№ lp_1_2_71790
File format: docx
Character count: 3147
File size: 21 KB
“Outdoor Channel Models for System Level Simulations”, IEEE 802. 11-14/0627, Samsung, Kaushik Josiam, etc.
Date:
2013-10-16
Note:
Contributor(s)
Jianhan Liu:
Mediatek Inc.
Ron Porat:
Broadcom
Vinko Erceg:
Broadcom
Shahrnaz Azizi:
Intel
Sameer Vermani:
Qualcomm
Wookbong Lee:
LGE
Hongyuan Zhang:
Marvell
Edward Au:
Huawei
Kaushik Josiam:
Samsung
Bo Sun:
ZTE
Abstract:
This document provides the addendum to the TGn and Tgac channel model document to be used for HEW study group and future task group.
07/24/13 0.1:
After July 2013 meeting in Geneva, group decides to start documenting the contributions and discussions.
10/10/2013 0.2:
Including the progress and consensus reached in IEEE 802.11 September meeting in Nanjing
Introduction:
The TGn and Tgac task group has developed a comprehensive MIMO broadband channel model, with support for up to 160 MHz channelization and 8 antennas. The HEW and future task group is targeting to improve MAC and PHY efficiency in dense networks for both indoor and outdoor scenarios.
Indoor channel models:
The HEW study group agrees that TGn and TGac channel models should be adopted as HEW indoor channel models. The network simulation required penetration loss should be addressed as part of channel model document.
Outdoor channel models:
A couple of outdoor channel models have been proposed. The HEW study group agrees that adopting existing outdoor channel models from cellular organization with proper modifications. The HEW study group decided to choose ITU channel model as the baseline of outdoor channel models.
In Progress and Existing Topics for Discussion:
Expanding the ITU channel models to 160MHz has been discussed. Penetration loss should be discussed for outdoor simulation scenario. STA-to-STA outdoor channels, using UMi channel models with adjustment of heights.
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Year:
2014
Region / City:
Kanata, ONT, Canada
Topic:
Wireless LANs, IEEE 802.11 Amendment
Document Type:
PAR Request
Organization:
IEEE
Author:
Osama Aboul-Magd
Target Audience:
Manufacturers, Users of Wireless LAN Devices
Period of Validity:
March 2014 - March 2018
Approval Date:
March 2014
Date of Changes:
N/A
Year:
2024
Region / city:
Changsha, China
Topic:
ISAC channel modeling
Document type:
Meeting summary
Organization:
3GPP TSG RAN WG1
Author:
Moderator (Xiaomi)
Target audience:
Participants of 3GPP TSG RAN WG1 meetings
Period of validity:
2024
Approval date:
April 15th, 2024
Revision date:
April 19th, 2024
Year:
2017
Region / City:
Canada
Subject:
Insurance, Advisor Compliance, MGA Channel
Document Type:
Survey Template
Organization:
Canadian Life and Health Insurance Association Inc.
Author:
CLHIA
Target Audience:
Insurance Advisors, MGA Firms
Effective Period:
Ongoing
Approval Date:
August 2017
Revision Date:
Not specified
Year:
2022
Region / City:
Electronic Meeting
Topic:
NR-U bands n46 and n96 – 100 MHz channel BW
Document type:
Meeting Document
Author:
Qualcomm
Target Audience:
RAN4 WG
Period of validity:
February 21 – March 3, 2022
Approval Date:
Not specified
Date of modifications:
Not specified
Description:
A document detailing the discussion and proposals regarding the inclusion of 100 MHz channel bandwidth in NR-U bands n46 and n96, focusing on the coexistence with other technologies and possible configurations.
