Downlink OTDOA is specified in 3GPP Release-9. • In uplink OTDOA, eNBs receive the uplink transmission from UE and determines position of UE. Uplink OTDOA (U-TDOA) is specified in 3GPP Release-11. How OTDOA Works • OTDOA uses hyperbolic multilateral algorithm to determine time of arrival of downlink signals from multiple eNBs (includes 1
Mar 1, 2011 A fresh push for location services in 3GPP started in 2009 for LTE Release 9 ( OTDOA and ECID function only in UE-assisted mode in LPP).
In the adopted Observed Time Difference of Arrival (OTDOA) algorithm the base stations transmit so-called Positioning Reference Signals (PRS). 11 3GPP TS 29.244 Interface between the Control Plane and the User Plane nodes 12 3GPP TS 29.561 5G System; Interworking between 5G Network and external Data Networks; Stage 3 13 3GPP TS 23.032 Universal Geographical Area Description (GAD) 14 3GPP TS 33.501 Security architecture and procedures for 5G System 15 3GPP TS 23.379 Se hela listan på baike.baidu.com The downlink (OTDOA) positioning method makes use of the measured timing of downlink signals received from multiple TPs at the UE. The UE measures the The OTDOA positioning method makes use of the measured timing of downlink signals received from multiple TPs, comprising eNBs, ng-eNBs and PRS-only The OTDOA-PE method is based on transmission of symbols in the downlink at known times with regard to the timing of the serving cell Node B. These symbols In LTE OTDOA positioning, the PRS signal is dedicated for positioning and for solving the hearability problem. Hence, the 3GPP standard defines PRS to (TDOA) measurements have been specified in 3GPP LTE Rel. OTDOA. As the reference signal PRS is used here for UE to measure the time difference, the This Specification is provided for future development work within 3GPP only. The downlink (OTDOA) positioning method makes use of the measured timing of Long Term Evolution (3GPP LTE) standard features position- ing support since PRS (NPRS) supporting downlink OTDOA based positioning. Specifically, for Jan 4, 2016 In recent 3rd generation partnership project (3GPP) long term evolution (LTE) cellular environment, multiple observed time difference of arrival LTE Positioning Methods- overview. 3GPP Release 9.
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In the adopted Observed Time Difference of Arrival (OTDOA) algorithm the base stations transmit so-called Positioning Reference Signals (PRS). 11 3GPP TS 29.244 Interface between the Control Plane and the User Plane nodes 12 3GPP TS 29.561 5G System; Interworking between 5G Network and external Data Networks; Stage 3 13 3GPP TS 23.032 Universal Geographical Area Description (GAD) 14 3GPP TS 33.501 Security architecture and procedures for 5G System 15 3GPP TS 23.379 Se hela listan på baike.baidu.com The downlink (OTDOA) positioning method makes use of the measured timing of downlink signals received from multiple TPs at the UE. The UE measures the The OTDOA positioning method makes use of the measured timing of downlink signals received from multiple TPs, comprising eNBs, ng-eNBs and PRS-only The OTDOA-PE method is based on transmission of symbols in the downlink at known times with regard to the timing of the serving cell Node B. These symbols In LTE OTDOA positioning, the PRS signal is dedicated for positioning and for solving the hearability problem. Hence, the 3GPP standard defines PRS to (TDOA) measurements have been specified in 3GPP LTE Rel. OTDOA. As the reference signal PRS is used here for UE to measure the time difference, the This Specification is provided for future development work within 3GPP only. The downlink (OTDOA) positioning method makes use of the measured timing of Long Term Evolution (3GPP LTE) standard features position- ing support since PRS (NPRS) supporting downlink OTDOA based positioning. Specifically, for Jan 4, 2016 In recent 3rd generation partnership project (3GPP) long term evolution (LTE) cellular environment, multiple observed time difference of arrival LTE Positioning Methods- overview. 3GPP Release 9.
3GPP Release 9. OTDOA (Observed Time Difference of Arrival). • UE location can be tri-laterated with the knowledge of Jun 6, 2014 The UE measurement for OTDOA positioning is the Reference Signal Time Difference.
av K Radnosrati · 2016 · Citerat av 7 — measurements provided by the 3GPP standard use Observed. Time Difference of Arrival (OTDOA) techniques. Long Term. Evolution (LTE) systems have an
• UE location can be tri-laterated with the knowledge of Jun 6, 2014 The UE measurement for OTDOA positioning is the Reference Signal Time Difference. Measurement (RSTD), specified in 3GPP TS 36.214 [5]. LTE-M is a cellular radio access technology specified by 3GPP in Release 13, 14 and 15.
within 3GPP Release 9 and are described in this white paper. 1 05, er 2013: 0 0. Table of Contents 5 OTDOA – Observed Time
3GPP (3rd Generation Partnership Project) has started to discuss D2D (Device-to-Device)-aided OTDOA (Observed Time Difference Of Arrival) as one of the mobile positioning enhancement techniques for LTE (Long Term Evolution) systems. Performance of OTDOA Positioning in Narrowband IoT Systems Kamiar Radnosrati, Gustaf Hendeby, ing support since 3GPP Release 9. The subsequent releases, as OTDOA and its advantages 3GPP Release 14 further improves NB-IoT to enhance the user experience. Observed time difference of arrival (OTDOA) is a downlink based positioning method described by 3GPP as one of the NB-IoT positioning methods to increase positioning accuracy. The Observed Time Difference of Arrival (OTDoA) technology defined in the 3GPP-LTE Release 9 standard is based on the Time Difference of Arrival (TDoA) method using the positioning reference 3GPP Portal home page 3GPP public web site Directory. Browse FTP. Help New OTDOA Cat M1/M2 inter-freq reporting accuracy enhanced mode tests: R5-181586: agreed: Narrowband PRS (NPRS) supporting downlink OTDOA based positioning.
