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[Keyword] photonic switching(21hit)

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  • Wide-Sense Nonblocking W-S-W Node Architectures for Elastic Optical Networks

    Wojciech KABACIŃSKI  Mustafa ABDULSAHIB  Marek MICHALSKI  

     
    PAPER

      Pubricized:
    2018/11/22
      Vol:
    E102-B No:5
      Page(s):
    978-991

    This paper considers wide-sense nonblocking operation of the Wavelength-Space-Wavelength elastic optical switch. Six control algorithms, based on functional spectrum decomposition in interstage links and functional decomposition of center stage switches, are proposed for two switching fabric architectures. For these algorithms we derived wide-sense nonblocking conditions and compared them with strict-sense nonblocking ones. The results show that the proposed algorithm reduces the required number of frequency slot units (FSUs) or center stage switches, depending on the switching fabric architecture. Savings occur even when connections use small number of frequency slot units.

  • Experimental Analysis on GMPLS-Based Photonic Switching Networks

    Michiaki HAYASHI  Tomohiro OTANI  Hideaki TANAKA  Masatoshi SUZUKI  

     
    PAPER

      Vol:
    E86-B No:8
      Page(s):
    2327-2333

    Implementation issues on generalized multi-protocol label switching (GMPLS) -based photonic switching networks are experimentally analyzed. A resilient control plane architecture using in-fiber and out-of-fiber control channels is proposed to resolve issues of establishing the control plane in out-of-band networks. The resilient control plane is demonstrated in a photonic cross-connect (PXC) -based GMPLS network involving a 1,000 km transmission line. Fast signaling for provisioning and restoration operation is accomplished by implementing in-fiber control channels as primary, and the out-of-fiber control channels effectively operate as secondary and restore messaging of the control information between neighbors. The control channel protection is initiated by the link management protocol (LMP). Using the test bed, optical layer routing operation is investigated to assess the effects on the signal quality of wavelength paths, and transparent routing of the wavelength paths over one-hop and two-hops route is demonstrated within 1 dB difference regarding the Q factor. Stable operation of loss of light (LOL) -triggered restoration is demonstrated by setting the optical level threshold 5 dB higher than the amplified spontaneous emission (ASE) noise level.

  • A High-Performance Switch Architecture for Free-Space Photonic Switching Systems

    Shigeo URUSHIDANI  Masayasu YAMAGUCHI  Tsuyoshi YAMAMOTO  

     
    PAPER-Circuit Switching and Cross-Connecting

      Vol:
    E82-B No:2
      Page(s):
    298-305

    Design and evaluation of a high-performance switch architecture for free-space photonic switching systems is described. The switch is constructed of 22 switching elements and employs special multistage interconnection patterns. The connection setup algorithm and the control procedure at the switching elements are based on a "rerouting algorithm." Performance analysis shows that the blocking probability of the switch is easily controlled by increasing the number of switching stages. Example implementations of this switch are shown in which birefringent plates, polarization controllers, etc. are used.

  • Feasibility Demonstrations of Hyper-Media Photonic Information Networks Using Prototype WDM Broadcast-and-Select Local Network Systems

    Masanori OGAWARA  Atsushi HIRAMATSU  Jun NISHIKIDO  Masayuki YANAGIYA  Masato TSUKADA  Ken-ichi YUKIMATSU  

     
    PAPER-Circuit Switching and Cross-Connecting

      Vol:
    E82-B No:2
      Page(s):
    317-325

    This paper describes the implementation and demonstration of local networks for the hyper-media photonic information network (HM-PIN), a candidate for the information service platform offering broadcast and telecommunication services. In addition, the feasibility of the HM-PIN is also demonstrated using prototype local network systems. This local network adopts architecture based on wavelength-division-multiplexing (WDM) and broadcast-and-select (B&S) switching, and supports all HM-PIN services except inter-local-network communication. The major issues of this proposed network are the technologies that support many broadcast channels and reduce channel selection cost. This paper also considers the combination of WDM technology and three alternatives: electrical TDM, subcarrier multiplexing (SCM or electrical FDM), and optical TDM (O-TDM). Three 128 ch (8 wavelengths 16 channels) WDM B&S prototype systems are built to demonstrate the feasibility of the proposed HM-PIN. In WDM/SCM, 30 and 20 Mb/s channels are realized as 16-QAM and 64-QAM, and 155 Mb/s channels are realized by WDM/TDM. Moreover, these three prototypes were connected to form a small HM-PIN and applications such as video distribution and IP datagram cut-through are demonstrated. Furthermore, the delay and throughput of the HM-PIN are evaluated by connecting a local network to a 200-km WDM-ring backbone network. Our discussions and demonstrations confirm the impact and feasibility of the proposed hyper-media photonic information network.

