2019 Proceeding- General Chairs:
- Ljiljana Simić,
- Parth Pathak
It is our great pleasure to welcome you to the 3rd ACM Workshop on Millimeter Wave Networks and Sensing Systems - mmNets 2019. The workshop focuses on the design and implementation of new millimeter wave protocols and networks. Its scope ranges from millimeter wave networks that can enable multi-Gbps wireless connectivity for 5G and WLANs to new millimeter wave sensing and imaging systems. The goal of the workshop is to identify and solve key challenges facing millimeter wave systems, bringing together participants from academia and industry under one umbrella to present their latest research and shape the future of this technology. Researchers working on millimeter wave systems, communications, networking, hardware design, and mobile applications will present innovative ideas that have the potential to grow to full-fledged millimeter wave solutions that realize the vision of extremely high data rate wireless connectivity and sensing.
Proceeding Downloads
On the Outage Probability of Millimeter Wave Links with Quasi-deterministic Propagation
Millimeter waves are emerging as a key technology for future wireless communication systems and networks. The low transmission power allowed by regulation requires high gain steerable antenna arrays to generate directional links that can support high ...
mmBAC: Location-aided mmWave Backhaul Management for UAV-based Aerial Cells
Mobile cells are seen as an enabler of more flexible and elastic services for next-generation wireless networks, making it possible to provide ad hoc coverage in failure scenarios and scale up the network capacity during peak traffic hours and temporary ...
A First Look at 802.11ad Performance on a Smartphone
We present the first, to our best knowledge, measurement study of 802.11ad on a commercial smartphone. We explore a number of different aspects including range and coverage, performance under various mobility patterns, and impact on power consumption. We ...
Learning Congestion State For mmWave Channels
Millimeter wave (commonly known as mmWave) is enabling the next generation of last-hop communications for mobile devices. But these technologies cannot reach their full potential because existing congestion control schemes at the transport layer perform ...
MillimeTera: Toward A Large-Scale Open-Source mmWave and Terahertz Experimental Testbed
- Michele Polese,
- Francesco Restuccia,
- Abhimanyu Gosain,
- Josep Jornet,
- Shubhendu Bhardwaj,
- Viduneth Ariyarathna,
- Soumyajit Mandal,
- Kai Zheng,
- Aditya Dhananjay,
- Marco Mezzavilla,
- James Buckwalter,
- Mark Rodwell,
- Xin Wang,
- Michele Zorzi,
- Arjuna Madanayake,
- Tommaso Melodia
The promise of widespread 5th generation (5G) and beyond wireless systems can only be fulfilled through extensive experimental campaigns aimed at validating the large body of theoretical findings on millimeter wave (mmWave) and Terahertz (THz) ...
Real-time Multi-Gigahertz Sub-Nyquist Spectrum Sensing System for mmWave
A real-time sub-Nyquist wideband spectrum sensing system for millimeter wave (mmWave) implemented on National Instruments mmWave software-defined radio system is presented. Based on compressed sensing theory and multicoset sampling architecture, the ...
28 GHz Channel Measurements in the COSMOS Testbed Deployment Area
- Tingjun Chen,
- Manav Kohli,
- Tianyi Dai,
- Angel Daniel Estigarribia,
- Dmitry Chizhik,
- Jinfeng Du,
- Rodolfo Feick,
- Reinaldo A. Valenzuela,
- Gil Zussman
Next generation wireless and mobile networks will utilize millimeter-wave (mmWave) communication to achieve significantly increased data rates. However, since mmWave radio signals experience high path loss, the operation of mmWave networks will require ...
mmSense: Multi-Person Detection and Identification via mmWave Sensing
In recent years, millimeter-wave (mmWave) is becoming a significant component of the next-generation wireless communication due to its up to 7 Gbps transmission rate. In addition to the communication benefits, the unique sensing feature of mmWave ...
RadHAR: Human Activity Recognition from Point Clouds Generated through a Millimeter-wave Radar
Accurate human activity recognition (HAR) is the key to enable emerging context-aware applications that require an understanding and identification of human behavior, e.g., monitoring disabled or elderly people who live alone. Traditionally, HAR has been ...