The downlink (OTDOA) positioning method makes use of the measured timing of
Long Term Evolution (3GPP LTE) standard features position- ing support since PRS (NPRS) supporting downlink OTDOA based positioning. Specifically, for
Jan 4, 2016 In recent 3rd generation partnership project (3GPP) long term evolution (LTE) cellular environment, multiple observed time difference of arrival
LTE Positioning Methods- overview. 3GPP Release 9. OTDOA (Observed Time Difference of Arrival). • UE location can be tri-laterated with the knowledge of
Jun 6, 2014 The UE measurement for OTDOA positioning is the Reference Signal Time Difference. Measurement (RSTD), specified in 3GPP TS 36.214 [5]. LTE-M is a cellular radio access technology specified by 3GPP in Release 13, 14 and 15.
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OTDOA (Observed Time Difference of Arrival).
How does E-CID positioning works in NB-IoT? Another method for NB-IoT positioning in 3GPP R14 is Enhanced Cell ID (E-CID), based on Cell of Origin (COO). With the above extensive OTDOA enhancements considered for feMTC and NB-IoT, based on the limited time-dispersion/ time-spread/ multipath EPA (Extended Pedestrian A model) 3GPP channel scenario with outdoor deployment of 1.732km ISD (Inter-Site Distance), the 50m positioning accuracy for 67% of the UEs is achievable for both device types. 3GPP Specification Change Request records for: 24.080.
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3GPP Portal home page 3GPP public web site Directory. Browse FTP. Help New OTDOA Cat M1/M2 inter-freq reporting accuracy enhanced mode tests: R5-181586: agreed:
Presenation by 3GPP RAN3 Chairman - Philippe Reininger - at the IoT Business & Technologies Congress (November 30, in Singapore). Main topics are eMTC, NB-IOT and EC-GSM-IoT as completed in 3GPP Release 13 and enhanced in Release 14 –Ongoing discussion in 3GPP on Carrier Aggregation, CoMP, etc. •Fronthaul moving towards Ethernet (e.g., legacy requirement of 260 ns, i.e. +/-130 ns) •Strict requirements to support OTDOA (Observed Time Difference of Arrival)-based positioning (100 ns) 3GPP Portal home page 3GPP public web site Directory.
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S. Fischer, Observed Time Difference of Arrival (OTDOA) Positioning in 3GPP LTE, Qualcomm Technologies, Inc., June 2014. Google Scholar; 3GPP TS 36.305 v12.2.0, Evolved Universal Terrestrial Radio Access Network (E-UTRAN); Stage 2 functional specification of User Equipment (UE) positioning in E-UTRAN (Release 12), www.3gpp.org, Dec. 2014.
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Narrowband PRS (NPRS) supporting downlink OTDOA based positioning. Specifically, for in-band deployment, PRS symbols are reused also in the NPRS, which typ-ically is extended with a large number of repetitions to allow accumulation at the device for detectability. OTDOA positioning in legacy LTE systems is widely studied in the literature.
LTE Positioning Methods- overview 3GPP Release 9 OTDOA (Observed Time Difference of Arrival) † UE location can be tri-laterated with the knowledge of three or more eNB’s –Transmit timings of the cells in the system and their geographical locations –Received time difference of at least two other cells vs. serving cell in the UE OTDOA is an abbreviation for Observed Time Difference of Arrival, and it is a downlink based multilateration positioning method introduced in the LTE 3GPP Release 9. How does OTDOA NB-IoT positioning work? With the above extensive OTDOA enhancements considered for feMTC and NB-IoT, based on the limited time-dispersion/ time-spread/ multipath EPA (Extended Pedestrian A model) 3GPP channel scenario with outdoor deployment of 1.732km ISD (Inter-Site Distance), the 50m positioning accuracy for 67% of the UEs is achievable for both device types. OTDOA | Downlink Observed Time Difference of Arrival • It is defined in 3GPP Rel-9. • It is known as downlink Observed Time Difference Of Arrival.
As the reference signal PRS is used here for UE to measure the time difference, the OTDOA is referred to as the reference signal time difference (RSTD) in terms of 3GPP LTE. Similarly, for E-CID, the so-called UE Rx–Tx time dif- ference is measured. LTE Positioning Methods- overview 3GPP Release 9 OTDOA (Observed Time Difference of Arrival) † UE location can be tri-laterated with the knowledge of three or more eNB’s –Transmit timings of the cells in the system and their geographical locations –Received time difference of at least two other cells vs. serving cell in the UE OTDOA is an abbreviation for Observed Time Difference of Arrival, and it is a downlink based multilateration positioning method introduced in the LTE 3GPP Release 9. How does OTDOA NB-IoT positioning work? With the above extensive OTDOA enhancements considered for feMTC and NB-IoT, based on the limited time-dispersion/ time-spread/ multipath EPA (Extended Pedestrian A model) 3GPP channel scenario with outdoor deployment of 1.732km ISD (Inter-Site Distance), the 50m positioning accuracy for 67% of the UEs is achievable for both device types.