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Potential TGbb task group documents
Month Year doc.: IEEE yy/xxxxr0 May 2018 Potential TGbb task group documents Date: Authors: Oliver Luo (Huawei) John Doe, Some Company
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Month Year doc.: IEEE yy/xxxxr0 May 2018 Abstract This slide deck presents the main documents that have been generated by other task groups for the development of the draft amendment. The aim of this deck is to inform the future TG on what information and documentation could be potentially leveraged from work done in other IEEE 802 WG dealing with LC. Oliver Luo (Huawei) John Doe, Some Company
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Functional requirements Evaluation methodology Specification framework
Month Year doc.: IEEE yy/xxxxr0 May 2018 The road to Draft 1.0 [1] Usage model Channel model Functional requirements Evaluation methodology Specification framework Draft amendment Oliver Luo (Huawei) John Doe, Some Company
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Selection process for Draft 1.0 [2]
Month Year doc.: IEEE yy/xxxxr0 May 2018 Selection process for Draft 1.0 [2] Oliver Luo (Huawei) John Doe, Some Company
![Selection process for Draft 1.0 [2]](http://slideplayer.com./slide/15019474/91/images/4/Selection+process+for+Draft+1.0+%5B2%5D.jpg "Month Year. doc.: IEEE yy/xxxxr0. May Selection process for Draft 1.0 [2] Oliver Luo (Huawei) John Doe, Some Company.")
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Usage model [3,4] May 2018 Model # Usage Models TGba Model #
Month Year doc.: IEEE yy/xxxxr0 May 2018 Usage model [3,4] Model # Usage Models TGba 1 Smart Home 2 Warehouse 3 Outdoor Cattle Farms 4 Sensor Network Synchronized Wake Up 5 Wearable Devices Unsynchronized Wake Up 6 Wearable Devices Reconnection 7 Moving Goods Tracking Wake Up 8 Wake Up AP 98 Wake Up Vehicle-to-Pedestrian Radio 9 Smart Scanning Model # Usage Models TGbb 1 Industrial wireless 2 Wireless access in medical environments 3 Enterprise network 4 Secure home network 5 Backhaul .. … Oliver Luo (Huawei) John Doe, Some Company
![Usage model [3,4] May 2018 Model # Usage Models TGba Model #](http://slideplayer.com./slide/15019474/91/images/5/Usage+model+%5B3%2C4%5D+May+2018+Model+%23+Usage+Models+TGba+Model+%23.jpg "Month Year. doc.: IEEE yy/xxxxr0. May Usage model [3,4] Model # Usage Models TGba. 1. Smart Home. 2. Warehouse. 3. Outdoor Cattle Farms. 4. Sensor Network Synchronized Wake Up. 5. Wearable Devices Unsynchronized Wake Up. 6. Wearable Devices Reconnection. 7. Moving Goods Tracking Wake Up. 8. Wake Up AP. 98. Wake Up Vehicle-to-Pedestrian Radio. 9. Smart Scanning. Model # Usage Models TGbb. 1. Industrial wireless. 2. Wireless access in medical environments. 3. Enterprise network. 4. Secure home network. 5. Backhaul. .. … Oliver Luo (Huawei) John Doe, Some Company.")
