Search Results - 5g

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Universal Mimo Accelerator for Next Generation Wireless Communication Systems
Summary: UCLA researchers in the department of Electrical Engineering have developed a universal multiple-input multiple-output (MIMO) decoder that incorporates all available decoding algorithms necessary for any wireless standard. Background: MIMO has become a key technology for wireless communication, but it is believed that the demands put on...
Published: 8/9/2024   |   Inventor(s): Babak Daneshrad, Karim Mohammed, Weijun Zhu, Hun-Seok Kim
Keywords(s): 3G, 4G, 5G, Antennas/Wireless, cell phone, cellular, cognitive radio, decoding algorithm, energy-efficient wireless communication, LTE, MIMO, MIMO accelerator, MIMO decoder, self-powered wireless sensor solutions, WiFi, WiMAX, Wireless, wireless capsule endoscopy, wireless communication, wireless energy harvesting, Wireless LAN LTE (Telecommunication), Wireless Sensor Network
Category(s): Electrical, Electrical > Wireless
Human-Perceptible and Machine-Readable Shape Generation and Classification of Hidden Objects
Reference #: 01537 The University of South Carolina is offering licensing opportunities for Human-Perceptible and Machine-Readable Shape Generation and Classification of Hidden Objects Background: Millimeter-wave (mmWave) systems enable through-obstruction imaging and are widely used for screening in state of-the-art airports and security portals....
Published: 3/27/2023   |   Inventor(s): Sanjib Sur, Hem Regmi
Keywords(s): 5G, Conditional Generative Adversarial Networks, Millimeter-Wave, SAR
Category(s): Engineering and Physical Sciences
Heat Dissipation for Millimeter-Wave Devices with Antenna Switching
Reference #: 01477 The University of South Carolina is offering licensing opportunities for Heat Dissipation for Millimeter-Wave Devices with Antenna Switching Background: Millimeter-wave is the core technology for 5G and beyond wireless systems; it enables use cases that demand multiple Gbps throughput and ultra-low latency connectivity, such as...
Published: 4/19/2024   |   Inventor(s): Sanjib Sur, Moh Saadat, Srihari Nelakuditi
Keywords(s): 5G, 5G NR, Millimeter-Wave, Temperature Awareness, User's comfort
Category(s): Engineering and Physical Sciences, Energy
Facilitating At-Home Spirometry with Millimeter-Wave Devices
Reference #: 01523 The University of South Carolina is offering licensing opportunities for Facilitating At-Home Spirometry with Millimeter-Wave Devices Background: Due to the steady rise of COVID-19 cases and its long-haul syndromes, a broader set of people will now require continuous lung function monitoring. At-home spirometry tests allow to continuously...
Published: 9/3/2022   |   Inventor(s): Sanjib Sur, Aakriti Adhikari
Keywords(s): 5G, Millimeter-Wave, Spirometer, Spirometry test
Category(s): Software and Computing, Health Sciences, Engineering and Physical Sciences
A Reconfigurable Antenna Design for Centimeter-Wave and Millimeter-Wave
Reference #: 01431 The University of South Carolina is offering licensing opportunities for a Reconfigurable Antenna Design for Centimeter-Wave and Millimeter-Wave Background: 5G Networks are the future of mobile device connectivity and will greatly improve cell network speeds. In order to implement the newer technology, the antennas must have spectrum...
Published: 9/4/2022   |   Inventor(s): Guoan Wang, Sanjib Sur, Srihari Nelakuditi
Keywords(s): 5G, 5G NR, Millimeter-Wave, Spectrum flexibility
Category(s): Engineering and Physical Sciences
System for Extracting Venous Pulsation and Respiratory Information from Photoplethysmographs
The University of Texas at Dallas presents a technique that addresses the inaccuracy of skin-mounted photoplethysmographic (PPG) biosensor measurements by separating the arterial and venous signals - enabling extraction of other medically-relevant features, including: respiration rate, heart rate, and SpO2. The effective removal of various motion artifacts...
Published: 4/26/2019   |   Inventor(s): Mehrdad Nourani, Rasoul Yousefi
Keywords(s): 5G, Assay, Diagnostics, Electronics, Research Tools, Software, Wireless
Category(s): Healthcare, Software & Information Technology, Signal Processing, Medical Devices
Accurate and Motion-Tolerant Sensing of Arterial and Venous Pulsation for Wearable Photoplethysmographic (PPG) Biosensors
The University of Texas at Dallas presents a real-time, adaptive technique that provides robust signal enhancement against motion artifact for wearable photoplethysmographic (PPG) systems, enabling the reliable extraction of heart rate and oxygen saturation. Despite the benefits of using PPG biosensors, most of the useful information they capture...
Published: 4/26/2019   |   Inventor(s): Mehrdad Nourani, Rasoul Yousefi
Keywords(s): 5G, Assay, Diagnostics, Electronics, Research Tools, Software, Wireless
Category(s): Healthcare, Medical Devices, Signal Processing, Software & Information Technology
Coherence Diversity in Frequency and Time
The University of Texas at Dallas is seeking companies interested in commercializing a diversity scheme for wireless networks, called coherence diversity, which provides a novel source of gain that is distinct from other kinds of diversity. As individual links in a wireless network often experience unequal fading coherence times and coherence bandwidths...
Published: 4/26/2019   |   Inventor(s): Aria Nosratinia, Mohamed Shady
Keywords(s): 5G, Industrial & Manufacturing, Internet of Things (IoT), MIMO, Signal Processing, Wireless
Category(s): Communications
Spectrum-Agile Massive MIMO System and Capacity Adaptation Between Uplink and Downlink
Massive MIMO is a potential candidate for next-generation wireless communication, such as for 5G. Massive MIMO uses a large number of base station (BS) antennas to potentially allow for orders of magnitude improvement in spectral and energy efficiency. Existing Massive MIMO literature views that such technology with large number of beams (large number...
Published: 6/29/2024   |   Inventor(s): Hlaing Minn, Amin Khansefid
Keywords(s): 5G, Electronics, Engineering & Physical Sciences, MIMO, Signal Processing, Wireless
Category(s): Communications