  • A High-Performance Switch Architecture for Free-Space Photonic Switching Systems

    Shigeo URUSHIDANI  Masayasu YAMAGUCHI  Tsuyoshi YAMAMOTO  

     
    PAPER-Circuit Switching and Cross-Connecting

      Vol:
    E82-C No:2
      Page(s):
    246-253

    Design and evaluation of a high-performance switch architecture for free-space photonic switching systems is described. The switch is constructed of 22 switching elements and employs special multistage interconnection patterns. The connection setup algorithm and the control procedure at the switching elements are based on a "rerouting algorithm."" Performance analysis shows that the blocking probability of the switch is easily controlled by increasing the number of switching stages. Example implementations of this switch are shown in which birefringent plates, polarization controllers, etc. are used.

  • Feasibility Demonstrations of Hyper-Media Photonic Information Networks Using Prototype WDM Broadcast-and-Select Local Network Systems

    Masanori OGAWARA  Atsushi HIRAMATSU  Jun NISHIKIDO  Masayuki YANAGIYA  Masato TSUKADA  Ken-ichi YUKIMATSU  

     
    PAPER-Circuit Switching and Cross-Connecting

      Vol:
    E82-C No:2
      Page(s):
    265-273

    This paper describes the implementation and demonstration of local networks for the hyper-media photonic information network (HM-PIN), a candidate for the information service platform offering broadcast and telecommunication services. In addition, the feasibility of the HM-PIN is also demonstrated using prototype local network systems. This local network adopts architecture based on wavelength-division-multiplexing (WDM) and broadcast-and-select (B&S) switching, and supports all HM-PIN services except inter-local-network communication. The major issues of this proposed network are the technologies that support many broadcast channels and reduce channel selection cost. This paper also considers the combination of WDM technology and three alternatives: electrical TDM, subcarrier multiplexing (SCM or electrical FDM), and optical TDM (O-TDM). Three 128 ch (8 wavelengths 16 channels) WDM B&S prototype systems are built to demonstrate the feasibility of the proposed HM-PIN. In WDM/SCM, 30 and 20 Mb/s channels are realized as 16-QAM and 64-QAM, and 155 Mb/s channels are realized by WDM/TDM. Moreover, these three prototypes were connected to form a small HM-PIN and applications such as video distribution and IP datagram cut-through are demonstrated. Furthermore, the delay and throughput of the HM-PIN are evaluated by connecting a local network to a 200-km WDM-ring backbone network. Our discussions and demonstrations confirm the impact and feasibility of the proposed hyper-media photonic information network.

  • Merging Electronics and Photonics towards the Terabit/s ATM Switching

    Bruno BOSTICA  Luigi LICCIARDI  

     
    PAPER-Advanced technologies for ATM system

      Vol:
    E81-B No:2
      Page(s):
    459-465

    The paper is focused on the architectural and technological solutions that will allow the transition from small to huge capacity ATM Switching Systems. This path starts from the industrial nodes available today and will arrive at the photonic switching architecture. The progressive introduction of photonics has already started with the use of optical interconnections in ATM nodes of hundreds of Gbit/s. A balanced use of microelectronics and photonics is the correct answer to the Terabit/s switching system challenge. After presenting a modular ATM Switching System, some technological solutions like Multichip Modules and Optical Interconnections are presented in order to explain how node capacity can be expanded. Some results of the research activity on photonic Switching are finally shown in order to exploit the great attitude of this technique to obtain very high throughput nodes.

