The world of millimeter wave SAR, including its operating frequencies, system design, and applications such as personal security, ground imaging, automotive imaging, and 3D imaging.

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TERAGO offers advanced solutions for 5G MMWAVE private networks, providing high-speed, low-latency, and reliable connectivity for businesses. Partnered with McMaster University for research in Advanced Manufacturing, Logistics, and Health Care applications.

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Explore the evolving landscape of 5G technology, from enhanced mobile broadband to groundbreaking use cases and standalone networks. Learn how supportive regulations and spectrum allocation are vital for unlocking 5G's full potential. Discover the transformative impact of Standalone 5G networks on i

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Market demands for WLAN solutions supporting high throughput and low latency applications have led to the development of Integrated mmWave (IMMW). This project focuses on integrating the mmwave band with sub-7GHz links to overcome range, mobility, and reliability challenges. IMMW aims to harmonize d

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Utilizing mmWave radar technology for drone detection offers solutions to concerns such as surveillance, drug smuggling, hostile intent, and invasion of privacy. The compact and cost-effective mmWave radar systems enable efficient detection and classification of drones, including those with minimal

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This research focuses on rate optimization in wideband RIS-assisted wireless systems, specifically investigating MIMO RIS-assisted systems in sub-6 GHz mmWave settings. Pathloss and blockage modeling, along with LOS vs. spectral efficiency and RIS-UE distance vs. spectral efficiency analyses, are ke

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The March 2023 document discusses the formation of the IEEE 802.11 Integrated mmWave Study Group to focus on specifying carrier frequency operation between 42.5 and 71 GHz. The motion for Study Group creation received a mixed response during a meeting. The group aims to develop a new MAC/PHY standar

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Enabling MIMO in mmWave technology is essential for improving throughput performance. While IEEE 802.11ad supports single-stream communications, 802.11ay introduces SU-MIMO, MU-MIMO, and hybrid beamforming. This document discusses the necessity of MIMO in IMMW and explores various MIMO options for e

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The document discusses the possibility of standardizing multi-link (ML) with bands in the sub-7 GHz range combined with bands in the 45-72 GHz range, proposing reusing a sub-7 GHz PHY for mmWave bands. It explores the impact of phase noise on choosing the OFDM numerology for operation in the 45-72 G

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This document discusses the proposal for an Acknowledgment (Ack) and Block Acknowledgment (BA) mechanism for Time Division Duplex (TDD) Channel Access in mmWave Distribution Networks. The requirements for sending Ack/BA in different slot structures to accommodate various traffic profiles are outline

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This research focuses on utilizing hybrid analog/digital codebooks for beam training in millimeter-wave (mmWave) systems, addressing the need for efficient channel estimation and high directivity at mmWave frequencies. The study discusses system models, proposed training algorithms, codebook designs

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This document presents a parameterized model for Doppler spread in mmWave systems based on measurements with an 83 GHz channel sounder. The model is linked to the Quasi-deterministic (QD) propagation channel model adopted by the work group. It discusses Doppler frequency shift, channel sounder confi

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Proposed concerns and suggestions regarding millimeter wave applications in industrial scenarios based on IMMW SG PAR document and specific requirements. Detailed insights shared on mmWave application development for industrial settings including AGV, AMR, throughput, latency, reliability, and spati

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The study presents a system using programmable switches to monitor packet inter-arrival time for blockage detection on mmWave networks. Results show fast recovery speeds and minimal impact on flow completion time, with contributions focusing on leveraging programmable switches and real device scenar

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Promoting the adoption of Integrated Multi-band and Multi-Wavelength (IMMW) technology through the implementation of a DL-only mode in mmWave devices. This approach addresses challenges such as coverage mismatch, power consumption, and cost, potentially increasing the number of IMMW user devices and

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Presented in January 2018, the document IEEE 802.11-17/0130r1 discusses functions for maintaining operational links in mmWave Distribution Networks, including link adaptation, bandwidth request, reservation, and time synchronization. It provides a comprehensive insight into the tools and protocols r

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Multiple contributions aim to reduce complexity and power consumption in IMMW technology. Leveraging lower bands for RTS/CTS protection is discussed as a potential solution to the hidden node problem in mmWave transmissions. Various proposals and challenges related to RTS/CTS for sub-7GHz and mmWave

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