High-Level Thoughts on Integrated mmWave Communication for WLAN Solutions
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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Channelization to Include Optical Bands in IEEE 802.11 Standards
This document discusses the proposal to incorporate optical bands into the channelization framework of the IEEE 802.11 standard. It aims to align the channelization approach for integrated LC with that of mm-wave technology in the IMMW scope. The contribution highlights recent works, emphasizing the
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Discussion on Enabling MIMO in IMMW: IEEE 802.11-23/1991
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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Insights on IEEE 802.11-24/1102r1 for Industrial mmWave Applications
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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Analysis of MIMO for IMMW Transmission in IEEE 802.11-24
Proposal discusses the suitability of MIMO for IMMW transmission under different scenarios. The analysis focuses on the number of spatial streams based on channel rank and quality, recommending dual-polarization for LOS paths supporting 2 spatial streams and spatial separation for larger devices sup
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Simplifying IMMW Adoption through DL-Only Mode in mmWave Technology
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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Leveraging Lower Bands for RTS/CTS Protection in_mmWave Technology
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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