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Technical summary of reported evaluation results from multiple industry and research sources comparing sensing performance metrics for baseline configuration 2 under different TRP deployment and beamforming conditions.
Section:
6.3.2
Subject:
Baseline configuration 2
Topic:
Sensing performance evaluation
Type of document:
Technical evaluation summary
Performance metrics:
Horizontal Positioning Accuracy @90%, Vertical Positioning Accuracy @90%, 3D velocity Accuracy @90%, radial velocity Accuracy @90%, Missed Detection Probability, False Alarm Probability Type 1, False Alarm Probability Type 2
Channel scenarios:
Multiple TRP with cooperative sensing; Single TRP
Tx beam configurations:
1x1, 1x2, 2x4, 3x1, 1x6, 3x3
CPI:
Up to 160 ms
Self-interference model:
X <= 5; X = -Inf
Sensing resource ratio:
<=10%; >10%
Contributing sources:
QC, Xiaomi, HW, vivo, CATT, E///, ZTE, LGE, NIST, IDC, SS, OPPO, CMCC, Sony, Tiami
Price: 8 / 10 USD
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The product description is provided for reference. Actual content and formatting may differ slightly.
Year:
2025–2027
Institution:
University of Oklahoma
Funding Agency:
National Science Foundation (Grant 2331409)
Program:
ART: InTRO Translational Research Project (TRP)
Type of Document:
Request for Proposals / Guidance
Target Audience:
Faculty, postdoctoral researchers, graduate students
Maximum Funding:
$75,000 per TRP team
Application Deadline:
March 16, 2026, 10:00 a.m. CST
Awards Announcement:
May 5, 2026
Funding Period:
August 1, 2026 – July 31, 2027
Proposal Requirements:
Two-page proposal, appendices, departmental support letter
Key Activities:
Monthly team meetings, participation in ART: InTRO Academy, ambassador role
Deliverables:
Prototype development, timeline with milestones, exit strategy
Project Scope:
Translation of prior fundamental research into tangible solutions
Evaluation Criteria:
Innovation, societal impact, feasibility, alignment with departmental guidelines
Year:
2025
Location:
Prague, Czech Republic
Topic:
6G sensing and ISAC study
Document type:
Meeting summary / Technical contribution
Organization:
3GPP TSG-RAN WG4
Authors:
Moderator (ZTE), Samsung, CMCC, CATT
Agenda item:
8.1
Use cases:
UAVs, humans, vehicles, AGVs
Technical focus:
Sensing performance, interference analysis, TDM/FDM methods, KPI evaluation
Frequencies considered:
FR1, FR2
Sensing modes:
Monostatic, Bistatic, Multistatic
Year:
2023
Region / City:
Chicago, US
Topic:
Security, Integrated Sensing and Communication
Document Type:
Study
Organization:
3GPP
Author:
Xiaomi, OPPO, China Telecom, Apple, ZTE, Lenovo, vivo, Cable Labs, Huawei, HiSilicon, Intel
Target Audience:
3GPP TSG-SA3 members
Period of Action:
November 2023
Approval Date:
TBD
Modification Date:
TBD
Year:
2022
Note:
Region / City
Topic:
Wireless LANs, Sensing Measurement
Document Type:
Technical Report
Institution:
IEEE
Author:
Rajat Pushkarna, Rojan Chitrakar
Approval Date:
2022-11-13
Contextual description:
Technical report resolving comments from TGbf comment collection 40 related to WLAN sensing measurement setup for IEEE P802.11 standards.
Year:
2022
Note:
Region / City
Topic:
Wireless LANs, R2R TB Sensing
Document Type:
Technical Report
Organization / Institution:
IEEE
Author:
Rajat Pushkarna, Rojan Chitrakar
Year:
2026
Region / City:
United States
Subject:
Remote Sensing Space Systems Licensing
Document Type:
Application Form
Organization / Institution:
National Oceanic and Atmospheric Administration (NOAA)
Author:
NOAA
Target Audience:
Entities applying for a remote sensing space system license
Period of Validity:
N/A
Approval Date:
N/A
Date of Last Modification:
N/A
Year:
2026
Region / City:
Zhengzhou, China
Topic:
Optics, Plasmonics, Spectral Sensing
Document Type:
Research Paper
Organization / Institution:
Institute of Physics, Henan Academy of Sciences, Zhejiang Engineering Research Center of MEMS, Foshan University
Authors:
Qilin Zheng, Li Liang, Shunji Yang, Luyang Tong, Wenqiang Wang, Jibo Tang, Yu Zhang, Bintong Huang, Xiaobo He
Target Audience:
Researchers in optics and nanotechnology
Period of Validity:
Not specified
Approval Date:
Not specified
Modification Date:
Not specified
Year:
2026
Region / city:
Goa, IN
Topic:
Sensing procedures in 5G networks
Document type:
Technical Specification
Organization / institution:
3GPP
Author:
Huawei, HiSilicon
Target audience:
Technical experts in 5G networks
Period of validity:
Not specified
Approval date:
Not specified
Date of modifications:
9th Feb – 13th Feb, 2026
Year:
2023
Region / City:
Goteborg, SE
Topic:
Integrated Sensing and Communication
Document Type:
Study
Organization:
3GPP
Author:
Xiaomi (Moderator)
Target Audience:
Industry professionals, technical experts, mobile operators, UE vendors, automobile vendors, subscribers
Period of Validity:
N/A
Approval Date:
21 - 25 Aug 2023
Date of Changes:
N/A
Year:
2023
Note:
Region / city
Theme:
IEEE 802.11 Wireless LAN
Document type:
Technical Specification
Organization / institution:
IEEE
Author:
Ali Raissinia
Target audience:
Wireless communication engineers, IEEE standard participants
Date of approval:
2023-01-12
Contextual description:
Technical specification on the updated format for NDP Announcement frames in IEEE 802.11be, focusing on the sensing functionality and variants of the frame types.
