
Theodore S. Rappaport
Theodore Ted S. Rappaport
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2020 – today
- 2020
- [j69]Arjuna Madanayake
, Renato J. Cintra
, Najath Akram
, Viduneth Ariyarathna
, Soumyajit Mandal
, Vítor de A. Coutinho
, Fábio M. Bayer
, Diego F. G. Coelho
, Theodore S. Rappaport
:
Fast Radix-32 Approximate DFTs for 1024-Beam Digital RF Beamforming. IEEE Access 8: 96613-96627 (2020) - [i52]Ojas Kanhere, Theodore S. Rappaport:
Millimeter Wave Position Location using Multipath Differentiation for 3GPP using Field Measurements. CoRR abs/2009.10202 (2020) - [i51]Aditya Chopra, Andrew Thornburg, Ojas Kanhere, Abbas Termos, Saeed S. Ghassemzadeh, Theodore S. Rappaport:
Real-time Millimeter Wave Omnidirectional Channel Sounder Using Phased Array Antennas. CoRR abs/2009.11093 (2020) - [i50]Shihao Ju, Yunchou Xing, Ojas Kanhere, Theodore S. Rappaport:
3-D Statistical Indoor Channel Model for Millimeter-Wave and Sub-Terahertz Bands. CoRR abs/2009.12971 (2020)
2010 – 2019
- 2019
- [j68]James F. Harvey, Michael B. Steer
, Theodore S. Rappaport:
Exploiting High Millimeter Wave Bands for Military Communications, Applications, and Design. IEEE Access 7: 52350-52359 (2019) - [j67]Theodore S. Rappaport
, Yunchou Xing
, Ojas Kanhere
, Shihao Ju
, Arjuna Madanayake, Soumyajit Mandal, Ahmed Alkhateeb, Georgios C. Trichopoulos:
Wireless Communications and Applications Above 100 GHz: Opportunities and Challenges for 6G and Beyond. IEEE Access 7: 78729-78757 (2019) - [j66]Dacheng Xu, Theodore S. Rappaport:
Construction on teaching evaluation index system of track and field general course for physical education major in light of wireless network technology. J. Intell. Fuzzy Syst. 37(3): 3435-3443 (2019) - [j65]George R. MacCartney
, Theodore S. Rappaport
:
Millimeter-Wave Base Station Diversity for 5G Coordinated Multipoint (CoMP) Applications. IEEE Trans. Wirel. Commun. 18(7): 3395-3410 (2019) - [c77]Shihao Ju, Ojas Kanhere, Yunchou Xing, Theodore S. Rappaport:
A Millimeter-Wave Channel Simulator NYUSIM with Spatial Consistency and Human Blockage. GLOBECOM 2019: 1-6 - [c76]Ojas Kanhere, Shihao Ju, Yunchou Xing, Theodore S. Rappaport:
Map-Assisted Millimeter Wave Localization for Accurate Position Location. GLOBECOM 2019: 1-6 - [c75]Yunchou Xing, Ojas Kanhere, Shihao Ju, Theodore S. Rappaport:
Indoor Wireless Channel Properties at Millimeter Wave and Sub-Terahertz Frequencies. GLOBECOM 2019: 1-6 - [c74]Shihao Ju, Syed Hashim Ali Shah, Muhammad Affan Javed, Jun Li, Girish Palteru, Jyotish Robin, Yunchou Xing, Ojas Kanhere, Theodore S. Rappaport:
Scattering Mechanisms and Modeling for Terahertz Wireless Communications. ICC 2019: 1-7 - [c73]Ting Wu, Theodore S. Rappaport, Michael E. Knox, Davood Shahrjerdi:
A Wideband Sliding Correlator-Based Channel Sounder with Synchronization in 65 nm CMOS. ISCAS 2019: 1-5 - [i49]Shihao Ju, Syed Hashim Ali Shah, Muhammad Affan Javed, Jun Li, Girish Palteru, Jyotish Robin, Yunchou Xing, Ojas Kanhere, Theodore S. Rappaport:
Scattering Mechanisms and Modeling for Terahertz Wireless Communications. CoRR abs/1903.02657 (2019) - [i48]Shihao Ju, Ojas Kanhere, Yunchou Xing, Theodore S. Rappaport:
A Millimeter-Wave Channel Simulator NYUSIM with Spatial Consistency and Human Blockage. CoRR abs/1908.09762 (2019) - [i47]Yunchou Xing, Ojas Kanhere, Shihao Ju, Theodore S. Rappaport:
