The Experts below are selected from a list of 99 Experts worldwide ranked by ideXlab platform
Noboru Okada - One of the best experts on this subject based on the ideXlab platform.
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Development of Cicada-Resist ant Optical Drop Cable
2020Co-Authors: Masayoshi Tsukamoto, Yutaka Hoshino, Noboru OkadaAbstract:[t has been found that tensile strength, durometer hardness and stress at yield point of sheath material has significant correlation with damage by cicada. With this result, we have newly developed cicada-resistant optical Drop Cables.
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Development of cicada-resistant optical Drop Cable
16th Opto-Electronics and Communications Conference, 2011Co-Authors: Masayoshi Tsukamoto, Yutaka Hoshino, Noboru OkadaAbstract:It has been found that tensile strength, durometer hardness and stress at yield point of sheath material has significant correlation with damage by cicada. With this result, we have newly developed cicada-resistant optical Drop Cables.
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Development of novel cicada-resistant optical Drop Cable
2010 Conference on Optical Fiber Communication (OFC NFOEC) collocated National Fiber Optic Engineers Conference, 2010Co-Authors: Masayoshi Tsukamoto, Eiji Konda, Yutaka Hoshino, Noboru OkadaAbstract:By observation of cicada ovipositor's movement, we found that tensile strength and hardness of sheath material are effective against cicada attack. And also, we have newly designed the optical Drop Cable with cicada-resistant sheath material.
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Development of "Cicada-Resistant" Optical Drop Cable with Protective Ribbon
OFC NFOEC 2008 - 2008 Conference on Optical Fiber Communication National Fiber Optic Engineers Conference, 2008Co-Authors: Masayoshi Tsukamoto, Hirokazu Sano, Tomio Ohhashi, Tetsuya Yasutomi, Noboru OkadaAbstract:"Cicada-resistant" optical Drop Cables with protective ribbons have been newly developed since optical fiber breakages of the conventional optical Drop Cable have often occurred in Japan due to laying eggs of cicadas.
Masayoshi Tsukamoto - One of the best experts on this subject based on the ideXlab platform.
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Development of Cicada-Resist ant Optical Drop Cable
2020Co-Authors: Masayoshi Tsukamoto, Yutaka Hoshino, Noboru OkadaAbstract:[t has been found that tensile strength, durometer hardness and stress at yield point of sheath material has significant correlation with damage by cicada. With this result, we have newly developed cicada-resistant optical Drop Cables.
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Development of cicada-resistant optical Drop Cable
16th Opto-Electronics and Communications Conference, 2011Co-Authors: Masayoshi Tsukamoto, Yutaka Hoshino, Noboru OkadaAbstract:It has been found that tensile strength, durometer hardness and stress at yield point of sheath material has significant correlation with damage by cicada. With this result, we have newly developed cicada-resistant optical Drop Cables.
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Development of novel cicada-resistant optical Drop Cable
2010 Conference on Optical Fiber Communication (OFC NFOEC) collocated National Fiber Optic Engineers Conference, 2010Co-Authors: Masayoshi Tsukamoto, Eiji Konda, Yutaka Hoshino, Noboru OkadaAbstract:By observation of cicada ovipositor's movement, we found that tensile strength and hardness of sheath material are effective against cicada attack. And also, we have newly designed the optical Drop Cable with cicada-resistant sheath material.
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Development of "Cicada-Resistant" Optical Drop Cable with Protective Ribbon
OFC NFOEC 2008 - 2008 Conference on Optical Fiber Communication National Fiber Optic Engineers Conference, 2008Co-Authors: Masayoshi Tsukamoto, Hirokazu Sano, Tomio Ohhashi, Tetsuya Yasutomi, Noboru OkadaAbstract:"Cicada-resistant" optical Drop Cables with protective ribbons have been newly developed since optical fiber breakages of the conventional optical Drop Cable have often occurred in Japan due to laying eggs of cicadas.
Choerudin Akhmad - One of the best experts on this subject based on the ideXlab platform.