Year:
2015
Note:
Region / City
Subject:
Wireless Personal Area Networks, Channel Modeling
Document Type:
Technical Report
Organization / Institution:
IEEE
Author:
Alexander Fricke (editor)
Target Audience:
Professionals and researchers in wireless communication
Year:
2014
Region / City:
Worldwide
Topic:
Wireless Personal Area Networks, Channel Modeling
Document Type:
Technical Report
Organization:
IEEE P802.15 Working Group
Author:
John Notor (Editor), Ichiro Seto, Ken Hiraga, Thomas Kürner
Target Audience:
IEEE P802.15 Working Group members, wireless communication researchers
Period of Validity:
Not specified
Approval Date:
July, 2014
Modification Date:
Not specified
Year:
2014
Region / city:
N/A
Topic:
Wireless Personal Area Networks, Channel Modeling
Document Type:
Technical Report
Organization / Institution:
IEEE P802.15 Working Group
Author:
John Notor (editor), Ichiro Seto, Ken Hiraga, Thomas Kürner
Target Audience:
Technical professionals in wireless communication
Period of Action:
N/A
Approval Date:
N/A
Modification Date:
N/A
Year:
2020
Region / City:
Kent and Medway
Subject:
Data Sharing Agreements, Data Protection, Counter-Terrorism
Document Type:
Official Response
Organization / Institution:
Medway Council
Author:
Medway Council
Target Audience:
Public authorities, Law enforcement agencies
Period of validity:
Not specified
Approval Date:
Not specified
Date of amendments:
Not specified
Year:
2025
Region / City:
Athens, Greece
Topic:
Channel Modelling for Integrated Sensing and Communication (ISAC)
Document Type:
Meeting Summary
Organization:
3GPP
Author:
Moderator (Xiaomi)
Target Audience:
RAN1 Working Group Members
Period of Validity:
February 17th – 21st, 2025
Approval Date:
Not specified
Date of Changes:
Not specified
Year:
2024
Institution:
Temple University Hospital
Consortium:
Neural Engineering Data Consortium
Affiliation:
College of Engineering, Temple University
Location:
Philadelphia, Pennsylvania, United States
Document type:
Technical report
Subject:
EEG electrode placement, montages, and channel labeling
Corpus:
Temple University Hospital EEG Corpus
Data format:
European Data Format (EDF)
Authors:
Sean Ferrell; Vineetha Mathew; Matthew Refford; Vincent Tchiong; Tameem Ahsan; Iyad Obeid; Joseph Picone
Date prepared:
October 18, 2024
Time period of data collection:
2002–present
EEG recording environments:
ICU; EMU; ER; outpatient services
Intended audience:
Clinical researchers and EEG data analysts
Year:
2024
Region / city:
Global
Topic:
IMS Data Channel API
Document type:
Specification
Organization / institution:
GSMA Association
Author:
GSMA
Target audience:
Developers, Telecom Engineers
Validity period:
Not specified
Approval date:
Not specified
Modification date:
Not specified
Year:
2023
Note:
Region / City
Topic:
Wireless LAN
Document Type:
Technical Specification
Organization / Institution:
IEEE
Author:
Brian Hart
Target Audience:
Industry Professionals, Network Engineers
Approval Date:
2023-12-07
Version:
Rev 2
Editor:
TGme
Contextual Description:
Technical specification detailing channel usage resolutions in IEEE P802.11 standards, focusing on definitions and revisions related to infrastructure and non-infrastructure basic service sets.
Year:
2026
Region / City:
Global
Theme:
Electronic Safety and Security
Document Type:
Technical Specification
Organization:
Hanwha Techwin
Author:
Hanwha Techwin
Target Audience:
Security Systems Specifiers
Period of Effect:
Ongoing
Approval Date:
N/A
Modification Date:
N/A
Related Standards:
IEEE802.3 Ethernet Standards, ISO / IEC 23008-2:2013, MPEG-H Part2 (ITU H.265, HEVC)
Product Model:
ARN-810S
Technical Requirements:
ONVIF compliant, supports H.265, H.264, MJPEG compression
Description:
Technical specification for an eight-channel network video recorder with integrated PoE switch, including requirements for installation, performance, and system compatibility.
Year:
2016
Region / City:
Global
Theme:
Electronic Safety and Security
Document Type:
Technical Specification
Organization / Institution:
Hanwha Techwin
Author:
Hanwha Techwin
Target Audience:
Security system specifiers, engineers, installers
Effective Period:
Not specified
Approval Date:
Not specified
Revision Date:
Not specified
Note:
Year
Contextual description:
A technical specification document for a 4-channel Pentabrid DVR system, detailing features, configurations, and related industry standards.
Manufacturer:
Hanwha Techwin
Model:
HRX-1635
Product Type:
DVR
Resolution:
8MP ~ CIF
Operating Temperature:
+0°C ~ +40°C
Operating Humidity:
20% ~ 85% RH
Power Consumption:
Max. 200W
Compliance:
NDAA Compliant
Video Compression:
H.265, H.264, MJPEG
Video Inputs:
16 Analog, Max. 18 IP Cameras
Network Camera Input:
Max. 18CH
HDD Slot:
SATA 8ea (Up to 6TB each, Max. 48TB)
Storage:
Up to 48TB
Audio Compression:
G.711
Alarm Inputs:
16
Relay Outputs:
4
USB Ports:
2 Front USB 2.0, 1 Rear USB 3.0
Mobile Platforms Supported:
Android, iOS
Video Output:
HDMI, VGA
Remote Monitoring:
Supported via Web Viewer, Wisenet Mobile
Language Support:
English, French, German, Italian, Spanish, Russian, Turkish, Polish, Dutch, Swedish, Czech, Portuguese, Danish, Rumanian, Serbian, Croatian, Hungarian, Greek, Norwegian, Finnish, Korean, Chinese, Japanese, Thai
Network Protocols:
TCP/IP, UDP/IP, RTP, RTSP, NTP, HTTP, DHCP, SMTP, IGMP, ARP, DNS, ONVIF, DDNS
Dynamic DNS:
Wisenet DDNS
Video Analytics:
Motion Detection, Tampering, Intrusion Detection, Virtual Line, etc.
Event Handling:
Email Notification, FTP Transfer, Mobile Push Notifications
Multicast/Unicast Access:
Simultaneous Access for Up to 20 Users
Note:
Compliance
CE, FCC, EN 55032, VCCI, UL Listed, and others