밀리미터파 기반 모바일 엑스홀 네트워크에서 부분 빔 측정 기반의 분산 유닛 탐색 및 동시 경로 설정 방식 = A XDU Discovery with Partial Beams and Concurrent Routing Scheme for Mobile xHaul Network based on mmWave Frequency Band
'
밀리미터파 기반 모바일 엑스홀 네트워크에서 부분 빔 측정 기반의 분산 유닛 탐색 및 동시 경로 설정 방식 = A XDU Discovery with Partial Beams and Concurrent Routing Scheme for Mobile xHaul Network based on mmWave Frequency Band' 의 주제별 논문영향력
논문영향력 요약
주제
응용 물리
동시 경로
모바일 엑스홀 네트워크
밀리미터파
유닛 탐색
동일주제 총논문수
논문피인용 총횟수
주제별 논문영향력의 평균
36
0
0.0%
주제별 논문영향력
논문영향력
주제
주제별 논문수
주제별 피인용횟수
주제별 논문영향력
주제분류(KDC/DDC)
응용 물리
7
0
0.0%
주제어
동시 경로
1
0
0.0%
모바일 엑스홀 네트워크
1
0
0.0%
밀리미터파
26
0
0.0%
유닛 탐색
1
0
0.0%
계
36
0
0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수
0
'
밀리미터파 기반 모바일 엑스홀 네트워크에서 부분 빔 측정 기반의 분산 유닛 탐색 및 동시 경로 설정 방식 = A XDU Discovery with Partial Beams and Concurrent Routing Scheme for Mobile xHaul Network based on mmWave Frequency Band' 의 참고문헌
procedures in Idle mode and RRC Inactive state
Release 15[2018]
``Context information for fastCell discovery in mm-wave 5G networks .
[2015]
``Context information based initialCell search for millimeter wave 5GCellular networks . '' 2016 EuropeanConference on Networks andCommunications ( EuCNC )
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``Comparative analysis of initial access techniques in 5G mmWaveCellular networks
[88] 3GPP TS 38.211, “NR; PhysicalChannels and modulation(Release 15), 2018
15[2018]
[87] 3GPP TS 38.300, “NR; NR and NG-RAN Overall Description; Stage 2(Release 15), 2018
2 ( Release 15[2018]
[85] 3GPP R2-1813501,” Report of 3GPP TSG RAN WG2 meeting #103,” 2018.
[60] 3GPP R1-162187, “Wireless relay at mmWave frequency for 5G new radio interface”, Samsung, April 2016.
[59] 3GPP R1-162168, “Support for flexible backhauling for 5G”, Huawei, HiSilicon, April 2016.
[55] http://wireless.engineering.nyu.edu/end-to-end-network-simulation-of-mmwavecellular- systems
[54] http://wireless.engineering.nyu.edu/end-to-end-network-simulation-of-mmwavecellular- systems
[51] 3GPP TR 38.804, Study on new radio access technology Radio interface protocol aspects
[4] H2020 ICT-14-2014, “Advanced 5G Network Infrastructure for the Future Internet”, http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topic s/292-ict-14-2014.html.
[47] 3GPP TR38.901, Study on channel model for frequencies from 0.5 to 100 GHz, June, 2018
[43] R. Congiu, H. Shokri-Ghadikolaei, C. Fischione and F. Santucci, "On the relayfallback tradeoff in millimeter wave wireless system," 2016 IEEE Conference on Computer Communications Waorkshops (INFOCOM WKSHPS), San Francisco, CA, 2016, pp. 622-627.
[42] https://www.nsnam.org/
[22] Antonio de la Oliva, “5G-Crosshaul: The 5G Integrated Fronthaul/Backhaul,” http://5g-crosshaul.eu/, 2015.
[1] Nokia Siemens Networks, 2020: Beyond 4G, Radio Evolution for the Gigabit Experience, Aug. 2011.
[12] 3GPP TR 22.891, Feasibility Study on New Services and Markets Technology Enablers; Stage 1(Release 14), 2016.
Xhaul : toward an integrated fronthaul/backhaul architecture in 5G networks
[2015]
Wireless backhauling of 5G smallCells :Challenges and solution approaches
22.5 (22-31 .[2015]
SystemCapacity enhancement of mmwave based 5g mobileCommunication system . '' 2015 InternationalConference on Information andCommunication TechnologyConvergence ( ICTC
[2015]
Study on new radio access technology Physical layer aspects
Study on new radio access technology : Radio access architecture and interfaces
Study on new radio access technology : Radio Frequency ( RF ) and co-existence aspects
Study on channel model for frequency spectrum above 6 GHz
[2018]
Study on Integrated Access and Backhaul ( Release 16 )
[2018]
Study on Central Unit ( CU ) Distributed Unit ( DU ) lower layer split for NR
Stream Control Transmission Protocol
Steering with Eyes Closed : mm-Wave Beam Steering without In-Band Measurement
[2015]
Slice-tailored joint path selection scheduling in mm-wave smallCell dense networks
Revised definition of requirements and preliminary definition of the iJOIN architecture
Report on SotA and requirements for network-layer algorithms and network operation and management
Relay selection and scheduling for millimeter wave backhaul in urban environments
[2017]
Recommendation ITU-R M.2083-0 , IMT Vision – Framework and overall objectives of the future development of IMT for 2020 and beyond
[2015]
Random access in millimeter-wave beamformingCellular networks : issues and approaches .