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TGay Channel model [5] 1 Introduction 2 Channel Model Requirements
Month Year doc.: IEEE yy/xxxxr0 May 2018 TGay Channel model [5] 1 Introduction 2 Channel Model Requirements 2.1 Basic Channel Model Requirements 2.2 IEEE ay Use Cases and Evaluation Scenarios 3 MIMO Extension for IEEE ad Indoor Channel Models 3.1 General Channel Structure with Phased Antenna Arrays 3.2 Channel Structure for Considered SU-MIMO Configurations 3.3 IEEE ad Channel Model Extension to Support SU-MIMO Configurations 4 Quasi-Deterministic Approach for New IEEE ay Scenarios 4.1 Experimental Measurements and Rays Classification 4.2 D-Rays Modeling 4.3 R-rays Modeling 4.4 Intra-Cluster Structure Modeling 4.5 Mobility Effects 4.6 Doppler Spread Measurements 4.7 Channel Impulse Response Post Processing Oliver Luo (Huawei) John Doe, Some Company
![TGay Channel model [5] 1 Introduction 2 Channel Model Requirements](http://slideplayer.com./slide/15019474/91/images/6/TGay+Channel+model+%5B5%5D+1+Introduction+2+Channel+Model+Requirements.jpg "Month Year. doc.: IEEE yy/xxxxr0. May TGay Channel model [5] 1 Introduction. 2 Channel Model Requirements. 2.1 Basic Channel Model Requirements. 2.2 IEEE ay Use Cases and Evaluation Scenarios. 3 MIMO Extension for IEEE ad Indoor Channel Models. 3.1 General Channel Structure with Phased Antenna Arrays. 3.2 Channel Structure for Considered SU-MIMO Configurations. 3.3 IEEE ad Channel Model Extension to Support SU-MIMO Configurations. 4 Quasi-Deterministic Approach for New IEEE ay Scenarios. 4.1 Experimental Measurements and Rays Classification. 4.2 D-Rays Modeling. 4.3 R-rays Modeling. 4.4 Intra-Cluster Structure Modeling. 4.5 Mobility Effects. 4.6 Doppler Spread Measurements. 4.7 Channel Impulse Response Post Processing. Oliver Luo (Huawei) John Doe, Some Company.")
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Month Year doc.: IEEE yy/xxxxr0 May 2018 TGay Channel model [5] 5 New IEEE ay Channel Models for Large Scale Environments 5.1 Open Area Outdoor Hotspot Access 5.2 Outdoor Street Canyon Hotspot Access 5.3 Large Hotel Lobby Scenario 5.4 NLOS modelling 6 Ultra Short Range Channel Model 6.1 Ultra-Short Range Scenarios 6.2 Experimental Measurements Results 6.3 Ultra-Short Range Model 7 D2D Communications Channel Model 7.1 Overview of Model 7.2 Implementing Model 8 Additional Experimental Results on Millimetre-Wave Channel Measurements 8.1 Indoor Scenarios 8.2 Outdoor Scenarios Oliver Luo (Huawei) John Doe, Some Company
![Month Year doc.: IEEE yy/xxxxr0. May TGay Channel model [5] 5 New IEEE ay Channel Models for Large Scale Environments.](http://slideplayer.com./slide/15019474/91/images/7/Month+Year+doc.%3A+IEEE+yy%2Fxxxxr0.+May+TGay+Channel+model+%5B5%5D+5+New+IEEE+ay+Channel+Models+for+Large+Scale+Environments..jpg "5.1 Open Area Outdoor Hotspot Access. 5.2 Outdoor Street Canyon Hotspot Access. 5.3 Large Hotel Lobby Scenario. 5.4 NLOS modelling. 6 Ultra Short Range Channel Model. 6.1 Ultra-Short Range Scenarios. 6.2 Experimental Measurements Results. 6.3 Ultra-Short Range Model. 7 D2D Communications Channel Model. 7.1 Overview of Model. 7.2 Implementing Model. 8 Additional Experimental Results on Millimetre-Wave Channel Measurements. 8.1 Indoor Scenarios. 8.2 Outdoor Scenarios. Oliver Luo (Huawei) John Doe, Some Company.")
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TGay Functional requirements [6]
Month Year doc.: IEEE yy/xxxxr0 May 2018 TGay Functional requirements [6] 1 Overview 1.1 Summary of Functional Requirements 2 Functional Requirements 2.1 Scope 2.1.1 Bands of Operation Maximum throughput 2.1.3 Backward Compatibility and Coexistence 2.2 System Performance 2.2.1 Range 2.2.2 Power efficiency 2.2.3 Video Requirements Oliver Luo (Huawei) John Doe, Some Company
![TGay Functional requirements [6]](http://slideplayer.com./slide/15019474/91/images/8/TGay+Functional+requirements+%5B6%5D.jpg "Month Year. doc.: IEEE yy/xxxxr0. May TGay Functional requirements [6] 1 Overview. 1.1 Summary of Functional Requirements. 2 Functional Requirements. 2.1 Scope Bands of Operation Maximum throughput Backward Compatibility and Coexistence. 2.2 System Performance Range Power efficiency Video Requirements. Oliver Luo (Huawei) John Doe, Some Company.")
