad hoc 5G links to deliver video in a compressed and cooperative
way in order to enable the production of video from multiple angles
of a shared event.
Faculty: Yao Wang, Yong Liu
Filename: VidioAgg.pdf

* Three-Dimensional (3-D) 28 GHz Channel Modeling and Measurements for Urban Cellular Mobile Propagation -- Millimeter wave measurement campaign
Faculty: Ted Rappaport
Filename: 28ghzmeasurement.docx

* Millimeter Wave MAC Layer Design -- The project will study various MAC and network-layer design aspects of 5G mmW systems.  Particular focus will be on channelization, HARQ and control structure.  
Faculty: Sundeep Rangan, Shiv Panwar, Elza Erkip
Filename: mmWMACLayerDesign.docx

* Millimeter Wave Radiation and Biological Health effects on Humans --
develop new mmWave radiation guidelines based on measurement, analysis, and Emag simulation used in MRI
Faculty: Ted Rappaport, Dan Sodickson, Chris Collins
Filename: health.docx

* Stochastic Congestion Control Protocols for High End-to-End Throughput in Next Generation Cellular Networks -- 
design of new stochastic exploration based congestion control protocols for highly variable cellular channels that will be typical of millimeter waves.
Faculty: Lakshmi Subramanian, Shiv Panwar, Jay Chen
filename: stochasticcongestioncontrol.docx

* Spatial Channel Estimation and Tracking --
modeling and algorithms for estimating and tracking spatial structures of channels and the effect of spatial channel estimation on beamforming
Faculty: Sundeep Rangan, Elza Erkip, Dennis Shasha
Filename: spatialChanEst.docxf

* Wireless Propagation Database -- maintenance and development
of the database system to support the dissemination of wireless data.
Faculty: Dennis Shasha,  Ted Rappaport 
$25,000
Filename: propdb.docx

Second Highest Priority:

* Power Consumption of A/D Converters in Millimeter-Wave Systems
Faculty: Elza Erkip, Sundeep Rangan
This project will study in detail the power consumption for A/D converters and its impact on the link and system capacity for millimeter waves.
Filename: Power_Proposal_V2.docx


* Virtual Cellular Networks using Software Defined Radio Platforms -- very
interesting proposal having to do with picocells for rural connectivity
in developing regions. Not millimeter wave, but could open
up new markets.
Faculty: Prof. Subramanian, Prof. Shiv Panwar, Prof. Yaw Nyarko 
Filename:  virtualcellularnetwork.docx

* Propagation modeling for cellular networks -- proposal suggesting
a study of shadowing effects to see if the duration of shadow fading
can be realistically predicted.
Faculty: Shiv Panwar, Henry Bertoni, Sundeep Rangan and Ted Rappaport
Filename: propagationmodeling.docx

Third Priority

* Scalable Databases for Big Data Cellular Networks Analytics
-- scalable distributed database architectures for tracking packet flows. 
Faculty: Dennis Shasha, Sundeep Rangan, Shiv Panwar
Filename: cellularBigData.docx

* Antenna Design for Millimeter Wave Systems
-- channel discovery and antenna configuration
Faculty: Dennis Shasha, Sundeep Rangan
Filename: antenna.docx