53.1 (180-185 .[2015]
Radio resource managementConsiderations for 5G millimeter wave backhaul and access networks
55.6 (86-92 .[2017]
Point-to-multipoint in-band mmwave backhaul for 5G networks .
53.1 (195-201[2015]
Optimal joint routing and scheduling in millimeter-waveCellular networks
[2018]
Obstacle avoidanceCell discovery using mm-waves directive antennas in 5G networks . '' 2015 IEEE 26th Annual International Symposium on Personal , Indoor , and Mobile RadioCommunications ( PIMRC )
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Obstacle avoidanceCell discovery using mm-waves directive antennas in 5G networks .
[2015]
Networks and devices for the 5G era
52.2 (90-96 .[2014]
Network-layer algorithms and network operation and management : candidate technologies specification
[2013]
Multi-connectivity in 5G mmWaveCellular networks
[2016]
Mobile Xhaul evolution : enabling tools for a flexible 5G Xhaul network .
[2018]
Millimeter-wave vehicularCommunication to support massive automotive sensing .
54.12 (160-167 .[2016]
Millimeter-wave beamforming as an enabling technology for 5G cellular communications : Theoretical feasibility and prototype results
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Millimeter-wave access and backhauling : the solution to the exponential data traffic increase in 5G mobileCommunications systems
Internet of things in the 5G era : Enablers , architecture and business models
510-527 .[2016]
Integrated access backhaul in millimeter wave networks
[2017]
Initial beamforming for mmWaveCommunications
[2014]
Initial access in 5G mmWaveCellular networks
54.11 (40-47 .[2016]
Improved handover through dualConnectivity in 5G mmWave mobile networks
2069-2084[2017]
High-speed trainCommunications standardization in 3GPP 5G NR
44-52 .[2018]
Framework and overall objectives of the future development of IMT for 2020 and beyond
[2015]
Final definition of iJOIN architecture
[2015]
Final Definition of iJOIN Requirements and Scenarios
[2014]
FastCell discovery in mm-wave 5G networks withContext information .
1538-1552[2017]
Fast beam discovery for mmWaveCellular networks
[2017]
Evolved Universal Terrestrial Radio Access ( E-UTRA )
[2018]
End-to-end simulation of integrated access and backhaul at mmwaves . '' 2018 IEEE 23rd International Workshop onComputer Aided Modeling and Design ofCommunication Links and Networks (CAMAD )
[2018]
Enabling 5G backhaul and access with millimeter-waves . '' 2014 EuropeanConference on Networks andCommunications ( EuCNC )
[2014]
Dynamic multi-connectivity performance in ultra-dense urban mmWave deployments .
2038-2055 .[2017]
Distributed path selection strategies for integrated access and backhaul at mmWaves
[2018]
DirectionalCell discovery in millimeter waveCellular networks
6664-6678 .[2015]
Directional initial access for millimeter waveCellular systems
[2015]
Channel Dynamics and SNR Tracking in Millimeter Wave Cellular Systems
[2016]
C-RAN : The road towards green RAN
[2011]
Analysis of self-body blocking effects in millimeter waveCellular networks .
[2014]
Analysis of human-body blockage in urban millimeterwaveCellularCommunications
[2016]
Access-integrated backhaul
A tutorial on beam management for 3GPP NR at mmWave frequencies
173-196 .[2018]
A survey of millimeter waveCommunications ( mmWave ) for 5G : opportunities andChallenges
2657-2676[2015]
A 3D human body blockage model for outdoor millimeter-waveCellularCommunication
25 ([2017]
5G-crosshaul network slicing : Enabling multi-tenancy in mobile transport networks .
55.8 (128-137 .[2017]
5G-crosshaul : An SDN/NFV integrated fronthaul/backhaul transport network architecture .
24.1 (38-45 .[2017]
10 Gb/s hetsnets with millimeter-waveCommunications : access and networking-challenges and protocols
53.1 (222-231 .[2015]
'
밀리미터파 기반 모바일 엑스홀 네트워크에서 부분 빔 측정 기반의 분산 유닛 탐색 및 동시 경로 설정 방식 = A XDU Discovery with Partial Beams and Concurrent Routing Scheme for Mobile xHaul Network based on mmWave Frequency Band'
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