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TGay Functional requirements [6]
Month Year doc.: IEEE yy/xxxxr0 May 2018 TGay Functional requirements [6] 2 Functional Requirements 2.3 Fast Link Setup 2.4 Outdoor Support 2.5 Mobility Support 3 Compliance to PAR and CSD Oliver Luo (Huawei) John Doe, Some Company
![TGay Functional requirements [6]](http://slideplayer.com./slide/15019474/91/images/9/TGay+Functional+requirements+%5B6%5D.jpg "Month Year. doc.: IEEE yy/xxxxr0. May TGay Functional requirements [6] 2 Functional Requirements. 2.3 Fast Link Setup. 2.4 Outdoor Support. 2.5 Mobility Support. 3 Compliance to PAR and CSD. Oliver Luo (Huawei) John Doe, Some Company.")
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TGay Evaluation methodology [7]
Month Year doc.: IEEE yy/xxxxr0 May 2018 TGay Evaluation methodology [7] 1 Conditions for Functional Requirement Compliance 1.1 Point-to-point link simulation 1.2 Power Efficiency 2 PHY Performance 2.1 PHY Channel Impulse Response 2.2 Hardware impairments 2.3 Comparison Criteria 3 System Evaluation 3.1 General 3.2 PHY-layer system level evaluation 3.3 MAC-layer system level evaluation Oliver Luo (Huawei) John Doe, Some Company
![TGay Evaluation methodology [7]](http://slideplayer.com./slide/15019474/91/images/10/TGay+Evaluation+methodology+%5B7%5D.jpg "Month Year. doc.: IEEE yy/xxxxr0. May TGay Evaluation methodology [7] 1 Conditions for Functional Requirement Compliance. 1.1 Point-to-point link simulation. 1.2 Power Efficiency. 2 PHY Performance. 2.1 PHY Channel Impulse Response. 2.2 Hardware impairments. 2.3 Comparison Criteria. 3 System Evaluation. 3.1 General. 3.2 PHY-layer system level evaluation. 3.3 MAC-layer system level evaluation. Oliver Luo (Huawei) John Doe, Some Company.")
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Procedure in leading to the draft amendment (a.k.a. version 1.0) [1]
Month Year doc.: IEEE yy/xxxxr0 May 2018 Procedure in leading to the draft amendment (a.k.a. version 1.0) [1] Largely Complete [4,9-11] Usage model Channel model Functional requirements Evaluation methodology Specification framework Draft amendment Oliver Luo (Huawei) John Doe, Some Company
![Procedure in leading to the draft amendment (a.k.a. version 1.0) [1]](http://slideplayer.com./slide/15019474/91/images/11/Procedure+in+leading+to+the+draft+amendment+%28a.k.a.+version+1.0%29+%5B1%5D.jpg "Month Year. doc.: IEEE yy/xxxxr0. May Procedure in leading to the draft amendment (a.k.a. version 1.0) [1] Largely Complete [4,9-11] Usage model. Channel model. Functional requirements. Evaluation methodology. Specification framework. Draft amendment. Oliver Luo (Huawei) John Doe, Some Company.")
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References May 2018 11-15-1079-02-00ay-tgay-selection-procedure
Month Year doc.: IEEE yy/xxxxr0 May 2018 References ay-tgay-selection-procedure ac ac-proposed-selection-procedure ba-wur-usage-model-document lc-lc-usage-model ay-channel-models-for-ieee ay ay-11ay-functional-requirements ay-11ay-evaluation-methodology ac-proposed-selection-procedure a-tg7r1-channel-model-document-for-high-rate-pd- communications a-channel-modeling-for-visible-light-communications a-tg7r1-cirs-channel-model-document-for-high-rate- pd-communications.zip Oliver Luo (Huawei) John Doe, Some Company
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