  • Advanced Photonic Switching Technology for Communications

    Masahiko FUJIWARA  

     
    INVITED PAPER

      Vol:
    E78-B No:5
      Page(s):
    644-653

    With the foreseen growth of communication capacity, further capacity and flexibility enhancements are required for future transport networks. Photonic switching is expected to be a key technology to solve the potential bottleneck, which could be found in transport network nodes. This paper first explains the "Optical Fiber Freeway" concept, as an example of future transport networks. Following this, the possible optical transport network structure using photonic switching technologies, for realizing the Optical Fiber Freeway concept, is explained. An Optical CrossConnect (OXC) and optical Add/Drop Multiplexer (ADM) are key components. Examples of recent development of photonic switching systems toward these targets are also reviewed. An OXC using photonic Space-Division (SD) switching technology has been proposed and demonstrated. This type of OXC will realize flexible reconfiguration and optical hitless switching, and it can meet the introduction of Wavelength Division Multiplexing (WDM) technique. Line failure restoration operation at 2.4Gb/s has been successfully demonstrated. An optical packet network with a slotted ring/bus structure using a wavelength address technique has been proposed as a packet/cell based optical ADM. The experimental system employs a practical media access control system as well as a fast-wavelength switched transmitter suppressing thermally induced wavelength drift. Cell communication at 622Mb/s has been demonstrated with the experimental system. These results show that hardware technologies have been developed steadily. With a future study on an all optical network management scheme, a high capacity and flexible optical network would be realized.

  • A New Optical Path Cross-Connect System Architecture Utilizing Delivery and Coupling Matrix Switch

    Satoru OKAMOTO  Atsushi WATANABE  Ken-ichi SATO  

     
    LETTER-Optical Communication

      Vol:
    E77-B No:10
      Page(s):
    1272-1274

    A new optical path cross-connect system architecture (OPXC) based on delivery and coupling matrix switches is described. This OPXC provides the maximum compatibility for a wavelength path (WP) network and a virtual wavelength path (VWP) network. In other words, the proposed architecture easily evolves from WP-OPXC to VWP-OPXC. This salient feature can not been achieved with conventional OPXCs. Another attractive feature of this OPXC is its high modularity for OPXC capacity expansion.

  • Analog Free-Space Optical Switch Structure Based on Cascaded Beam Shifters

    Masayasu YAMAGUCHI  Tohru MATSUNAGA  Seiiti SHIRAI  Ken-ichi YUKIMATSU  

     
    PAPER

      Vol:
    E77-B No:2
      Page(s):
    163-173

    This paper describes a new free-space optical switch structure based on cascaded beam shifters (each consists of a liquid-crystal polarization controller array and a birefringent plate). This structure comprises 2-input, 2-output switching elements that are locally connected by links. It is applicable to a variety of switching networks, such as a Clos network. The switching network based on this structure is an analog switch that is transparent to signal format, bit rate, and modulation type, so it can handle various types of optical signals. Theoretical feasibility studies indicate that compact large-scale switches (i.e., 100-1000 ports) with relay lens systems can be implemented using beam shifters with a 0.4-dB insertion loss and a 30-dB extinction ratio. Experimental feasibility studies indicate that a 1024-cell beam shifter module with a 0.5-dB insertion loss and a 23-dB extinction ratio is possible at present. An alignment-free assembly technique using precise alignment guides is also confirmed. An experimental 8-stage, 1024-input 256-output concentrator shows low insertion loss characteristics (6.8dB on average) owing to the low-loss beam shifters and the alignment-free assembly technique. Practical switching networks mainly require the improvement of the extinction ratio of the beam shifter module and the development of a fiber pig-tailing technique. This switch structure is applicable to transparent switching networks such as subscriber line concentrators and inter-module connectors.

  • Photonic Space-Division Switching Technologies for Broadband Networks

    Masahiko FUJIWARA  Tsuyotake SAWANO  

     
    INVITED PAPER

      Vol:
    E77-B No:2
      Page(s):
    110-118

    The photonic Space-Division (SD) switching network is attractive for constructing flexible broadband networks. This paper first describes possible applications of the network. A broadband STM switching system, Digital Cross-connect System (DCS) and Video signal distribution switch, especially for HDTV signals, are attractive near term applications. Recent activities on photonic SD switching network developments aiming at these application are also reviewed. A 128 line prototype switching system has been developed. This system utilizes LiNbO3 photonic switch matrices, semiconductor traveling wave amplifiers (TWAs) and three dimensional optical interconnections for multi stage switching networks. It is confirmed that the system has been operating in providing 150Mb/s TV phone services and 600Mb/s HDTV distribution services with high stability. An experimental optical Digital Crossconnect System (optical DCS) has also been demonstrated. Line failure restoration operation at 2.4Gb/s has been successfully demonstrated. These experimental demonstrations prove that practical photonic switching systems are feasible with current technologies.

