D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering D-index 31 Citations 8,111 142 World Ranking 3260 National Ranking 138

Overview

What is he best known for?

The fields of study he is best known for:

  • Computer network
  • Telecommunications
  • Optical fiber

His primary areas of study are Optical path, Computer network, Optics, Optical fiber and Optical Transport Network. The Optical path study combines topics in areas such as Modulation, Link adaptation, Electronic engineering, Optical communication and Orthogonal frequency-division multiplexing. His study looks at the relationship between Optical communication and fields such as Bandwidth, as well as how they intersect with chemical problems.

His research investigates the link between Orthogonal frequency-division multiplexing and topics such as Wavelength-division multiplexing that cross with problems in The Internet, Gigabit and Telecommunications. His work is dedicated to discovering how Computer network, Optical networking are connected with Bandwidth and other disciplines. Optical Transport Network is a primary field of his research addressed under Optical performance monitoring.

His most cited work include:

  • Spectrum-efficient and scalable elastic optical path network: architecture, benefits, and enabling technologies (1219 citations)
  • Elastic optical networking: a new dawn for the optical layer? (1142 citations)
  • Distance-adaptive spectrum resource allocation in spectrum-sliced elastic optical path network [Topics in Optical Communications] (663 citations)

What are the main themes of his work throughout his whole career to date?

Masahiko Jinno mainly focuses on Electronic engineering, Computer network, Wavelength-division multiplexing, Optics and Optical switch. His study focuses on the intersection of Electronic engineering and fields such as Optical performance monitoring with connections in the field of Telecommunications and Optical IP Switching. His Computer network study combines topics in areas such as Optical Transport Network, Optical networking, Distributed computing and Optical path.

His studies examine the connections between Optical path and genetics, as well as such issues in Orthogonal frequency-division multiplexing, with regards to Routing. His study in Wavelength-division multiplexing is interdisciplinary in nature, drawing from both Transmission, Communication channel, Gigabit and Optical amplifier. His Optical switch research is multidisciplinary, relying on both Computer architecture, Optical cross-connect, Optical communication, Bit error rate and Node.

He most often published in these fields:

  • Electronic engineering (28.81%)
  • Computer network (27.54%)
  • Wavelength-division multiplexing (24.58%)

What were the highlights of his more recent work (between 2017-2021)?

  • Communication channel (11.02%)
  • Wavelength-division multiplexing (24.58%)
  • Electronic engineering (28.81%)

In recent papers he was focusing on the following fields of study:

Masahiko Jinno mostly deals with Communication channel, Wavelength-division multiplexing, Electronic engineering, Optical switch and Digital cross connect system. His work deals with themes such as Node, Computer network, Computer hardware and Core, which intersect with Communication channel. In general Computer network, his work in Survivability is often linked to Distribution linking many areas of study.

The various areas that Masahiko Jinno examines in his Wavelength-division multiplexing study include Multiplexing, Topology, Computer architecture and Optical amplifier. His study in Electronic engineering is interdisciplinary in nature, drawing from both Signal, Transceiver and Modulation. Masahiko Jinno has included themes like Optical fiber and Optical polarization in his Optical switch study.

Between 2017 and 2021, his most popular works were:

  • Spatial channel network (SCN): Opportunities and challenges of introducing spatial bypass toward the massive SDM era [invited] (24 citations)
  • Spatial Channel Network (SCN) Architecture Employing Growable and Reliable Spatial Channel Cross-Connects Toward Massive SDM Era (17 citations)
  • Added Value of Introducing Spatial Bypass into WDM/SDM Networks: Gaussian-Noise Model Analysis for Spatially-Bypassed and Spectrally-Groomed Optical Channels (10 citations)

In his most recent research, the most cited papers focused on:

  • Telecommunications
  • Computer network
  • Optical fiber

Masahiko Jinno focuses on Communication channel, Wavelength-division multiplexing, Digital cross connect system, Channel network and Computer architecture. His Communication channel research is multidisciplinary, incorporating perspectives in Multiplexer, Computer hardware and Core. His research integrates issues of Gaussian noise and Topology in his study of Wavelength-division multiplexing.

His Digital cross connect system study integrates concerns from other disciplines, such as Node and Computer network. His work on Optical switch expands to the thematically related Computer architecture. Masahiko Jinno interconnects Network architecture, Peta-, Proof of concept, Multicore fiber and Multiplexing in the investigation of issues within Optical switch.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Spectrum-efficient and scalable elastic optical path network: architecture, benefits, and enabling technologies

M. Jinno;H. Takara;B. Kozicki;Y. Tsukishima.
IEEE Communications Magazine (2009)

1595 Citations

Elastic optical networking: a new dawn for the optical layer?

O. Gerstel;M. Jinno;A. Lord;S. J. B. Yoo.
IEEE Communications Magazine (2012)

1512 Citations

Distance-adaptive spectrum resource allocation in spectrum-sliced elastic optical path network [Topics in Optical Communications]

M Jinno;B Kozicki;H Takara;A Watanabe.
IEEE Communications Magazine (2010)

846 Citations

Multiflow optical transponder for efficient multilayer optical networking

M. Jinno;H. Takara;Y. Sone;K. Yonenaga.
IEEE Communications Magazine (2012)

219 Citations

Disruption minimized spectrum defragmentation in elastic optical path networks that adopt distance adaptive modulation

Tatsumi Takagi;Hiroshi Hasegawa;Ken-ichi Sato;Yoshiaki Sone.
european conference on optical communication (2011)

181 Citations

Demonstration of novel spectrum-efficient elastic optical path network with per-channel variable capacity of 40 Gb/s to over 400 Gb/s

M. Jinno;H. Takara;B. Kozicki;Y. Tsukishima.
european conference on optical communication (2008)

180 Citations

Nonlinear Sagnac interferometer switch and its applications

M. Jinno;T. Matsumoto.
IEEE Journal of Quantum Electronics (1992)

175 Citations

Dynamic routing and frequency slot assignment for elastic optical path networks that adopt distance adaptive modulation

T. Takagi;H. Hasegawa;K. Sato;Y. Sone.
optical fiber communication conference (2011)

171 Citations

Bandwidth Squeezed Restoration in Spectrum-Sliced Elastic Optical Path Networks (SLICE)

Y Sone;A Watanabe;W Imajuku;Y Tsukishima.
IEEE/OSA Journal of Optical Communications and Networking (2011)

164 Citations

Spectrally and spatially flexible optical network planning and operations

Dimitrios Klonidis;Filippo Cugini;Ori Gerstel;Masahiko Jinno.
IEEE Communications Magazine (2015)

160 Citations

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Best Scientists Citing Masahiko Jinno

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