Synthesis of Functionalized Carbon Nanotubes
Synthesis of Functionalized Carbon Nanotubes Synthesis of Functionalized Carbon Nanotubes using DNA
https://www.rd.ntt/e/brl/result/activities/file/report04/report08.html
Multi-Stacked InAs/InP Heterostructure Nanowires Grown by Self-Assisted Vapor-Liquid-Solid Mode
CMOS-compatible synthesis approach which produces semiconductor heterostructure NWs with excellent
https://www.rd.ntt/e/brl/result/activities/file/report14/report25E.html
Publications | NTT Basic Research Laboratories | NTT R&D Website
silicon nanowires: synthesis and applications" Biointerface Res. Appl. Chem. 5 (2) 932-936 (2015). K
https://www.rd.ntt/e/brl/result/publications/paper_2015.html
Publications | NTT Basic Research Laboratories | NTT R&D Website
superconductors" Phys. Rev. B 63 (10), 100507 (2001). J. R. Koe, M. Motonaga, M. Fujiki, and R. West "Synthesis
https://www.rd.ntt/e/brl/result/publications/paper_2001.html
Publications | NTT Basic Research Laboratories | NTT R&D Website
for statistical image recognition with image screening" IEICE Trans. Inf. Syst. E81D (1) 88-93 (1998
https://www.rd.ntt/e/brl/result/publications/paper_1998.html
Publications | NTT Basic Research Laboratories | NTT R&D Website
+delta a single crystals" Physica C 341 1873-1874 (2000). M. Fujiki "Synthesis and structure-property
https://www.rd.ntt/e/brl/result/publications/paper_2000.html
Report on the NTT R&D Forum 2018 (Autumn) | NTT R&D Website
green screen by using real-time image extraction technology, transmits simultaneously with positional
https://www.rd.ntt/e/forum/forum2018_autumn.html
Publications | NTT Basic Research Laboratories | NTT R&D Website
. Cryst. Growth98 (4), 646-652 (1989). M. Fujino and H. Isaka "Synthesis Of Organopolysilanes Using A
https://www.rd.ntt/e/brl/result/publications/paper_1989.html
Inclusive Core: Integrative and Cooperative Network Architecture for the 6G/IOWN Era - White paper | NTT R&D Website
information processing such as video synthesis or 3D rendering based on the user’s viewing conditions
https://www.rd.ntt/e/ns/inclusivecore/whitepaper_ver2.html
Inclusive Core: Integrative and Cooperative Network Architecture for the 6G/IOWN Era - White paper | NTT R&D Website
information processing such as video synthesis or 3D rendering based on the user’s viewing conditions
https://www.rd.ntt/e/ns/inclusivecore/whitepaper_ver1.html
Synthesis of Ultrathin Hexagonal Boron Nitride for Tunneling Applications
Synthesis of Ultrathin Hexagonal Boron Nitride for Tunneling Applications Synthesis of Ultrathin
https://www.rd.ntt/e/brl/result/activities/file/report13/report06E.html
Carbon Nanotube Synthesis from Diamond
Carbon Nanotube Synthesis from Diamond Carbon Nanotube Synthesis from Diamond Daisuke Takagi and
https://www.rd.ntt/e/brl/result/activities/file/report09/report09.html
論文|NTT物性科学基礎研究所|NTT R&D Website
. Arimura, and N. Hagita "Feature space design for statistical image recognition with image screening" IEICE
https://www.rd.ntt/brl/result/publications/paper_1998.html
NTT Communication Science Laboratories Open House 2018
generative models Creating favorite images with selective decisions Hierarchical image analysis and synthesis
https://www.rd.ntt/cs/event/openhouse/2018/en_simple/index_en.html
論文|NTT物性科学基礎研究所|NTT R&D Website
. Appl. Phys. 118 (21), 214305 (2015). M. Jouiad, and A. Najar Porous silicon nanowires: synthesis and
https://www.rd.ntt/brl/result/publications/paper_2015.html
論文|NTT物性科学基礎研究所|NTT R&D Website
superconductors" Phys. Rev. B 63 (10), 100507 (2001). J. R. Koe, M. Motonaga, M. Fujiki, and R. West "Synthesis
