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The document is a technical proposal for text updates related to in-device coexistence between NR and LTE sidelink transmissions, presented for discussion and decision at the 3GPP RAN WG1 meeting.
Year:
2020
Region / City:
Not specified
Topic:
In-device coexistence, NR-V2X
Document Type:
Technical Proposal
Organization / Institution:
3GPP TSG RAN WG1
Author:
Qualcomm
Target Audience:
Not specified
Period of validity:
Not specified
Approval Date:
Not specified
Amendment Date:
Not specified
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The product description is provided for reference. Actual content and formatting may differ slightly.
Year:
2025
Note:
Region / city
Topic:
Wireless LAN, Coexistence
Document Type:
Technical Report
Organization / institution:
IEEE
Author:
Sigurd Schelstraete, Yanchun Li, Stephen McCann
Date:
2021-04-26
Author(s):
Rui Cao
Affiliation:
NXP
Address:
350 Holger Way, San Jose, CA
Email:
[email protected]
Document Type:
Comment Resolution / Technical Assessment
Standard:
IEEE 802.11bd
Section:
32.3.11 Receiver Specification Coexistence Assessment Document (CAD)
Revision History:
r0 initial discussion, r1 changes from teleconference, r2 editorial changes and reference updates
Target Audience:
TGbd, IEEE 802.19 reviewers
Frequency Bands:
5.9 GHz ITS band, 60 GHz band
Related Documents:
Updated CA document links provided in resolutions
Document type:
Liaison Statement
Working Group:
WG FM
Project Team:
FM56
Addressee:
ECC PT1
Sender:
WG FM Chairman
Date:
09 February 2018
Reference:
WGFM#90
Related documents:
SE(18)049, FM(18)059 Annex 021
Frequency bands:
918–925 MHz; 1900–1920 MHz
Radio technologies:
GSM-R; LTE; 5G
Subject area:
Spectrum coexistence and harmonised technical conditions
Requested studies:
BEM conditions; EIRP considerations; coexistence with MFCN
Deployment scenarios:
Macro coverage; local coverage
Deadline for results:
End of 2018
Year:
2022
Region / City:
Istanbul, Turkey; Berlin, Germany; United Kingdom
Topic:
Wireless LAN, Optical Spectrum, Coexistence
Document Type:
Technical Document
Organization / Institution:
IEEE
Author:
Tuncer Baykas, Volker Jungnickel, Nikola Serafimovski
Target Audience:
Engineers, Network Designers, Researchers
Effective Period:
Not specified
Approval Date:
2022-03-09
Amendments Date:
Not specified
Year:
2016
Region / City:
Global
Topic:
Wireless Coexistence in Automotive Environments
Document Type:
IEEE Standard Proposal
Organization:
IEEE 802.19 Wireless Coexistence WG
Author:
Igal Kotzer (General Motors), Alaa Mourad (BMW)
Target Audience:
Industry professionals and organizations involved in wireless technologies in automotive applications
Effective Period:
Ongoing
Approval Date:
15/09/2016
Amendment Date:
Not provided
Date:
2021-08-25
Author(s):
Sigurd Schelstraete, MaxLinear
Frequency Bands of Operation:
2.4 GHz, 5 GHz, 6 GHz
IEEE Standard:
IEEE P802.11be
Coexistence Mechanism:
CSMA/CA
Regulatory Compliance:
FCC rules for 6 GHz
Standards Overlap:
IEEE 802.15 standards
P802.11be Channelization:
2.4 GHz, 5 GHz, 6 GHz
Coexistence Assurance:
Yes
Document Version:
R5
Date of Motion:
2021-08-25
Motion Number:
235
Period of Validity:
Ongoing
Description:
IEEE P802.11be coexistence assessment with other wireless systems in the 2.4, 5, and 6 GHz bands, detailing spectrum use, channelization, and coexistence rules with non-IEEE 802.11 systems.
Year:
2018
Date:
17 November 2018
Organization:
International Telecommunication Union Radiocommunication Sector (ITU-R)
Working Group:
Radiocommunication Study Groups, Working Party 5A
Document Number:
Document 5A/TEMP/352, Annex 21 to Document 5A/976-E
Document Type:
Working document toward a preliminary draft new ITU-R report
Subject:
Railway radiocommunication systems between train and trackside (RSTT)
Topic:
Spectrum sharing and compatibility analysis
Frequency Bands:
92–94 GHz; 94.1–100 GHz; 102–109.5 GHz
Related Services:
Mobile service; Earth exploration-satellite service (active and passive); Radio astronomy service
Technical Focus:
Interference protection and coexistence between railway radiocommunication systems and incumbent radio services
Acronyms:
RSTT (Railway radiocommunication system between train and trackside); RAU (Radio access unit)
Referenced Standards:
ITU-R Recommendations P.452, P.1411, RA.769, RS.1166, RS.1861, RS.2017, RS.2105; ITU-R Reports F.2239 and M.2418
Application Context:
High-speed railway communication links between on-board equipment and trackside infrastructure operating near 100 GHz
Year:
2014
Region / City:
University of Washington Campus, Boise
Theme:
Transportation, Safety
Document Type:
Position Paper
Organization / Institution:
Feet First
Author:
Feet First
Target Audience:
Cyclists, Pedestrians, Urban Planners, Policy Makers
Action Period:
Long-term
Approval Date:
August 2014
Modification Date:
August 2014
Year:
YYYY
Region / City:
Europe
Theme:
Spectrum Management, Frequency Bands, Telecommunications
Document Type:
Report
Organization:
ECC (Electronic Communications Committee)
Author:
ECC PT1
Target Audience:
Telecommunications professionals, spectrum regulators, engineers
Period of validity:
N/A
Approval Date:
DD Month YYYY
Date of modifications:
N/A
Date:
21 February 2019
Document type:
Liaison Statement
Subject:
Road ITS coexistence and spectrum sharing studies
Organization:
European Telecommunications Standards Institute (ETSI)
Committee:
ETSI TC ERM
Sender:
Holger Butscheidt
Recipient organizations:
CEPT/ECC; CEPT/ECC-WG FM
Related working groups:
ETSI TC ITS; ETSI TG37; CEPT/ECC-WG FM/SRDMG
Contact persons:
Holger Butscheidt; Chris Woolford; Thomas Weilacher
Topic:
Coexistence and spectrum sharing between ITS-G5 and LTE-V2X technologies
Frequency band:
5 855 MHz – 5 925 MHz
Referenced work items:
DTR/ERM-TG37-273; DTR/ERM-TG37-274
Planned deliverables:
Technical Reports on co-channel coexistence and spectrum sharing
Milestone period:
February 2019 – February 2020
Next meeting:
ERM#68, 25–28 June 2019, Sophia-Antipolis, France
Year:
2014–2011
Authors:
Teppo Hiltunen, Veijo Kaitala, Jouni Laakso, Lutz Becks
Type of document:
Supplementary material for a scientific article
Subject:
Microbial ecology, bacterial evolution, consumer-resource interactions
Organism(s) studied:
Escherichia coli, Pseudomonas fluorescens, Tetrahymena thermophila, bacteriophages T4 and ϕ2
Methods:
Bacterial growth measurements, functional response assays, co-evolution experiments, Geber method modeling, statistical analysis with ANOVA and geeGLM
Duration:
60 days
Data presentation:
Growth curves, functional response curves, optical density measurements, stability coefficients, resistance assays, regression analyses
Target audience:
Microbial ecologists, evolutionary biologists, experimental ecologists
Supplementary figures and tables:
S1–S3, Tables S1–S2
Statistical tools:
R software, robust MM-type regression estimator, ANOVA