Year:
2022
Region / city:
Global
Topic:
Integrated Sensing and Communication, Wireless Networks, 6G
Document Type:
Technical Report
Organization / institution:
3rd Generation Partnership Project (3GPP)
Author:
3GPP Organizational Partners
Target Audience:
Industry professionals, researchers, 3GPP members
Period of validity:
Ongoing development
Approval Date:
Not approved
Change Date:
Not specified
Date:
2022-01-25
Note:
Author(s)
Affiliation:
Qualcomm
Email:
[email protected]
Year:
2022
Topic:
Wireless LANs, DMG Sensing Capabilities
Document Type:
Draft
Institution:
IEEE
Target Audience:
Technical professionals in wireless communication
Year:
2021
Region / City:
Virginia, USA
Topic:
Remote Sensing, Drone Technology, UAV
Document Type:
Course Syllabus
Institution:
George Mason University
Instructor(s):
Dr. Paul R. Houser, Dr. Konrad Wessels
Target Audience:
Graduate Students, Remote Sensing Enthusiasts
Prerequisites:
GGS 379, GGS 412, GGS 416, or equivalent
Period of Action:
August 23, 2021 - December 15, 2021
Date Approved:
August 23, 2021
Date of Last Revision:
None provided
Year:
2022
Note:
Region / City
Subject:
Wireless LANs, DMG sensing
Document Type:
Technical specification
Organization / Institution:
IEEE
Author:
Rui Du, Mengshi Hu, Naren, Yan Xin
Target Audience:
Engineers, researchers in wireless communications
Approval Date:
2022-01-24
Year:
2014
Region / City:
Chennai, Tamil Nadu, India
Topic:
Crime Mapping, 3D Geo-spatial Modeling
Document Type:
Research Paper
Organization / Institution:
Adhiyamaan College of Engineering, Department of Civil Engineering
Author:
D.Lenin Barath Kumar, K.Selvavinayagam, S.Suresh Babu
Target Audience:
Researchers, Urban Planners, Law Enforcement
Duration:
2010-2012
Approval Date:
Not provided
Modification Date:
Not provided
Year:
2026
Region / City:
Helsinki, Finland
Topic:
Biocides, Wood preservatives
Document type:
Repository document
Organization:
European Chemicals Agency
Author:
European Chemicals Agency
Target audience:
Stakeholders in biocides and wood preservation
Validity period:
Not specified
Approval date:
January 2026
Amendment date:
Not specified
Source:
Nokia
Document purpose:
Discussion and Agreement
Agenda item:
7.6 – DaCAS
Topic:
Audio recording scenarios for device characterization
Document type:
Technical contribution
Application domain:
Characterization of integrated microphones and spatial capture
Target devices:
DaCAS target devices
Audio focus:
Signal-to-noise ratio and direction-dependent properties
Recording environment:
Anechoic chamber or well-isolated room
Test signals:
Exponential sweep, sine wave
Frequency range:
20 Hz – 20 kHz
Sample rate:
48 kHz
Bit depth:
16 bit
Sound source distance:
0.5–2 meters
Sound source directions:
Full azimuth and elevation grid
Calibration level:
94 dB SPL
Measurement subject:
Integrated microphones
Period:
Not specified
Year:
2026
Region / City:
Georgia, United States
Subject:
Business and commuting mileage reimbursement policy
Document Type:
Policy
Agency:
State of Georgia
Author:
Not specified
Target Audience:
Employees traveling for business
Effective Period:
Ongoing
Approval Date:
Not specified
Date of Changes:
Not specified
Year:
2015
Note:
Region / City
Topic:
Wireless Networking, Simulation Scenarios
Document Type:
Technical Report
Organization / Institution:
IEEE
Author:
Simone Merlin, Gwen Barriac, Hemanth Sampath, Laurent Cariou, Thomas Derham, Jean-Pierre Le Rouzic, Robert Stacey, Minyoung Park, Chittabrata Ghosh, Ron Porat, Nihar Jindal, Yasuhiko Inoue, Yusuke Asai, Yasushi Takatori, Akira Kishida, Akira Yamada, Reza Hedayat, Sayantan Choudhury, Klaus Doppler, Jarkko Kneckt, Enrico-Henrik Rantala, David Xun Yang, Yujian (Ross) Yang, Zhou Lan, Jiayin Zhang, Yanchun Li, Yunbo Li, Jiyong Pang, Hongjia Su, Yingpei Lin, Wookbong Lee, HanGyu Cho, Suhwook Kim, HyeYoung Choi, Joseph Levy, Frank La Sita, Jinjing Jiang, Liwen Chu, Yakun Sun, Filip Mestanov, Guoqing Li, Scott Marin, Eisuke Sakai, William Carney, Bo Sun, Kaiying Lv, Yao Ke, Han Zhiqiang, Chao-Chun Wang, Russell Huang, ChingHwa Yu, James Yee, Eric Wong, Joonsuk Kim, Xiaofei Wang
Target Audience:
Researchers, Engineers, Developers, and organizations involved in wireless networking and simulation
Context:
This technical report outlines a series of simulation scenarios used to evaluate performance and calibrate simulators for wireless local area networks (WLANs), specifically within the scope of the IEEE P802.11 TGax standard.