Search Results - 5g+networks

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SEM-O-RAN: Semantic NextG O-RAN Slicing for Data-Driven Edge-Assisted Mobile Applications
SEM-O-RAN uses O-RAN architecture and semantic compression to offload ML tasks to the edge, optimizing network resources and reducing latency. Copy Image URL via instructions below https://nu.testtechnologypublisher.com/files/sites/mark-saulich-16.jpg Background The exponential growth in the number of connected devices and the increasingly...
Published: 9/10/2024   |   Inventor(s): Corrado Puligheddu, Francesco Restuccia, Carla Fabiana Chiasserini
Keywords(s): 5G and beyond, 5G Networks, 6G, Deep learning, Machine Learning, Mobile devices, O-RAN, Semantics, Software-defined Networks
Category(s): Technology Classifications > 3. Computer Science
ReWiS: Reliable Wi-Fi Sensing Through Few-Shot Multi-Antenna Multi-Receiver CSI Learning
ReWiS improves Wi-Fi sensing accuracy using multi-antenna and multi-frame CSI, employing few-shot learning for quick adaptation with minimal data in applications like remote healthcare and security. Copy Image URL via instructions below https://nu.testtechnologypublisher.com/files/sites/mark-saulich-8.jpg Background: The field of Wi-Fi...
Published: 9/10/2024   |   Inventor(s): Niloofar Bahadori, Francesco Restuccia
Keywords(s): 5G Networks, 6G, Wi-Fi
Category(s): Technology Classifications
Mechanisms for the Enforcement of Network Slicing Policies in Virtualized Cellular Networks
INV-19040 Background Recent studies indicate that the demand for faster, lower latency wireless cellular connection is growing exponentially every year. RAN slicing is a form of 5G virtualization that allows network infrastructure owners to dynamically “slice” and “serve” their network resources (i.e., spectrum, power, antennas,...
Published: 9/10/2024   |   Inventor(s): Salvatore D'Oro, Francesco Restuccia, Tommaso Melodia
Keywords(s): 5G Networks, Communications, Network Slicing
Category(s): -Networks, Technology Classifications > 3. Computer Science > Network communications
DeepBeam: Coordination-Free mmWave Beam Management With Deep Waveform Learning
DeepBeam uses deep neural networks for passive, efficient 5G beam alignment, reducing latency and overhead. Copy Image URL via instructions below https://nu.testtechnologypublisher.com/files/sites/mark-saulich-18.jpg Background: The surge in mobile data traffic necessitates a new generation of wireless systems, leading to the development...
Published: 9/10/2024   |   Inventor(s): Michele Polese, Francesco Restuccia, Tommaso Melodia
Keywords(s): 5G Networks, 5g NR, Artificial intelligence, Beam, Beam Management, Communications, Deep learning, Machine Learning, Millimeter Wave Spectrum, Mobile devices, Next-generation Mobile Networks, Phased-Array
Category(s): -Networks, Technology Classifications > 3. Computer Science
A unified framework for multi-access edge computing (MEC) network slicing in 5G networks
INV-20109 Background It has become apparent that advanced softwarization and virtualization paradigms such as network slicing will be the cornerstone of 5G networks and the Internet of Things. Indeed, by sharing a common underlying physical infrastructure, network operators (NOs) can dynamically deploy multiple “slices” tailored for...
Published: 9/10/2024   |   Inventor(s): Salvatore D'Oro, Tommaso Melodia, Francesco Restuccia, Leonardo Bonati
Keywords(s): 5G Networks, Cellular Networks, Edge Computing, Network Slicing
Category(s): -Networks, -Communications
SteaLTE: Private 5G Cellular Connectivity as a Service Through Full-Stack Wireless Steganography
SteaLTE enhances 5G security with covert network slices for private, reliable, and stealthy communications.” Copy Image URL via instructions below https://nu.testtechnologypublisher.com/files/sites/mark-saulich-14.jpg Background: The surge in privacy threats and data breaches has underscored the critical need for secure communications...
Published: 9/10/2024   |   Inventor(s): Tommaso Melodia, Leonardo Bonati, Salvatore D'Oro, Francesco Restuccia
Keywords(s): 5G Networks, 5g NR, Cellular Networks, Next-generation Mobile Networks, Privacy, Steganography
Category(s): -Networks, -Sensors tech, Technology Classifications > 3. Computer Science
SwarmControl: Software-Defined Drone Network Control in The Sky
INV-19059 Background Intelligent unmanned aerial vehicles (UAVs, or drones) are attracting the interest of the networking community as a “tool” to provide new capabilities, to extend the infrastructure of wireless networks, and to make it more flexible. Because of their unique characteristics such as fast deployment, high mobility,...
Published: 9/10/2024   |   Inventor(s): Lorenzo Bertizzolo, Tommaso Melodia, Salvatore D'Oro, Zhangyu Guan
Keywords(s): 5G Networks, 5g NR, Drone Networks, IoT, Software-defined Networking
Category(s): -Homeland Security, -Sensors tech, Technology Classifications > 3. Computer Science > Software, Technology Classifications > 2. Physical Science > Security
Aluminum Nitride Combined Overtone Resonators for the mmWave Spectrum
INV-20023 Background The development of wireless communication systems has been steadily growing, and conventional sub-6 GHz frequency bands are too congested to meet the high data rate requirements of several emerging technologies like a connected vehicle. This game-changing technology requires high-bandwidth, low-latency and high-reliability...
Published: 9/10/2024   |   Inventor(s): Matteo Rinaldi, Guofeng Chen
Keywords(s): 5G Networks, Acoustic Filters, IoT, MEMS, Millimeter Wave Spectrum
Category(s): -Networks
High Quality Factor Integrated Acoustic Resonant Metamaterials with Giant Frequency Tuning Range (>30%) for Reconfigurable Radio-Frequency (RF) Front-Ends
INV-20003 Background The need for miniaturized radios have increased the need for reconfigurable CMOS-compatible RF front-ends. Tunable bandpass/notch filters and wide tuning range low-jitter Voltage Controlled Oscillators (VCOs) are desirable to form adaptive, low-power and miniaturized multi band radios. In the last decades, Aluminum Nitride...
Published: 9/10/2024   |   Inventor(s): Cristian Cassella
Keywords(s): 5G Networks, Devices, Electromagnetics, MEMS, RF (Radio Frequency)
Category(s): -Communications
Methods for creating thermally conductive boron nitride films and coatings on component surfaces
INV-20002 Background Hexagonal boron nitride (hBN) particles are an industrialized filler that provides increased thermal conductivity to resin systems. hBN particles have high thermal conductivities with the long axis of the crystal exhibiting ~300-600 W/mK and the short-axis exhibiting ~20-40 W/mK. Further, hBN is a good dielectric. This combination...
Published: 9/10/2024   |   Inventor(s): Randall Erb, Jessica Faust, Evan Toth
Keywords(s): 5G Networks, High Thermal Conductivity, Radome, Thermal Coating, Thermal Management, Thermal Spreader
Category(s): -Materials
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