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Perencanaan pembangunan distribusi jaringan FTTH pada wilayah Solo baru menggunakan aplikasi KML CSV converter dan google earth di PT. Telkom Akses Solo
2014Co-Authors: Choerudin AkhmadAbstract:Developments in the field of communication technology has a very important role in supporting communication-based broadband service quality. To meet the needs of particular communities of users of telecommunications services among households dihadirkanlah FTTH network technology (Fiber to the home). At the end of the task is done FTTH network development planning in the area of New Solo, Grogol, Solo by survey method using the Google Earth application and CSV converter KML. FTTH network design is made so that it can be access from a central technology solutions to the customer. The initial stage is to conduct a survey passes and get the data such as home address, home criteria, and the status of the subscription service or not Telkom. Survey data is inserted into the Google Earth application for prospecting mapped CSV and KML to giving the customer name in accordance with the provisions. Then determine the required tools and materials such as ODC, ODP, Pole, Feeder Cable, Distribution Cable, Cable Drop to the distribution network of the central can reach out to customers in an efficient and ideal. Then calculate the Link Budget with 3 conditions 1:32 one stage, two stage 1: 2 => 1: 4 and 1: 2 => 1:16 on Boundary 5 and compared among the three conditions to determine the most appropriate configuration. And the distance calculated is the closest distance, middle, and furthest from the STO to the ONT. From the comparison of the network can be inferred by looking at the average generated at 1:32 scenarios generate an average attenuation of 24.97 dB, in scenario 1: 2/1: 16 resulted in an average attenuation of 21.96 dB, and in scenario 1: 4/1: 8 generates an average of 21:14 dB attenuation. So on the Solo baru Area more appropriate to use scenario 1: 4/1: 8 for smaller damping emerges is 21:14 dB compared to using scenarios 1:32 and 1: 2/1: 16. And of the three scenarios, none of these exceed the maximum tolerance limit is 28 dB attenuation. Table BOQ (Bill of Quantity) generated at Boundary 5 is 1,632 kilometers Feeder Cable, Cable Distribution 5.9391 kilometers, 62.5 kilometers Drop Cable, ODC 1 Piece , ODP 78 Pieces, connectors 6875 Pieces and 22 pole pieces . Keyword : Fiber Optic, Fiber To The Home, Optical Network Termination, Optical Distribution Frame, Link Budget, Bill Of Quantity
K. Nishizawa - One of the best experts on this subject based on the ideXlab platform.
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Optical fiber Cables for residential and business premises
Journal of Lightwave Technology, 1998Co-Authors: K. Hogari, S. Furukawa, K. Tomiyama, Y. Nakatsuji, S. Koshio, K. NishizawaAbstract:This paper describes a new Drop Cable, a new cluster-type Drop Cable for residential premises, a new indoor Cable, a new termination Cable and a new riser Cable for fiber distribution in residential and business premises. The structural design of these Cables is investigated and the optimum structures for cost reduction of Cable and installation are obtained. Based on the results, these Cables are manufactured and their transmission and mechanical characteristics are confirmed to be stable.
Damas Priambodo Galih - One of the best experts on this subject based on the ideXlab platform.
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Perencanaan desain jaringan FTTH (Fiber To The Home) dengan serat optik menggunakan metode survey micro demand untuk wilayah Mojosongo Di Pt. Telkom Akses Solo
2014Co-Authors: Damas Priambodo GalihAbstract:The design fiber optic FTTH network is based on the high demand for data services and higher voice. In meeting the needs of users of telecommunications services especially among households, then built a fiber optic communication system architecture called FTTH (Fiber To The Home). In this thesis done design of FTTH network planning around the area Mojosongo using google earth applications and KMLCSV Converter. Network design was created in order to be an alternative access technology from the central toward to customers. The initial phase is a survey conducted to obtain passes the data such as home address, home criteria, and home phone subscription status or not. This survey data is inputted into the google earth application in accordance with appliCable regulations. Then specify the necessary tools such as STO, ODC, ODP, feeder Cable, Drop Cable and distribution Cable to the distribution network of the customer can be made central to the ideal. The materials required are made in the table BOQ (Bill Of Quantity) to facilitate the determination of the number of devices required. Calculating the link budget is used to determine the total value of attenuation resulting from STO to customers. Link budget is calculated for boundary 4 is used for the comparison of 3-state configurations, namely (1: 4 and 1: 8), (1: 2 and 1:16) and (1:32). The most ideal configuration using the (1:4 and 1:8) configuration produces a total of 20.66 dB attenuation for customers and 21:24 dB nearest to furthest customer. Keyword : Fiber To The Home, Boundary, STO, ODC, Survey Homepass, BoQ Table, Link Budget.