  • Photonic Inter-Module Connector Using 88 Optical Switches for Near-Future Electronic Switching Systems

    Akira HIMENO  Ryo NAGASE  Toshio ITO  Kunikaru KATO  Masayuki OKUNO  

     
    PAPER

      Vol:
    E77-B No:2
      Page(s):
    155-162

    A photonic inter-module connector for near-future electronic switching systems is demonstrated through the use of silica-based 88 optical switches. A small-scale switch matrix is sufficient because the near-future systems will consist of a limited number of modules. If an active module is affected by a fatal fault or accident, a stand-by module must quickly take its place. The experimental photonic inter-module connector can switch 156-Mbit/s photonic interconnections between seven subscriber-line-concentrator modules and eight circuit-switching modules.

  • A Proposal of a New Photonic FDM Switching System FAPS--Frequency Assign Photonic Switching System--

    Tadahiko YASUI  Aritomo UEMURA  

     
    PAPER

      Vol:
    E77-B No:2
      Page(s):
    174-183

    Among various photonic switching technologies, photonic frequency division multiplexing technology is most promising. In this paper a novel photonic FDM (Frequency Division Multiplexing) system is proposed. The proposed system consists of n (multiplicity of frequencies) independent subnetworks, each of which is identified by a specific frequency, and of which each network topology is identical. When a connection is required by a terminal, the network selects a subnetwork that can afford it, and assigns a frequency representing the selected subnetwork to the terminal. This system eliminates frequency converting devices and traffic concentration equipment, which will reduce the size and cost of the system. A very small sized switching system of very large capacity will be easily realized. In this paper, first we will address the basic concept of the proposed system, and then discuss some technical problems and their solutions concerning network configuration, switch matrix structure, subscriber network configuration, control scheme and frequency multiplicity. Some experimental results are also mentioned.

  • Comparison of a Novel Photonic Frequency-Based Switching Network with Similar Architectures

    Hans-Hermann WITTE  

     
    PAPER

      Vol:
    E77-B No:2
      Page(s):
    147-154

    A photonic network with a space- and frequency switching capability is proposed. It provides point-to-point and point-to-multipoint connections without internal blocking. The switching network exclusively uses frequency switching stages and a shared-medium architecture. Our proposal is compared with similar published networks which are either also constructed solely from frequency switching stages or from frequency and space switching stages. It is shown that the proposed switching network features fewer optical and opto-electronic components, fewer different types of component/module, lower losses, a higher capacity and an easier expansibility.

  • Ultra Optoelectronic Devices for Photonic ATM Switching Systems with Tera-bits/sec Throughput

    Takeshi OZEKI  

     
    INVITED PAPER

      Vol:
    E77-B No:2
      Page(s):
    100-109

    Photonic ATM switching systems with Terabit/s throughput are desirable for future broadband ISDN systems. Since electronic LSI-based ATM switching systems are planned to have the throughput of 160Gb/s, a photonic ATM switching system should take the role of the highest layer in a hybrid switching network which includes electronic LSI-based ATM switching systems as its sub-system. This report discusses the state-of-the-art photonic devices needed for a frequency-self-routing ATM photonic switching system with maximum throughput of 5Tb/s. This kind of systems seems to be a moderate system for the first phase photonic switching system with no insuperable obstacle for initiating development, even though none of the devices and technologies required have yet been developed to meet the specifications. On the contrary, for realizing further enlarged throughput as the second-phase photonic switching system, there are huge fundamental research projects still remaining for establishing the technology utilizing the spectrum broadened over 120nm and highly-dense FDM technologies based on homodyne coherent detection, if supposing a simple architecture. "Ultra devices" seem to be the photonic devices based on new tailored materials of which gain and refractive index are designed to realize ultra-wide spectrum utilization.

  • Overview of Photonic Switching Systems Using Time-Division and Wavelength-Division Multiplexing

    Koso MURAKAMI  Satoshi KUROYANAGI  

     
    INVITED PAPER

      Vol:
    E77-B No:2
      Page(s):
    119-127

    The demand for large-capacity photonic switching systems will increase as regular broadband ISDN (B-ISDN) spreads and full-motion video terminals replace telephones. Large-scale and economical optical fiber transmission lines have been built based on time-division (TD) multiplexing. To reduce costs, it is important to increase the channel multiplexity of both transmission and switching systems by using TD and wavelength-division (WD) or frequency-division (FD) technologies. We surveyed photonic switching systems' architecture and switching network structures. Switching can be divided into circuit or synchronous transfer mode (STM) switching, and asynchronous transfer mode (ATM) switching. A variety of photonic STM and ATM switching systems based on the two switching technologies have recently been proposed and demonstrated.