https://www.rd.ntt/brl/result/publications/paper_2001.html
論文|NTT物性科学基礎研究所|NTT R&D Website
+delta a single crystals" Physica C 341 1873-1874 (2000). M. Fujiki "Synthesis and structure-property
https://www.rd.ntt/brl/result/publications/paper_2000.html
論文|NTT物性科学基礎研究所|NTT R&D Website
Applications To Quantum Well Wires" J. Cryst. Growth 98 (4), 646-652 (1989). M. Fujino and H. Isaka "Synthesis
https://www.rd.ntt/brl/result/publications/paper_1989.html
Major issues and research trends in the evolution of artificial intelligence (AI)|NTT R&D Website
realistic speech synthesis technology, users can enjoy communication as if they were talking with Ms
https://www.rd.ntt/e/ai/0001.html
Program of WASPAA2007
Spatial Analysis-Synthesis Michael M. Goodwin 9:20-9:40 [ML1-2] Real Time Capture of Audio Images and
https://www.rd.ntt/cs/team_project/icl/signal/waspaa2007/program.html
NTT Communication Science Laboratories Open House 2013 Seeing into the mind in the twinkle of a smile - Analyzing expression/perception of interlocutors' empathy -
disorders. Poster Please click the thumbnail image to open the full-size PDF file. Reference S. Kumano, K
https://www.rd.ntt/cs/event/openhouse/2013/exhibition/media4/index_en.html
NTT Communication Science Laboratories Open House 2015
/synthesis framework and has opened the door of today’s mobile and VoIP communication technology. While LPC
https://www.rd.ntt/cs/event/openhouse/2015/exhibition/16/index_en.html
AI|NTT R&D Website
everyday life to industrial fields. AI related R&D themes in NTT Group include image and speech recognition
https://www.rd.ntt/e/ai/
NTT Communication Science Laboratories Open House 2018
Adversarial Image Synthesis with Decision Tree Latent Controller,” in Proc. The 31st IEEE Conference on
https://www.rd.ntt/cs/event/openhouse/2018/exhibition/21/index_en.html
Human Information Science Laboratory | NTT Communication Science Laboratories | NTT R&D Website
Fukiage & Takeshi Oishi (2023). A Content-Adaptive Visibility Predictor for Perceptually Optimized Image
https://www.rd.ntt/e/cs/team_project/human/
NTT Communication Science Laboratories Open House 2018 Program
generative models Creating favorite images with selective decisions Hierarchical image analysis and synthesis
https://www.rd.ntt/cs/event/openhouse/2018/program_en.html
What is Digital Twin Computing?|NTT R&D Website
? Overview of IOWN and Digital Twin Computing Fig. 1. Functional configuration image of the IOWN concept
https://www.rd.ntt/e/iown/0003.html
NTT コミュニケーション科学基礎研究所 オープンハウス2018
, K. Hiramatsu, K. Kashino, “Generative Adversarial Image Synthesis with Decision Tree Latent
https://www.rd.ntt/cs/event/openhouse/2018/exhibition/21/
Recognition Research Group | NTT Communication Science Laboratories | NTT R&D Website
(NeurIPS), 2021. T. Kaneko, "(Invited) Image synthesis and voice conversion using generative adversarial
https://www.rd.ntt/e/cs/team_project/media/recognition/
Media Information Laboratory | NTT Communication Science Laboratories | NTT R&D Website
& Akisato Kimura (2023). Deep Quantigraphic Image Enhancement via Comparametric Equations. Proc. IEEE
https://www.rd.ntt/e/cs/team_project/media/
Media Information Laboratory Past news | NTT Communication Science Laboratories | NTT R&D Website
-resistant variational autoencoder” has been accepted to ISCA Speech Synthesis Workshop (SSW2023). Kou Tanaka
https://www.rd.ntt/e/cs/team_project/media/past_news.html
Dr.Naonori Ueda | NTT R&D Website
Learning for Media Processing," The Institute of Image Information and Television Engineers of Japan, 2014
https://www.rd.ntt/e/organization/researcher/fellow/f_003.html
