Search results for "3rd Generation"

showing 10 items of 17 documents

Applicability of Interference Coordination in Highly Loaded HSUPA Network

2010

This paper evaluates the performance of highly loaded High Speed Uplink Packet Access (HSUPA) network with and without network wide static Interference Coordination (IC). IC alternates the priorities for user transmission periods throughout the network to achieve reduced interference levels and higher performance. A large variety of combinations including, e.g., different schedulers, cell center/edge user definitions (user splits) and interference targets are investigated in this paper. Performance is analyzed using a quasi-static system level simulator which is also used to support Third Generation Partnership Project (3GPP) standardization work. The simulator contains detailed and commonl…

Base stationEngineeringStandardizationTime-division multiplexingbusiness.industry3rd Generation Partnership Project 2Telecommunications linkFadingbusinessHigh-Speed Uplink Packet AccessScheduling (computing)Computer network2010 IEEE 71st Vehicular Technology Conference
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Multi-Connectivity in 5G and Beyond Non-Terrestrial Networks

2022

The Fifth Generation (5G) communications systems aim to serve such service classes as Ultra-Reliable Low Latency Communications (URLLC), enhanced Mobile Broadband (eMBB), and massive Machine-Type Communications (mMTC). To meet the growing requirements posed to mobile networks, satellites can be used to complement the Terrestrial Networks (TNs). To increase the efficiency of the satellite communications involved, bandwidth-efficient techniques should be used. Multi- Connectivity (MC) is one such technique. In MC, a User Equipment (UE), for example, a smartphone, can be connected to multiple Next Generation Node Bs (gNBs) simultaneously. In this paper, an adaptive MC activation scheme for thr…

Low Earth Orbit (LEO) satellite3rd Generation Partnership Project (3GPP) standardization; 6G; Beyond 5G (B5G); Low Earth Orbit (LEO) satellite; satellite network simulator; throughput enhancement5G-tekniikkamatkaviestinverkottietoliikenneverkotsatellite network simulator3rd Generation Partnership Project (3GPP) standardizationtietoliikennealgoritmittietoliikennejärjestelmätlangaton viestintäBeyond 5G (B5G)Electrical and Electronic Engineeringtietoliikennetekniikkathroughput enhancementsatelliittiviestintäSoftware6GJournal of Communications Software and Systems
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"sbottom-tau exp" of "Search for bottom-squark pair production in $pp$ collision events at $\sqrt{s} = 13$ TeV with hadronically decaying $\tau$-lept…

2021

The expected exclusion contour at $95\%$ CL as a function of the M(Sbottom) vs. M(N2) with the $\Delta M$(N2,N1) = 130 GeV. Masses within the contour are excluded.

Sbottom13000.03rd GenerationObservedCLSP P --> SBOTTOM SBOTTOMSUSYSupersymmetryLimit
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"UpperLimit" of "Search for bottom-squark pair production in $pp$ collision events at $\sqrt{s} = 13$ TeV with hadronically decaying $\tau$-leptons, …

2021

Observed upper limits on the signal cross section as a function of the M(Sbottom) vs. M(N2) with the $\Delta M$(N2,N1) = 130 GeV.

Sbottom13000.0P P --> SBOTTOM SBOTTOM X3rd GenerationObservedCLSSUSYSupersymmetryLimit
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"UpperLimitExp" of "Search for bottom-squark pair production in $pp$ collision events at $\sqrt{s} = 13$ TeV with hadronically decaying $\tau$-lepton…

2021

Expected upper limits on the signal cross section as a function of the M(Sbottom) vs. M(N2) with the $\Delta M$(N2,N1) = 130 GeV.

Sbottom13000.0P P --> SBOTTOM SBOTTOM X3rd GenerationObservedCLSSUSYSupersymmetryLimit
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"sbottom-tau obs" of "Search for bottom-squark pair production in $pp$ collision events at $\sqrt{s} = 13$ TeV with hadronically decaying $\tau$-lept…

2021

The observed exclusion contour at $95\%$ CL as a function of the M(Sbottom) vs. M(N2) with the $\Delta M$(N2,N1) = 130 GeV. Masses within the contour are excluded.

Sbottom13000.0P P --> SBOTTOM SBOTTOM X3rd GenerationObservedCLSSUSYSupersymmetryLimit
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"Eff_MultiBin3" of "Search for bottom-squark pair production in $pp$ collision events at $\sqrt{s} = 13$ TeV with hadronically decaying $\tau$-lepton…

2021

Efficiency in the Multi-bin SR, $\min_{\Theta} > 1.0$ bin as a function of the M(Sbottom) vs. M(N2) with the $\Delta M$(N2,N1) = 130 GeV. Keep in mind that the efficiency is given in units of $10^{-2}$.

Sbottom13000.0P P --> SBOTTOM SBOTTOM X3rd GenerationObservedEFFSUSYSupersymmetryLimit
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"Eff_SingleBin" of "Search for bottom-squark pair production in $pp$ collision events at $\sqrt{s} = 13$ TeV with hadronically decaying $\tau$-lepton…

2021

Efficiency in the Single-bin SR as a function of the M(Sbottom) vs. M(N2) with the $\Delta$ M(N2,N1) $= 130$ GeV. Keep in mind that the efficiency is given in units of $10^{-2}$.

Sbottom13000.0P P --> SBOTTOM SBOTTOM X3rd GenerationObservedEFFSUSYSupersymmetryLimit
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"Eff_MultiBin1" of "Search for bottom-squark pair production in $pp$ collision events at $\sqrt{s} = 13$ TeV with hadronically decaying $\tau$-lepton…

2021

Efficiency in the Multi-bin SR, $\min_{\Theta} < 0.5$ bin as a function of the M(Sbottom) vs. M(N2) with the $\Delta M$(N2,N1) = 130 GeV. Keep in mind that the efficiency is given in units of $10^{-2}$.

Sbottom13000.0P P --> SBOTTOM SBOTTOM X3rd GenerationObservedEFFSUSYSupersymmetryLimit
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"Eff_MultiBin2" of "Search for bottom-squark pair production in $pp$ collision events at $\sqrt{s} = 13$ TeV with hadronically decaying $\tau$-lepton…

2021

Efficiency in the Multi-bin SR, $0.5 < \min_{\Theta} < 1.0$ bin as a function of the M(Sbottom) vs. M(N2) with the $\Delta M$(N2,N1) = 130 GeV. Keep in mind that the efficiency is given in units of $10^{-2}$.

Sbottom13000.0P P --> SBOTTOM SBOTTOM X3rd GenerationObservedEFFSUSYSupersymmetryLimit
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