  • Recent Free-Space Photonic Switches

    Masayasu YAMAGUCHI  Ken-ichi YUKIMATSU  

     
    INVITED PAPER

      Vol:
    E77-B No:2
      Page(s):
    128-138

    This paper briefly reviews recent studies on free-space photonic switches, and discusses classifications, applications and technical issues to be solved. The free-space photonic switch is a switch that uses light beam interconnections based on free-space optics instead of guided-wave optics. A feature of the free-space switch is its high-density three-dimensional structure that enables compact large-scale switches to be created. In this paper, the free-space switches are classified by their various attributes such as logical network configuration, path-establishment method, number of physical stages, signal-waveform transmission form, interconnection optics and so on. The logical network configuration (topological geometry or topology) is strongly related to the advantages of the free-space switches over the guided-wave switches. The path-establishment method (path-shifting/branching-and-gating) and the number of physical stages (single-stage/multistage) are related to physical switching characteristics. Signal-waveform transmission form (analog/digital) is related to switch application. Interconnection optics (imaging system/micro-beam system) is related to the density and volume of the switching fabric. Examples of the free-space switches (single-stage, analog multistage, digital multistage and photonic ATM switches) are described. Possible applications for analog switches are subscriber-line concentrators, inter-module connectors, and switching networks for parallel or distributed computer systems. Those for digital switches include multistage space-division switches in time-division circuit-switching or packet switching systems (including asynchronous transfer mode [ATM] switching system) for both communications switching systems and parallel/distributed computer systems. Technical issues of the free-space switches (system, device, assembly technique) must be solved before creating practical systems. In particular, the assembly technique is a key issue of the free-space switches.

  • Wavelength Path Network Management Scheme for Multimedia Photonic Network

    Naoaki YAMANAKA  Shin-ichiro CHAKI  

     
    LETTER

      Vol:
    E76-B No:7
      Page(s):
    731-735

    A wavelength path (WP) network management scheme is proposed for a photonic network. Multimedia data streams are integrated into a single-mode fiber using wave-length division WP multiplexing; both analog/digital and STM/ATM communications are handled. The WP management scheme using WP blocks (WPBs) with guard bands is described. An initially assigned WP does not use the guard band and most bandwidth changes made to accommodate WP changes occur within the original WPB using the guard band. An effective WP assignment method based on a recursive packing scheme is also proposed. The proposed WP packing scheme with guard band realizes a maximum network efficiency of 98%, and the probability of WP reassignment is under 10%. The techniques introduced in this paper permit the realization of flexible and effective multimedia services with a multimedia photonic network.

  • Trend of Photonic Switching Systems

    Shuji SUZUKI  Masahiko FUJIWARA  

     
    INVITED PAPER

      Vol:
    E75-B No:4
      Page(s):
    235-242

    A photonic switching system is expected to have advantages over a conventional electronic switching system in exchanging broadband signals. Extensive studies have recently done on various photonic switching systems. State-of-art technology in photonic switching systems is surveyed in this paper. Small-capacity space-division switching systems using waveguide optical matrix switches are most practical and expected to be introduced to broadband local-area network in the near future. Wavelength division switching technology is important in extending switching capacity to large value. Application of photonic switching technology for ATM switching systems is also recently extensively studied to achieve switching throughput larger than that of electronic ATM switches.

  • Vertical to Surface Transmission Electro-Photonic Device (VSTEP) and Its Application to Optical Interconnection and Information Processing

    Kenichi KASAHARA  Takahiro NUMAI  Hideo KOSAKA  Ichiro OGURA  Kaori KURIHARA  Mitsunori SUGIMOTO  

     
    PAPER

      Vol:
    E75-C No:1
      Page(s):
    70-80

    The VSTEP concept and its practical application in the form of an LED-type pnpn-VSTEP demonstrating low power consumption through electro-photonic operational modes are both shown. Further, with focus primarily on the new laser-mode VSTEP with high-intensity light output and narrow optical beam divergence, the design features such as threshold gain and optical absorptivity, device fabrication, and characteristics are explained. The possibility of ultimate performance based mainly on electrical to optical power conversion efficiency, important from the application viewpoint of optical interconnection, are also discussed. Also, as two examples of functional optical interconnection achieved by VSTEP, serial-to-parallel data conversion and optical self-routing switches are shown. Finally, future opto-electronic technologies to be developed for two-dimensionally integrable surface-type optical semiconductor devices, including the VSTEP, are discussed.

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