メディア情報研究部 過去のニュース|NTTコミュニケーション科学基礎研究所|NTT R&D Website
Speech Synthesis Workshop (SSW) に採録されました。 Kou Tanaka, Hirokazu Kameoka, Takuhiro Kaneko, “PRVAE-VC: Non
https://www.rd.ntt/cs/team_project/media/past_news.html
メディア認識研究グループ|NTTコミュニケーション科学基礎研究所|NTT R&D Website
, "(Invited) Image synthesis and voice conversion using generative adversarial networks," in Proc
https://www.rd.ntt/cs/team_project/media/recognition/
メディア情報研究部|NTTコミュニケーション科学基礎研究所|NTT R&D Website
(2023). Deep Quantigraphic Image Enhancement via Comparametric Equations. Proc. IEEE International
https://www.rd.ntt/cs/team_project/media/
人間情報研究部|NTTコミュニケーション科学基礎研究所|NTT R&D Website
& Takeshi Oishi (2023). A Content-Adaptive Visibility Predictor for Perceptually Optimized Image Blending
https://www.rd.ntt/cs/team_project/human/
上田 修功 | NTT R&D Website
-decoder-based image transformation approach for integrating multiple spatial forecasts,"Machine Learning
https://www.rd.ntt/organization/researcher/fellow/f_003.html
Microsoft Word - ñžHˆ,S¤ó¯ëü·Ö³¢Ûï¤ÈÚüÑ_r2.0-r1.1Ùü¹.docx
performing advanced information processing such as video synthesis or 3D rendering based on the user’s
https://www.rd.ntt/e/ns/2023/11/09/InclusiveCore-Whitepaper-v2.1_en.pdf
Microsoft Word - ñžHˆ,S¤ó¯ëü·Ö³¢Ûï¤ÈÚüÑ_r1.1.docx
information processing such as video synthesis or 3D rendering based on the user’s viewing conditions
https://www.rd.ntt/e/ns/2023/11/07/InclusiveCore-Whitepaper en r1.2.pdf
NTTBrl_honbun_E_230228_final.indd
Graphene Front image: The NTT-BRL School’s mission is to foster the development of young researchers and
https://www.rd.ntt/e/brl/result/activities/file/Annual_report_2022_E.pdf
NTTBrl_honbun_E_220301-2.indd
optical information processing chips in the future. Nanophotonics Front image: The NTT-BRL School’s
https://www.rd.ntt/e/brl/result/activities/file/annual_report/Annual_report_2021_E.pdf
Report_15_E.pdf
Cover: Optomechanics Using Excitonic Transitions Schematic image in the middle of the cover
https://www.rd.ntt/e/brl/result/activities/file/report15/Report_15_E.pdf
Report_14_E.pdf
for the first time (See page 45). Microscope image of 128 nanocavities integrated in a silicon chip
https://www.rd.ntt/e/brl/result/activities/file/report14/Report_14_E.pdf
NTT物性科学基礎研究所の研究活動
-microscope image (right) of InAs nanowire FET Ultracold atoms trapped in an optical lattice. Output
https://www.rd.ntt/e/brl/result/activities/file/report13/Report_13_e.pdf
Research Activities
Research Activities Cover photograph: Optical Image of the Blue-Light Electroluminescence from the
https://www.rd.ntt/e/brl/result/activities/file/report11/Report_11.pdf
Research Activities
) 141902.[3] W. K. Burton et al., Phil. Trans. Roy. Soc. A 243 (1951) 299. Fig. 1. AFM image of a growth
https://www.rd.ntt/e/brl/result/activities/file/report10/Report_2010E.pdf
Research Activities
microscopy -Ⅰ- Liquid ordered domains on a GUV (fluorescent image). AFM image and line profile of the domains
https://www.rd.ntt/e/brl/result/activities/file/report09/BRLreport_2009E.pdf
BRLreport_2006E.pdf
-walled Carbon Nanotube Synthesis Using Gold, Silver and Copper Nanoparticle Catalysts ♦ Chemical States
https://www.rd.ntt/e/brl/result/activities/file/report06/BRLreport_2006E.pdf
Microsoft Word - 01_akasaka-E.doc
image Fast control of qubit coherence with phase shift method A superconductor ring with Josephson
https://www.rd.ntt/e/brl/result/activities/file/report04/BRLReports_E.pdf
BRLReports_E.pdf
microscope image DC characteristics AC characteristics (pump operation) Gate-1 Gate-2 Source Drain -1.0 -0.5
https://www.rd.ntt/e/brl/result/activities/file/report02/BRLReports_E.pdf