Indoor Wireless Channel Properties at Millimeter Wave and Sub-Terahertz Frequencies. CoRR abs/1908.09765 (2019) - [i46]Ojas Kanhere, Shihao Ju, Yunchou Xing, Theodore S. Rappaport:
Map-Assisted Millimeter Wave Localization for Accurate Position Location. CoRR abs/1908.09773 (2019) - 2018
- [j64]Marco Mezzavilla
, Michele Polese
, Andrea Zanella
, Aditya Dhananjay, Sundeep Rangan, Coitt Kessler, Theodore S. Rappaport, Michele Zorzi
:
Public Safety Communications above 6 GHz: Challenges and Opportunities. IEEE Access 6: 316-329 (2018) - [j63]Mansoor Shafi, Jianhua Zhang, Harsh Tataria, Andreas F. Molisch, Shu Sun, Theodore S. Rappaport, Fredrik Tufvesson, Shangbin Wu, Koshiro Kitao:
Microwave vs. Millimeter-Wave Propagation Channels: Key Differences and Impact on 5G Cellular Systems. IEEE Commun. Mag. 56(12): 14-20 (2018) - [j62]Bolei Wang, Feifei Gao, Shi Jin, Hai Lin, Geoffrey Ye Li, Shu Sun, Theodore S. Rappaport:
Spatial-Wideband Effect in Massive MIMO with Application in mmWave Systems. IEEE Commun. Mag. 56(12): 134-141 (2018) - [j61]Viduneth Ariyarathna
, Arjuna Madanayake
, Xinyao Tang
, Diego F. G. Coelho
, Renato J. Cintra
, Leonid Belostotski
, Soumyajit Mandal
, Theodore S. Rappaport
:
Analog Approximate-FFT 8/16-Beam Algorithms, Architectures and CMOS Circuits for 5G Beamforming MIMO Transceivers. IEEE J. Emerg. Sel. Topics Circuits Syst. 8(3): 466-479 (2018) - [j60]Sirani M. Perera
, Viduneth Ariyarathna
, Nilan Udayanga, Arjuna Madanayake
, Ge Wu, Leonid Belostotski
, Yingying Wang
, Soumyajit Mandal
, Renato J. Cintra
, Theodore S. Rappaport
:
Wideband N-Beam Arrays Using Low-Complexity Algorithms and Mixed-Signal Integrated Circuits. IEEE J. Sel. Top. Signal Process. 12(2): 368-382 (2018) - [j59]Shu Sun
, Theodore S. Rappaport
, Mansoor Shafi
, Pan Tang
, Jianhua Zhang
, Peter J. Smith
:
Propagation Models and Performance Evaluation for 5G Millimeter-Wave Bands. IEEE Trans. Veh. Technol. 67(9): 8422-8439 (2018) - [j58]Shu Sun
, Theodore S. Rappaport
, Mansoor Shafi
, Harsh Tataria
:
Analytical Framework of Hybrid Beamforming in Multi-Cell Millimeter-Wave Systems. IEEE Trans. Wirel. Commun. 17(11): 7528-7543 (2018) - [c72]Shihao Ju, Theodore S. Rappaport:
Millimeter-Wave Extended NYUSIM Channel Model for Spatial Consistency. GLOBECOM 2018: 1-6 - [c71]Yunchou Xing, Theodore S. Rappaport:
Propagation Measurement System and Approach at 140 GHz-Moving to 6G and Above 100 GHz. GLOBECOM 2018: 1-6 - [c70]Ojas Kanhere, Theodore S. Rappaport:
Position Locationing for Millimeter Wave Systems. GLOBECOM 2018: 206-212 - [c69]Shu Sun, Theodore S. Rappaport, Mansoor Shafi:
Hybrid beamforming for 5G millimeter-wave multi-cell networks. INFOCOM Workshops 2018: 589-596 - [c68]Shihao Ju, Theodore S. Rappaport:
Simulating Motion - Incorporating Spatial Consistency into NYUSIM Channel Model. VTC-Fall 2018: 1-6 - [c67]Yunchou Xing, Ojas Kanhere, Shihao Ju, Theodore S. Rappaport, George R. MacCartney:
Verification and Calibration of Antenna Cross-Polarization Discrimination and Penetration Loss for Millimeter Wave Communications. VTC-Fall 2018: 1-6 - [i45]Shu Sun, Theodore S. Rappaport, Mansoor Shafi:
Hybrid Beamforming for 5G Millimeter-Wave Multi-Cell Networks. CoRR abs/1803.03986 (2018) - [i44]Yunchou Xing, Ojas Kanhere, Shihao Ju, Theodore S. Rappaport, George R. MacCartney Jr.:
Verification and Calibration of Antenna Cross-Polarization Discrimination and Penetration Loss for Millimeter Wave Communications. CoRR abs/1807.04384 (2018) - [i43]Shihao Ju, Theodore S. Rappaport:
Simulating Motion - Incorporating Spatial Consistency into the NYUSIM Channel Model. CoRR abs/1807.04392 (2018) - [i42]Ojas Kanhere, Theodore S. Rappaport:
Position Locationing for Millimeter Wave Systems. CoRR abs/1808.07094 (2018) - [i41]Shihao Ju, Theodore S. Rappaport:
Millimeter-wave Extended NYUSIM Channel Model for Spatial Consistency. CoRR abs/1808.07099 (2018) - [i40]Yunchou Xing, Theodore S. Rappaport:
Propagation Measurement System and Approach at 140 GHz-Moving to 6G and Above 100 GHz. CoRR abs/1808.07594 (2018) - 2017
- [j57]George R. MacCartney
, Theodore S. Rappaport
:
A Flexible Millimeter-Wave Channel Sounder With Absolute Timing. IEEE J. Sel. Areas Commun. 35(6): 1402-1418 (2017) - [j56]George R. MacCartney, Theodore S. Rappaport
:
Rural Macrocell Path Loss Models for Millimeter Wave Wireless Communications. IEEE J. Sel. Areas Commun. 35(7): 1663-1677 (2017) - [j55]Jaswinder Lota
, Shu Sun, Theodore S. Rappaport
, Andreas Demosthenous:
5G Uniform Linear Arrays With Beamforming and Spatial Multiplexing at 28, 37, 64, and 71 GHz for Outdoor Urban Communication: A Two-Level Approach. IEEE Trans. Veh. Technol. 66(11): 9972-9985 (2017) - [j54]Parisa A. Eliasi, Sundeep Rangan
, Theodore S. Rappaport:
Low-Rank Spatial Channel Estimation for Millimeter Wave Cellular Systems. IEEE Trans. Wirel. Commun. 16(5): 2748-2759 (2017) - [c66]George R. MacCartney, Theodore S. Rappaport, Amitava Ghosh:
Base Station Diversity Propagation Measurements at 73 GHz Millimeter-Wave for 5G Coordinated Multipoint (CoMP) Analysis. GLOBECOM Workshops 2017: 1-7 - [c65]George R. MacCartney, Theodore S. Rappaport, Sundeep Rangan:
Rapid Fading Due to Human Blockage in Pedestrian Crowds at 5G Millimeter-Wave Frequencies. GLOBECOM 2017: 1-7 - [c64]George R. MacCartney, Theodore S. Rappaport:
Study on 3GPP rural macrocell path loss models for millimeter wave wireless communications. ICC 2017: 1-7 - [c63]George R. MacCartney, Hangsong Yan, Shu Sun, Theodore S. Rappaport:
A flexible wideband millimeter-wave channel sounder with local area and NLOS to LOS transition measurements. ICC 2017: 1-7 - [c62]Shu Sun, George R. MacCartney, Theodore S. Rappaport
:
A novel millimeter-wave channel simulator and applications for 5G wireless communications. ICC 2017: 1-7 - [c61]Shu Sun, Hangsong Yan, George R. MacCartney, Theodore S. Rappaport:
Millimeter wave small-scale spatial statistics in an urban microcell scenario. ICC 2017: 1-7 - [c60]Shu Sun, Theodore S. Rappaport:
Millimeter Wave MIMO channel estimation based on adaptive compressed sensing. ICC Workshops 2017: 47-53 - [c59]Jacqueline Ryan, George R. MacCartney, Theodore S. Rappaport:
Indoor office wideband penetration loss measurements at 73 GHz. ICC Workshops 2017: 228-233 - [c58]Yu Wang, Shiwen Mao, Theodore S. Rappaport:
On Directional Neighbor Discovery in mmWave Networks. ICDCS 2017: 1704-1713 - [c57]Theodore S. Rappaport, Shu Sun, Mansoor Shafi:
Investigation and Comparison of 3GPP and NYUSIM Channel Models for 5G Wireless Communications. VTC-Fall 2017: 1-5 - [i39]Christopher Robert Anderson, Theodore S. Rappaport:
In-Building Wideband Partition Loss Measurements at 2.5 GHz and 60 GHz. CoRR abs/1701.03415 (2017) - [i38]Jacqueline Ryan, George R. MacCartney Jr., Theodore S. Rappaport:
Indoor Office Wideband Penetration Loss Measurements at 73 GHz. CoRR abs/1703.08030 (2017) - [i37]George R. MacCartney Jr., Hangsong Yan, Shu Sun, Theodore S. Rappaport:
A Flexible Wideband Millimeter-Wave Channel Sounder with Local Area and NLOS to LOS Transition Measurements. CoRR abs/1703.08043 (2017) - [i36]Shu Sun, Theodore S. Rappaport:
Millimeter Wave MIMO Channel Estimation Based on Adaptive Compressed Sensing. CoRR abs/1703.08227 (2017) - [i35]Shu Sun, George R. MacCartney Jr., Theodore S. Rappaport:
A Novel Millimeter-Wave Channel Simulator and Applications for 5G Wireless Communications. CoRR abs/1703.08232 (2017) - [i34]Shu Sun, Hangsong Yan, George R. MacCartney Jr., Theodore S. Rappaport:
Millimeter Wave Small-Scale Spatial Statistics in an Urban Microcell Scenario. CoRR abs/1703.08239 (2017) - [i33]George R. MacCartney Jr., Theodore S. Rappaport:
Study on 3GPP Rural Macrocell Path Loss Models for Millimeter Wave Wireless Communications. CoRR abs/1703.10300 (2017) - [i32]Theodore S. Rappaport, Shu Sun, Mansoor Shafi:
Investigation and Comparison of 3GPP and NYUSIM Channel Models for 5G Wireless Communications. CoRR abs/1707.00291 (2017) - [i31]Theodore S. Rappaport, George R. MacCartney Jr., Shu Sun, Hangsong Yan, Sijia Deng:
Small-Scale, Local Area, and Transitional Millimeter Wave Propagation for 5G Communications. CoRR abs/1707.07816 (2017) - [i30]Theodore S. Rappaport, Yunchou Xing, George R. MacCartney Jr., Andreas F. Molisch, Evangelos Mellios, Jianhua Zhang:
Overview of Millimeter Wave Communications for Fifth-Generation (5G) Wireless Networks-with a focus on Propagation Models. CoRR abs/1708.02557 (2017) - [i29]George R. MacCartney Jr., Theodore S. Rappaport, Sundeep Rangan:
Rapid Fading Due to Human Blockage in Pedestrian Crowds at 5G Millimeter-Wave Frequencies. CoRR abs/1709.05883 (2017) - [i28]George R. MacCartney Jr., Theodore S. Rappaport, Amitava Ghosh:
Base Station Diversity Propagation Measurements at 73 GHz Millimeter-Wave for 5G Coordinated Multipoint (CoMP) Analysis. CoRR abs/1710.03626 (2017) - 2016
- [j53]Sooyoung Hur, Sangkyu Baek, Byungchul Kim, Youngbin Chang, Andreas F. Molisch, Theodore S. Rappaport
, Katsuyuki Haneda, Jeongho Park:
Proposal on Millimeter-Wave Channel Modeling for 5G Cellular System. IEEE J. Sel. Top. Signal Process. 10(3): 454-469 (2016) - [j52]Shu Sun, Theodore S. Rappaport
, Timothy A. Thomas, Amitava Ghosh, Huan Cong Nguyen
, István Z. Kovács, Ignacio Rodriguez
, Ozge H. Koymen, Andrzej Partyka:
Investigation of Prediction Accuracy, Sensitivity, and Parameter Stability of Large-Scale Propagation Path Loss Models for 5G Wireless Communications. IEEE Trans. Veh. Technol. 65(5): 2843-2860 (2016) - [j51]Ahmed Iyanda Sulyman
, Abdulmalik Alwarafy, George R. MacCartney, Theodore S. Rappaport
, Abdulhameed Alsanie:
Directional Radio Propagation Path Loss Models for Millimeter-Wave Wireless Networks in the 28-, 60-, and 73-GHz Bands. IEEE Trans. Wirel. Commun. 15(10): 6939-6947 (2016) - [c56]Sijia Deng, George R. MacCartney, Theodore S. Rappaport:
Indoor and Outdoor 5G Diffraction Measurements and Models at 10, 20, and 26 GHz. GLOBECOM 2016: 1-7 - [c55]Katsuyuki Haneda, Lei Tian, Henrik Asplund, Jian Li, Yi Wang, David Steer, Clara Li, Tommaso Balercia, Sunguk Lee, YoungSuk Kim, Amitava Ghosh, Timothy A. Thomas, Takehiro Nakamura, Yuichi Kakishima, Tetsuro Imai, Haralabos C. Papadopoulos, Theodore S. Rappaport
, George R. MacCartney, Mathew K. Samimi, Shu Sun, Ozge H. Koymen, Sooyoung Hur, Jeongho Park, Jianzhong Zhang, Evangelos Mellios, Andreas F. Molisch, Saeed S. Ghassamzadeh, Arun Ghosh:
Indoor 5G 3GPP-like channel models for office and shopping mall environments. ICC Workshops 2016: 694-699 - [c54]George R. MacCartney Jr., Shu Sun, Theodore S. Rappaport, Yunchou Xing, Hangsong Yan, Jeton Koka, Ruichen Wang, Dian Yu:
Millimeter wave wireless communications: new results for rural connectivity. ATC@MobiCom 2016: 31-36 - [c53]Katsuyuki Haneda, Lei Tan, Yi Zheng, Henrik Asplund, Jian Li, Yi Wang, David Steer, Clara Li, Tommaso Balercia, Sunguk Lee, YoungSuk Kim, Amitava Ghosh, Timothy A. Thomas, Takehiro Nakamura, Yuichi Kakishima, Tetsuro Imai, Haralabos C. Papadopoulos, Theodore S. Rappaport
, George R. MacCartney, Mathew K. Samimi, Shu Sun, Ozge H. Koymen, Sooyoung Hur, Jeongho Park, Jianzhong Charlie Zhang, Evangelos Mellios, Andreas F. Molisch, Saeed S. Ghassamzadeh, Arun Ghosh:
5G 3GPP-Like Channel Models for Outdoor Urban Microcellular and Macrocellular Environments. VTC Spring 2016: 1-7 - [c52]George R. MacCartney, Sijia Deng, Theodore S. Rappaport:
Indoor Office Plan Environment and Layout-Based mmWave Path Loss Models for 28 GHz and 73 GHz. VTC Spring 2016: 1-6 - [c51]George R. MacCartney, Sijia Deng, Shu Sun, Theodore S. Rappaport
:
Millimeter-Wave Human Blockage at 73 GHz with a Simple Double Knife-Edge Diffraction Model and Extension for Directional Antennas. VTC Fall 2016: 1-6 - [c50]Mathew K. Samimi, George R. MacCartney, Shu Sun, Theodore S. Rappaport
:
28 GHz Millimeter-Wave Ultrawideband Small-Scale Fading Models in Wireless Channels. VTC Spring 2016: 1-6 - [c49]Shu Sun, Theodore S. Rappaport
, Sundeep Rangan, Timothy A. Thomas, Amitava Ghosh, István Z. Kovács, Ignacio Rodriguez
, Ozge H. Koymen, Andrzej Partyka, Jan Jarvelainen:
Propagation Path Loss Models for 5G Urban Micro- and Macro-Cellular Scenarios. VTC Spring 2016: 1-6 - [c48]Timothy A. Thomas, Marcin Rybakowski, Shu Sun, Theodore S. Rappaport, Huan Nguyen
, István Z. Kovács, Ignacio Rodriguez
:
A Prediction Study of Path Loss Models from 2-73.5 GHz in an Urban-Macro Environment. VTC Spring 2016: 1-5 - [i27]Katsuyuki Haneda, Lei Tian, Yi Zheng, Henrik Asplund, Jian Li, Yi Wang, David Steer, Clara Li, Tommaso Balercia, Sunguk Lee, YoungSuk Kim, Amitava Ghosh, Timothy A. Thomas, Takehiro Nakamura, Yuichi Kakishima, Tetsuro Imai, Haralabos C. Papadopoulos, Theodore S. Rappaport, George R. MacCartney Jr., Mathew K. Samimi, Shu Sun, Ozge H. Koymen, Sooyoung Hur, Jeongho Park, Jianzhong Charlie Zhang, Evangelos Mellios, Andreas F. Molisch, Saeed S. Ghassamzadah, Arun Ghosh:
5G 3GPP-like Channel Models for Outdoor Urban Microcellular and Macrocellular Environments. CoRR abs/1602.07533 (2016) - [i26]Katsuyuki Haneda, Lei Tian, Henrik Asplund, Jian Li, Yi Wang, David Steer, Clara Li, Tommaso Balercia, Sunguk Lee, YoungSuk Kim, Amitava Ghosh, Timothy A. Thomas, Takehiro Nakamura, Yuichi Kakishima, Tetsuro Imai, Haralabos C. Papadopoulos, Theodore S. Rappaport, George R. MacCartney Jr., Mathew K. Samimi, Shu Sun, Ozge H. Koymen, Sooyoung Hur, Jeongho Park, Jianzhong Charlie Zhang, Evangelos Mellios, Andreas F. Molisch, Saeed S. Ghassamzadah, Arun Ghosh:
Indoor 5G 3GPP-like Channel Models for Office and Shopping Mall Environments. CoRR abs/1603.04079 (2016) - [i25]Shu Sun, Theodore S. Rappaport, Timothy A. Thomas, Amitava Ghosh, Huan Nguyen, István Z. Kovács, Ignacio Rodriguez, Ozge H. Koymen, Andrzej Partyka:
Investigation of Prediction Accuracy, Sensitivity, and Parameter Stability of Large-Scale Propagation Path Loss Models for 5G Wireless Communications. CoRR abs/1603.04404 (2016) - [i24]George R. MacCartney Jr., Sijia Deng, Shu Sun, Theodore S. Rappaport:
Millimeter-Wave Human Blockage at 73 GHz with a Simple Double Knife-Edge Diffraction Model and Extension for Directional Antennas. CoRR abs/1607.00226 (2016) - [i23]George R. MacCartney Jr., Shu Sun, Theodore S. Rappaport, Yunchou Xing, Hangsong Yan, Jeton Koka, Ruichen Wang, Dian Yu:
Millimeter Wave Wireless Communications: New Results for Rural Connectivity. CoRR abs/1608.05384 (2016) - 2015
- [j50]Zhifeng He, Shiwen Mao
, Theodore Ted S. Rappaport:
On Link Scheduling Under Blockage and Interference in 60-GHz Ad Hoc Networks. IEEE Access 3: 1437-1449 (2015) - [j49]George R. MacCartney, Theodore S. Rappaport
, Mathew K. Samimi, Shu Sun:
Millimeter-Wave Omnidirectional Path Loss Data for Small Cell 5G Channel Modeling. IEEE Access 3: 1573-1580 (2015) - [j48]George R. MacCartney, Theodore S. Rappaport
, Shu Sun, Sijia Deng:
Indoor Office Wideband Millimeter-Wave Propagation Measurements and Channel Models at 28 and 73 GHz for Ultra-Dense 5G Wireless Networks. IEEE Access 3: 2388-2424 (2015) - [j47]In Keun Son, Shiwen Mao, Yihan Li, Min Chen
, Michelle X. Gong, Theodore Ted S. Rappaport:
Frame-Based Medium Access Control for 5G Wireless Networks. Mob. Networks Appl. 20(6): 763-772 (2015) - [j46]Theodore S. Rappaport
, George R. MacCartney, Mathew K. Samimi, Shu Sun:
Wideband Millimeter-Wave Propagation Measurements and Channel Models for Future Wireless Communication System Design. IEEE Trans. Commun. 63(9): 3029-3056 (2015) - [j45]C. Nicolas Barati, S. Amir Hosseini, Sundeep Rangan, Pei Liu, Thanasis Korakis, Shivendra S. Panwar, Theodore S. Rappaport
:
Directional Cell Discovery in Millimeter Wave Cellular Networks. IEEE Trans. Wirel. Commun. 14(12): 6664-6678 (2015) - [j44]Mathew K. Samimi, Theodore S. Rappaport
, George R. MacCartney:
Probabilistic Omnidirectional Path Loss Models for Millimeter-Wave Outdoor Communications. IEEE Wirel. Commun. Lett. 4(4): 357-360 (2015) - [c47]Mathew K. Samimi, Theodore S. Rappaport
:
Statistical Channel Model with Multi-Frequency and Arbitrary Antenna Beamwidth for Millimeter-Wave Outdoor Communications. GLOBECOM Workshops 2015: 1-7 - [c46]Shu Sun, George R. MacCartney, Mathew K. Samimi, Theodore S. Rappaport
:
Synthesizing Omnidirectional Antenna Patterns, Received Power and Path Loss from Directional Antennas for 5G Millimeter-Wave Communications. GLOBECOM 2015: 1-7 - [c45]Shu Sun, Timothy A. Thomas, Theodore S. Rappaport
, Huan Nguyen, István Z. Kovács, Ignacio Rodriguez
:
Path Loss, Shadow Fading, and Line-of-Sight Probability Models for 5G Urban Macro-Cellular Scenarios. GLOBECOM Workshops 2015: 1-7 - [c44]Theodore S. Rappaport, Sijia Deng:
73 GHz wideband millimeter-wave foliage and ground reflection measurements and models. ICC Workshops 2015: 1238-1243 - [c43]Sijia Deng, Mathew K. Samimi, Theodore S. Rappaport
:
28 GHz and 73 GHz millimeter-wave indoor propagation measurements and path loss models. ICC Workshops 2015: 1244-1250 - [c42]George R. MacCartney, Mathew K. Samimi, Theodore S. Rappaport
:
Exploiting directionality for millimeter-wave wireless system improvement. ICC 2015: 2416-2422 - [c41]Ting Wu, Theodore S. Rappaport
, Christopher M. Collins:
The human body and millimeter-wave wireless communication systems: Interactions and implications. ICC 2015: 2423-2429 - [c40]Mathew K. Samimi, Theodore S. Rappaport
:
3-D statistical channel model for millimeter-wave outdoor mobile broadband communications. ICC 2015: 2430-2436 - [c39]Shu Sun, Theodore S. Rappaport, Timothy A. Thomas, Amitava Ghosh:
A preliminary 3D mm wave indoor office channel model. ICNC 2015: 26-31 - [c38]Qian (Clara) Li, Hooman Shirani-Mehr, Tommaso Balercia, Apostolos Papathanassiou, Geng Wu, Shu Sun, Mathew K. Samimi, Theodore S. Rappaport:
Validation of a Geometry-Based Statistical mmWave Channel Model Using Ray-Tracing Simulation. VTC Spring 2015: 1-5 - [c37]Zhifeng He, Shiwen Mao, Theodore Ted S. Rappaport:
Minimum time length link scheduling under blockage and interference in 60GHz networks. WCNC 2015: 837-842 - [i22]George R. MacCartney, Mathew K. Samimi, Theodore S. Rappaport:
Exploiting Directionality for Millimeter-Wave Wireless System Improvement. CoRR abs/1503.05265 (2015) - [i21]Mathew K. Samimi, Theodore S. Rappaport:
3-D Statistical Channel Model for Millimeter-Wave Outdoor Mobile Broadband Communications. CoRR abs/1503.05619 (2015) - [i20]Ting Wu, Theodore S. Rappaport, Christopher M. Collins:
The Human Body and Millimeter-Wave Wireless Communication Systems: Interactions and Implications. CoRR abs/1503.05944 (2015) - [i19]Mathew K. Samimi, Theodore S. Rappaport, George R. MacCartney:
Probabilistic Omnidirectional Path Loss Models for Millimeter-Wave Outdoor Communications. CoRR abs/1503.07612 (2015) - [i18]Sijia Deng, Mathew K. Samimi, Theodore S. Rappaport:
28 GHz and 73 GHz Millimeter-Wave Indoor Propagation Measurements and Path Loss Models. CoRR abs/1509.00395 (2015) - [i17]Theodore S. Rappaport, Sijia Deng:
73 GHz Wideband Millimeter-Wave Foliage and Ground Reflection Measurements and Models. CoRR abs/1509.00436 (2015) - [i16]Mathew K. Samimi, Theodore S. Rappaport:
3-D Statistical Channel Model for Millimeter-Wave Outdoor Communications. CoRR abs/1510.03081 (2015) - [i15]Mathew K. Samimi, Theodore S. Rappaport:
28 GHz Millimeter-Wave Ultrawideband Small-Scale Fading Models in Wireless Channels. CoRR abs/1511.06938 (2015) - [i14]Mathew K. Samimi, Shu Sun, Theodore S. Rappaport:
MIMO Channel Modeling and Capacity Analysis for 5G Millimeter-Wave Wireless Systems. CoRR abs/1511.06940 (2015) - [i13]Mathew K. Samimi, Theodore S. Rappaport:
Local Multipath Model Parameters for Generating 5G Millimeter-Wave 3GPP-like Channel Impulse Response. CoRR abs/1511.06941 (2015) - [i12]Sijia Deng, George R. MacCartney Jr., Theodore S. Rappaport:
Indoor Office Plan Environment and Layout-Based MmWave Path Loss Models for 28 GHz and 73 GHz. CoRR abs/1511.07057 (2015) - [i11]Shu Sun, George R. MacCartney Jr., Mathew K. Samimi, Theodore S. Rappaport:
Synthesizing Omnidirectional Antenna Patterns, Received Power and Path Loss from Directional Antennas for 5G Millimeter-Wave Communications. CoRR abs/1511.07271 (2015) - [i10]Shu Sun, Theodore S. Rappaport, Sundeep Rangan, Timothy A. Thomas, Amitava Ghosh, István Z. Kovács, Ignacio Rodriguez, Ozge H. Koymen, Andrzej Partyka, Jan Jarvelainen:
Propagation Path Loss Models for 5G Urban Micro- and Macro-Cellular Scenarios. CoRR abs/1511.07311 (2015) - [i9]Shu Sun, George R. MacCartney Jr., Theodore S. Rappaport:
Millimeter-Wave Distance-Dependent Large-Scale Propagation Measurements and Path Loss Models for Outdoor and Indoor 5G Systems. CoRR abs/1511.07345 (2015) - [i8]Shu Sun, Timothy A. Thomas, Theodore S. Rappaport, Huan Nguyen, István Z. Kovács, Ignacio Rodriguez:
Path Loss, Shadow Fading, and Line-Of-Sight Probability Models for 5G Urban Macro-Cellular Scenarios. CoRR abs/1511.07374 (2015) - [i7]Timothy A. Thomas, Marcin Rybakowski, Shu Sun, Theodore S. Rappaport, Huan Nguyen, István Z. Kovács, Ignacio Rodriguez:
A Prediction Study of Path Loss Models from 2-73.5 GHz in an Urban-Macro Environment. CoRR abs/1512.01585 (2015) - 2014
- [j43]Ahmed Iyanda Sulyman, Almuthanna Turki Nassar, Mathew K. Samimi, George R. MacCartney, Theodore S. Rappaport, Abdulhameed Alsanie:
Radio propagation path loss models for 5G cellular networks in the 28 GHZ and 38 GHZ millimeter-wave bands. IEEE Commun. Mag. 52(9): 78-86 (2014) - [j42]Shu Sun, Theodore S. Rappaport
, Robert W. Heath Jr.
, Andrew R. Nix, Sundeep Rangan:
Mimo for millimeter-wave wireless communications: beamforming, spatial multiplexing, or both? IEEE Commun. Mag. 52(12): 110-121 (2014) - [j41]James Murdock, Theodore S. Rappaport:
Consumption Factor and Power-Efficiency Factor: A Theory for Evaluating the Energy Efficiency of Cascaded Communication Systems. IEEE J. Sel. Areas Commun. 32(2): 221-236 (2014) - [j40]Amitava Ghosh, Timothy A. Thomas, Mark Cudak, Rapeepat Ratasuk, Prakash Moorut, Frederick W. Vook, Theodore S. Rappaport
, George R. MacCartney, Shu Sun, Shuai Nie
:
Millimeter-Wave Enhanced Local Area Systems: A High-Data-Rate Approach for Future Wireless Networks. IEEE J. Sel. Areas Commun. 32(6): 1152-1163 (2014) - [j39]Mustafa Riza Akdeniz, Yuanpeng Liu, Mathew K. Samimi, Shu Sun, Sundeep Rangan, Theodore S. Rappaport
, Elza Erkip
:
Millimeter Wave Channel Modeling and Cellular Capacity Evaluation. IEEE J. Sel. Areas Commun. 32(6): 1164-1179 (2014) - [j38]Ansuman Adhikary, Ebrahim Al Safadi, Mathew K. Samimi, Rui Wang, Giuseppe Caire, Theodore S. Rappaport
, Andreas F. Molisch:
Joint Spatial Division and Multiplexing for mm-Wave Channels. IEEE J. Sel. Areas Commun. 32(6): 1239-1255 (2014) - [j37]Sundeep Rangan, Theodore S. Rappaport
, Elza Erkip
:
Millimeter-Wave Cellular Wireless Networks: Potentials and Challenges. Proc. IEEE 102(3): 366-385 (2014) - [c36]Qian (Clara) Li, Geng Wu, Theodore S. Rappaport:
Channel model for millimeter-wave communications based on geometry statistics. GLOBECOM Workshops 2014: 427-432 - [c35]Mathew K. Samimi, Theodore S. Rappaport
:
Ultra-wideband statistical channel model for non line of sight millimeter-wave urban channels. GLOBECOM 2014: 3483-3489 - [c34]Shuai Nie
, George R. MacCartney, Shu Sun,